diff --git a/DESCRIPTION b/DESCRIPTION index b9bb1c8..b2c5205 100644 --- a/DESCRIPTION +++ b/DESCRIPTION @@ -1,6 +1,6 @@ Package: tcpl Title: ToxCast Data Analysis Pipeline -Version: 1.2.2 +Version: 1.4.3 Authors@R: c(person("Dayne L", "Filer", role = c("aut", "cre"), email = "dayne.filer@gmail.com"), person("Parth", "Kothiya", role = "ctb"), person("Woodrow R", "Setzer", role = "ctb"), person("Richard S", "Judson", @@ -10,16 +10,16 @@ Description: A set of tools for processing and modeling high-throughput and high-content chemical screening data. The package was developed for the the chemical screening data generated by the US EPA ToxCast program, but can be used for diverse chemical screening efforts. -URL: http://www.epa.gov/ncct/toxcast/ +URL: http://www.github.com/daynefiler/tcpl/ Depends: R (>= 3.2.0), data.table (>= 1.9.4) Imports: DBI, RMySQL, RSQLite, numDeriv, RColorBrewer, utils, stats, methods, graphics, grDevices Suggests: roxygen2 License: GPL-2 LazyData: true -RoxygenNote: 5.0.1 +RoxygenNote: 6.0.1 NeedsCompilation: no -Packaged: 2016-05-18 03:50:18 UTC; DFiler +Packaged: 2018-05-20 14:12:12 UTC; dayne Author: Dayne L Filer [aut, cre], Parth Kothiya [ctb], Woodrow R Setzer [ctb], @@ -27,4 +27,4 @@ Author: Dayne L Filer [aut, cre], Matthew T Martin [ctb, ths] Maintainer: Dayne L Filer Repository: CRAN -Date/Publication: 2016-05-18 06:53:36 +Date/Publication: 2018-05-20 14:37:56 UTC diff --git a/MD5 b/MD5 index f264da5..3d8c2eb 100644 --- a/MD5 +++ b/MD5 @@ -1,156 +1,157 @@ -22ff95a7cbed457cf32d1b6b4a9e3348 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+b775f79553ec3331d8083a851aa11c80 *man/tcplWriteLvl0.Rd +fd18d7def84f6e98e8fe3bfeccf73040 *vignettes/tcpl_Overview.Rnw diff --git a/NAMESPACE b/NAMESPACE index 1409eeb..0fb8897 100644 --- a/NAMESPACE +++ b/NAMESPACE @@ -1,101 +1,88 @@ -# Generated by roxygen2: do not edit by hand - -export(lu) -export(lw) -export(sink.reset) -export(tcplAICProb) -export(tcplAddModel) -export(tcplCode2CASN) -export(tcplConf) -export(tcplConfDefault) -export(tcplConfList) -export(tcplConfLoad) -export(tcplConfReset) -export(tcplConfSave) -export(tcplCytoPt) -export(tcplFit) -export(tcplHillACXX) -export(tcplHillConc) -export(tcplHillVal) -export(tcplListFlds) -export(tcplLoadAcid) -export(tcplLoadAeid) -export(tcplLoadAid) -export(tcplLoadAsid) -export(tcplLoadChem) -export(tcplLoadClib) -export(tcplLoadData) -export(tcplMakeAeidPlts) -export(tcplMthdAssign) -export(tcplMthdClear) -export(tcplMthdList) -export(tcplMthdLoad) -export(tcplObjCnst) -export(tcplObjGnls) -export(tcplObjHill) -export(tcplPlotFitc) -export(tcplPlotFits) -export(tcplPlotM4ID) -export(tcplPlotPlate) -export(tcplPrepOtpt) -export(tcplQuery) -export(tcplRegister) -export(tcplRun) -export(tcplSendQuery) -export(tcplSubsetChid) -export(tcplUpdate) -export(tcplVarMat) -export(tcplWriteLvl0) -import(DBI) -import(data.table) -importFrom(RColorBrewer,brewer.pal) -importFrom(RMySQL,MySQL) -importFrom(RSQLite,SQLite) -importFrom(grDevices,col2rgb) -importFrom(grDevices,colorRampPalette) -importFrom(grDevices,graphics.off) -importFrom(grDevices,pdf) -importFrom(grDevices,rgb) -importFrom(graphics,abline) -importFrom(graphics,axTicks) -importFrom(graphics,axis) -importFrom(graphics,box) -importFrom(graphics,curve) -importFrom(graphics,layout) -importFrom(graphics,legend) -importFrom(graphics,lines) -importFrom(graphics,par) -importFrom(graphics,plot) -importFrom(graphics,plot.new) -importFrom(graphics,plot.window) -importFrom(graphics,points) -importFrom(graphics,polygon) -importFrom(graphics,rect) -importFrom(graphics,text) -importFrom(methods,is) -importFrom(numDeriv,hessian) -importFrom(parallel,detectCores) -importFrom(parallel,mclapply) -importFrom(stats,constrOptim) -importFrom(stats,dist) -importFrom(stats,dt) -importFrom(stats,lm) -importFrom(stats,mad) -importFrom(stats,median) -importFrom(stats,optim) -importFrom(stats,quantile) -importFrom(stats,reformulate) -importFrom(utils,write.csv) -importMethodsFrom(RMySQL,dbClearResult) -importMethodsFrom(RMySQL,dbConnect) -importMethodsFrom(RMySQL,dbDisconnect) -importMethodsFrom(RMySQL,dbSendQuery) -importMethodsFrom(RMySQL,dbWriteTable) -importMethodsFrom(RSQLite,dbClearResult) -importMethodsFrom(RSQLite,dbConnect) -importMethodsFrom(RSQLite,dbDisconnect) -importMethodsFrom(RSQLite,dbExistsTable) -importMethodsFrom(RSQLite,dbGetQuery) -importMethodsFrom(RSQLite,dbRemoveTable) -importMethodsFrom(RSQLite,dbSendQuery) -importMethodsFrom(RSQLite,dbWriteTable) +# Generated by roxygen2: do not edit by hand + +export(lu) +export(lw) +export(sink.reset) +export(tcplAICProb) +export(tcplAddModel) +export(tcplCode2CASN) +export(tcplConf) +export(tcplConfDefault) +export(tcplConfList) +export(tcplConfLoad) +export(tcplConfReset) +export(tcplConfSave) +export(tcplCytoPt) +export(tcplFit) +export(tcplHillACXX) +export(tcplHillConc) +export(tcplHillVal) +export(tcplListFlds) +export(tcplLoadAcid) +export(tcplLoadAeid) +export(tcplLoadAid) +export(tcplLoadAsid) +export(tcplLoadChem) +export(tcplLoadClib) +export(tcplLoadData) +export(tcplMakeAeidPlts) +export(tcplMthdAssign) +export(tcplMthdClear) +export(tcplMthdList) +export(tcplMthdLoad) +export(tcplObjCnst) +export(tcplObjGnls) +export(tcplObjHill) +export(tcplPlotFitc) +export(tcplPlotFits) +export(tcplPlotM4ID) +export(tcplPlotPlate) +export(tcplPrepOtpt) +export(tcplQuery) +export(tcplRegister) +export(tcplRun) +export(tcplSendQuery) +export(tcplSubsetChid) +export(tcplUpdate) +export(tcplVarMat) +export(tcplWriteLvl0) +import(DBI) +import(data.table) +importFrom(RColorBrewer,brewer.pal) +importFrom(RMySQL,MySQL) +importFrom(RSQLite,SQLite) +importFrom(grDevices,col2rgb) +importFrom(grDevices,colorRampPalette) +importFrom(grDevices,graphics.off) +importFrom(grDevices,pdf) +importFrom(grDevices,rgb) +importFrom(graphics,abline) +importFrom(graphics,axTicks) +importFrom(graphics,axis) +importFrom(graphics,box) +importFrom(graphics,curve) +importFrom(graphics,layout) +importFrom(graphics,legend) +importFrom(graphics,lines) +importFrom(graphics,par) +importFrom(graphics,plot) +importFrom(graphics,plot.new) +importFrom(graphics,plot.window) +importFrom(graphics,points) +importFrom(graphics,polygon) +importFrom(graphics,rect) +importFrom(graphics,text) +importFrom(methods,is) +importFrom(numDeriv,hessian) +importFrom(parallel,detectCores) +importFrom(parallel,mclapply) +importFrom(stats,constrOptim) +importFrom(stats,dist) +importFrom(stats,dt) +importFrom(stats,lm) +importFrom(stats,mad) +importFrom(stats,median) +importFrom(stats,optim) +importFrom(stats,quantile) +importFrom(stats,reformulate) +importFrom(utils,write.csv) diff --git a/NEWS b/NEWS index d760955..298b077 100644 --- a/NEWS +++ b/NEWS @@ -1,74 +1,102 @@ -tcpl v1.2.1 -============== - -Changes from v1.2 - -* A try-statement was added to the underlying function that draws the plot for - tcplPlotHeat, so that the function does not return a figure margin error when - running the checks for the package. - - -tcpl v1.2 -============== - -Changes from beta versions: - -* The tcpl4 function now checks the new 'fit_all' field in the - assay_component_endpoint table, and will attempt to fit every curve when - 'fit_all' is 1. -* The TCPL_CHEM and TCPL_INT settings have been deprecated and are no longer - needed. To facilitate easier use and understanding, chemical tables included - in the tcpl database are restructured. -* The TCPL_LOG setting has been deprecated. -* tcplUpdate is renamed to tcplSendQuery. -* Single concentration screening is now implemented. -* Added tcplRegister and tcplUpdate to make populating the database with new - data easier. -* Changed the underlying database structure. The old database will not work - with beta versions of the package. -* tcplPlotL4ID is now tcplPlotM4ID to match the new database structure. -* The tcpl1, tcpl2, etc. functions have been renamed and are no longer - exported. All processing is intended to occur through the tcplRun function. -* tcplRunPipe is now tcplRun, and no longer defaults to writing a log file. - A log file can still be written using the 'outfile' setting, as previously. -* Level 5 multiple-concentration processing has changed -- there is no longer - a minimum cutoff. All cutoff values must be specified with the new level 5 - methods. -* Level 6 multiple-concentration processing has changed -- some of the flag - methodologies were updated. -* tcplSetOpts renamed to tcplConf. -* tcplSetOpts (now called tcplConf) can now be given only one or a subset of - settings to change. -* tcplListOpts renamed to tcplConfList. -* tcplConfLoad, tcplConfSave, tcplConfDefault, and tcplConfReset added to make - working with the package settings easier for the user. -* Due a change in the underlying code for `rapply` the package now must use - R version 3.2.0 or higher. -* Added processing methods. -* tcplWriteLvl0 now excludes loading data for acsn values that are not - registered, but will load data for acsn values that are registered without - returning an error. -* tcpl now imports RMySQL. -* tcplACVal and tcplACXX renamed tcplHillConc and tcplHillACXX, respectively. -* tcplHillVal added. -* Bug in tcplPlotPlate that caused incorrect coloring when the input data.table - contained multiple assays is fixed. -* 'fname' paramter is added to tcplMakeAeidPlts, and the default filename is - changed. -* 'quant' parameter is added to tcplPlotPlate. -* tcplLoadAsid deprecated, and is no longer exported. -* tcplLoadUnit deprecated, and is no longer exported. -* The call to 'browser' in tcplPlotFits is changed to skip the other lines - in the loop to make scanning through plots a little easier. -* Extensive updates to documentation and the vignette, now called - "tcpl_Overview." -* tcplAssignMthd, tcplLoadMthd, tcplListMthd, and tcplClearMthd functions are - renamed as tcplMthd- (e.g. tcplMthdLoad instead of tcplLoadMthd). -* tcplMthdClear no longer returns TRUE, matching the behavior of tcplMthdAssign. -* Added tcplCytoPt function to calculate the cytotoxicity points for chemical - (this functionality used to be delivered by tcplVarMat, but is now separate). -* 'argx' and 'srgx' parameters are removed from tcplPrepOtpt. -* 'srgx' paramter is removed from tcplMakeAeidPlts. -* tcplLoadAsidInfo & tcplLoadAeidInfo deprecated, and are no longer exported. -* tcplPrepOtpt longer contains the 'clib' parameter. - + +tcpl v1.4.0 +============== + +Changes from v1.2.2 + +* .plotFit (not exported) was updated to work with the new behavior of `nchar` + for R>3.3 (PR#10/#26) + +* tcplPlotPlate now works with single-conc data. Previously it only worked with + the multi-conc data. (PR#14) + +* Deleted out the 'nddr' level 6 methods. They were specific to one dataset and + are no longer used. (PR#16) + +* Removed all instances of "with = FALSE" in data.table calls. (PR#25) + +* The package no longer writes to the installation directory. The vignette is + now built in TMPDIR and the location of the configuration file must be + specified by the user. This is to comply CRAN policies. The benefit to users + that share an installation, is they can now each have their own config file. + (PR#28) + +* The specific method imports were removed for the RSQLite and RMySQL packages. + This change reflects the new behavior of the RSQLite package. The RMySQL + imports were removed to simplify the package, as they were found unnecessary. + (PR#29) + +tcpl v1.2.2 +============== + +Changes from v1.2 + +* A try-statement was added to the underlying function that draws the plot for + tcplPlotHeat, so that the function does not return a figure margin error when + running the checks for the package. + + +tcpl v1.2 +============== + +Changes from beta versions: + +* The tcpl4 function now checks the new 'fit_all' field in the + assay_component_endpoint table, and will attempt to fit every curve when + 'fit_all' is 1. +* The TCPL_CHEM and TCPL_INT settings have been deprecated and are no longer + needed. To facilitate easier use and understanding, chemical tables included + in the tcpl database are restructured. +* The TCPL_LOG setting has been deprecated. +* tcplUpdate is renamed to tcplSendQuery. +* Single concentration screening is now implemented. +* Added tcplRegister and tcplUpdate to make populating the database with new + data easier. +* Changed the underlying database structure. The old database will not work + with beta versions of the package. +* tcplPlotL4ID is now tcplPlotM4ID to match the new database structure. +* The tcpl1, tcpl2, etc. functions have been renamed and are no longer + exported. All processing is intended to occur through the tcplRun function. +* tcplRunPipe is now tcplRun, and no longer defaults to writing a log file. + A log file can still be written using the 'outfile' setting, as previously. +* Level 5 multiple-concentration processing has changed -- there is no longer + a minimum cutoff. All cutoff values must be specified with the new level 5 + methods. +* Level 6 multiple-concentration processing has changed -- some of the flag + methodologies were updated. +* tcplSetOpts renamed to tcplConf. +* tcplSetOpts (now called tcplConf) can now be given only one or a subset of + settings to change. +* tcplListOpts renamed to tcplConfList. +* tcplConfLoad, tcplConfSave, tcplConfDefault, and tcplConfReset added to make + working with the package settings easier for the user. +* Due a change in the underlying code for `rapply` the package now must use + R version 3.2.0 or higher. +* Added processing methods. +* tcplWriteLvl0 now excludes loading data for acsn values that are not + registered, but will load data for acsn values that are registered without + returning an error. +* tcpl now imports RMySQL. +* tcplACVal and tcplACXX renamed tcplHillConc and tcplHillACXX, respectively. +* tcplHillVal added. +* Bug in tcplPlotPlate that caused incorrect coloring when the input data.table + contained multiple assays is fixed. +* 'fname' paramter is added to tcplMakeAeidPlts, and the default filename is + changed. +* 'quant' parameter is added to tcplPlotPlate. +* tcplLoadAsid deprecated, and is no longer exported. +* tcplLoadUnit deprecated, and is no longer exported. +* The call to 'browser' in tcplPlotFits is changed to skip the other lines + in the loop to make scanning through plots a little easier. +* Extensive updates to documentation and the vignette, now called + "tcpl_Overview." +* tcplAssignMthd, tcplLoadMthd, tcplListMthd, and tcplClearMthd functions are + renamed as tcplMthd- (e.g. tcplMthdLoad instead of tcplLoadMthd). +* tcplMthdClear no longer returns TRUE, matching the behavior of tcplMthdAssign. +* Added tcplCytoPt function to calculate the cytotoxicity points for chemical + (this functionality used to be delivered by tcplVarMat, but is now separate). +* 'argx' and 'srgx' parameters are removed from tcplPrepOtpt. +* 'srgx' paramter is removed from tcplMakeAeidPlts. +* tcplLoadAsidInfo & tcplLoadAeidInfo deprecated, and are no longer exported. +* tcplPrepOtpt longer contains the 'clib' parameter. + diff --git a/R/Models.R b/R/Models.R index c6141cc..ce631b7 100644 --- a/R/Models.R +++ b/R/Models.R @@ -1,36 +1,36 @@ -#' @name Models -#' @aliases Models -#' @title Model objective functions -#' -#' @description -#' These functions take in the dose-response data and the model parameters, and -#' return a likelyhood value. They are intended to be optimized using -#' \code{\link{constrOptim}} in the \code{\link{tcplFit}} function. -#' -#' @param p Numeric, the parameter values. See details for more information. -#' @param lconc Numeric, the log10 concentration values -#' @param resp Numeric, the response values -#' -#' @details -#' These functions produce an estimated value based on the model and given -#' parameters for each observation. Those estimated values are then used with -#' the observed values and a scale term to calculate the log-likelyhood. -#' -#' Let \eqn{t(z,\nu)} be the Student's t-ditribution with \eqn{\nu} degrees of -#' freedom, \eqn{y_{i}}{y[i]} be the observed response at the \eqn{i^{th}}{ith} -#' observation, and \eqn{\mu_{i}}{\mu[i]} be the estimated response at the \eqn{i^{th}}{ith} -#' observation. We calculate \eqn{z_{i}}{z[i]} as: -#' \deqn{ -#' z_{i} = \frac{y_{i} - \mu_{i}}{e^\sigma} -#' }{ -#' z[i] = (y[i] - \mu[i])/e^\sigma -#' } -#' where \eqn{\sigma} is the scale term. Then the log-likelyhood is: -#' \deqn{ -#' \sum_{i=1}^{n} [ln(t(z_{i}, 4)) - \sigma] -#' }{ -#' sum_{i=1}^{n} [ln(t(z[i], 4)) - \sigma]} -#' Where \eqn{n} is the number of observations. -#' -#' @return The log-likelyhood. -NULL +#' @name Models +#' @aliases Models +#' @title Model objective functions +#' +#' @description +#' These functions take in the dose-response data and the model parameters, and +#' return a likelyhood value. They are intended to be optimized using +#' \code{\link{constrOptim}} in the \code{\link{tcplFit}} function. +#' +#' @param p Numeric, the parameter values. See details for more information. +#' @param lconc Numeric, the log10 concentration values +#' @param resp Numeric, the response values +#' +#' @details +#' These functions produce an estimated value based on the model and given +#' parameters for each observation. Those estimated values are then used with +#' the observed values and a scale term to calculate the log-likelyhood. +#' +#' Let \eqn{t(z,\nu)} be the Student's t-ditribution with \eqn{\nu} degrees of +#' freedom, \eqn{y_{i}}{y[i]} be the observed response at the \eqn{i^{th}}{ith} +#' observation, and \eqn{\mu_{i}}{\mu[i]} be the estimated response at the \eqn{i^{th}}{ith} +#' observation. We calculate \eqn{z_{i}}{z[i]} as: +#' \deqn{ +#' z_{i} = \frac{y_{i} - \mu_{i}}{e^\sigma} +#' }{ +#' z[i] = (y[i] - \mu[i])/e^\sigma +#' } +#' where \eqn{\sigma} is the scale term. Then the log-likelyhood is: +#' \deqn{ +#' \sum_{i=1}^{n} [ln(t(z_{i}, 4)) - \sigma] +#' }{ +#' sum_{i=1}^{n} [ln(t(z[i], 4)) - \sigma]} +#' Where \eqn{n} is the number of observations. +#' +#' @return The log-likelyhood. +NULL diff --git a/R/assay_funcs.R b/R/assay_funcs.R index cbc548c..6c95b83 100644 --- a/R/assay_funcs.R +++ b/R/assay_funcs.R @@ -1,50 +1,50 @@ -#' @name Load assay information -#' @rdname assay_funcs -#' @title Functions for loading assay information -#' -#' @description -#' These functions query the tcpl databases and returns a data.table with -#' assay ID and name information. More information about the assay -#' hierarchy is available in the overview vignette. -#' -#' @param fld Character, the field(s) to query/subset on -#' @param val List, vectors of values for each field to query/subset on. Must -#' be in the same order as 'fld'. -#' @param add.fld Character, additional field(s) to include, but not query/ -#' subset on -#' -#' @details -#' Each element in the assay hierarchy has its own function, loading the ID and -#' name for the given assay element. For example, \code{tcplLoadAsid} will -#' return the assay source ID (asid) and assay source name (asnm). -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## The load assay functions can be used without any parameters to list the -#' ## full list of registered assay elements: -#' tcplLoadAsid() -#' tcplLoadAeid() -#' -#' ## Similarly, the user can add fields without doing any element selection: -#' tcplLoadAeid(add.fld = c("asid", "aid", "acid")) -#' -#' ## Or, the user can look only at a subset: -#' tcplLoadAeid(fld = "aeid", val = 1, add.fld = "asid") -#' -#' ## The field can be any value in one of the corresponding assay element -#' ## tables, but the functions also recognize the abbreviated version of -#' ## the name fields. -#' tcplListFlds("assay") -#' a1 <- tcplLoadAeid(fld = "anm", val = "Steroidogenesis") -#' a2 <- tcplLoadAeid(fld = "assay_name", val = "Steroidogenesis") -#' identical(a1, a2) -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @return A data.table containing the ID, name, and any additional fields. +#' @name Load assay information +#' @rdname assay_funcs +#' @title Functions for loading assay information +#' +#' @description +#' These functions query the tcpl databases and returns a data.table with +#' assay ID and name information. More information about the assay +#' hierarchy is available in the overview vignette. +#' +#' @param fld Character, the field(s) to query/subset on +#' @param val List, vectors of values for each field to query/subset on. Must +#' be in the same order as 'fld'. +#' @param add.fld Character, additional field(s) to include, but not query/ +#' subset on +#' +#' @details +#' Each element in the assay hierarchy has its own function, loading the ID and +#' name for the given assay element. For example, \code{tcplLoadAsid} will +#' return the assay source ID (asid) and assay source name (asnm). +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## The load assay functions can be used without any parameters to list the +#' ## full list of registered assay elements: +#' tcplLoadAsid() +#' tcplLoadAeid() +#' +#' ## Similarly, the user can add fields without doing any element selection: +#' tcplLoadAeid(add.fld = c("asid", "aid", "acid")) +#' +#' ## Or, the user can look only at a subset: +#' tcplLoadAeid(fld = "aeid", val = 1, add.fld = "asid") +#' +#' ## The field can be any value in one of the corresponding assay element +#' ## tables, but the functions also recognize the abbreviated version of +#' ## the name fields. +#' tcplListFlds("assay") +#' a1 <- tcplLoadAeid(fld = "anm", val = "Steroidogenesis") +#' a2 <- tcplLoadAeid(fld = "assay_name", val = "Steroidogenesis") +#' identical(a1, a2) +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @return A data.table containing the ID, name, and any additional fields. NULL \ No newline at end of file diff --git a/R/attachFormals.R b/R/attachFormals.R index a2ca900..b72cb71 100644 --- a/R/attachFormals.R +++ b/R/attachFormals.R @@ -1,9 +1,9 @@ -.attachFormals <- function(fun, envir = NULL) { - - if (is.null(envir)) envir <- parent.frame() - f <- formals(deparse(substitute(fun))) - f <- lapply(f, function(x) if(class(x) != "name") eval(x) else x) - mapply(assign, names(f), f, MoreArgs = list(envir = envir)) - NULL - +.attachFormals <- function(fun, envir = NULL) { + + if (is.null(envir)) envir <- parent.frame() + f <- formals(deparse(substitute(fun))) + f <- lapply(f, function(x) if(class(x) != "name") eval(x) else x) + mapply(assign, names(f), f, MoreArgs = list(envir = envir)) + NULL + } \ No newline at end of file diff --git a/R/blineShift.R b/R/blineShift.R index 549eae5..93be95a 100644 --- a/R/blineShift.R +++ b/R/blineShift.R @@ -1,53 +1,53 @@ -#------------------------------------------------------------------------------- -# blineShift: Shift baseline to 0 -#------------------------------------------------------------------------------- - -#' @name blineShift -#' @title Shift the baseline to 0 -#' -#' @description -#' \code{blineShift} Takes in dose-response data and shifts the baseline -#' to 0 based on the window. -#' -#' @param resp Numeric, the response values -#' @param logc Numeric, the log10 concentration values -#' @param wndw Numeric, the threshold window -#' -#' @note -#' This function is not exported and is not inteded to be used by the user. -#' -#' @return A numeric vector containing the shifted response values -#' -#' @seealso \code{\link{mc3_mthds}}, \code{\link{mc3}} -#' -#' @importFrom stats median lm - -blineShift <- function(resp, logc, wndw) { - - wndw <- unique(wndw)[1] - - ordr <- order(logc) - resp <- resp[ordr] - logc <- logc[ordr] - - uconc <- unique(logc) - nconc <- length(uconc) - - if (any(is.na(resp))) return(resp) - if (nconc < 4) return(resp) - - low <- 1:max(ceiling(nconc/4), 2) - rsub <- resp[which(logc %in% uconc[low])] - csub <- logc[which(logc %in% uconc[low])] - low_med <- median(rsub) - m <- lm(rsub ~ csub)$coefficients["csub"] - if (is.na(m)) m <- 0 - test1 <- abs(low_med) <= wndw - test2 <- abs(m) <= wndw/low[length(low)] - if (test1 & test2) resp <- resp - low_med - - resp[order(ordr)] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# blineShift: Shift baseline to 0 +#------------------------------------------------------------------------------- + +#' @name blineShift +#' @title Shift the baseline to 0 +#' +#' @description +#' \code{blineShift} Takes in dose-response data and shifts the baseline +#' to 0 based on the window. +#' +#' @param resp Numeric, the response values +#' @param logc Numeric, the log10 concentration values +#' @param wndw Numeric, the threshold window +#' +#' @note +#' This function is not exported and is not inteded to be used by the user. +#' +#' @return A numeric vector containing the shifted response values +#' +#' @seealso \code{\link{mc3_mthds}}, \code{\link{mc3}} +#' +#' @importFrom stats median lm + +blineShift <- function(resp, logc, wndw) { + + wndw <- unique(wndw)[1] + + ordr <- order(logc) + resp <- resp[ordr] + logc <- logc[ordr] + + uconc <- unique(logc) + nconc <- length(uconc) + + if (any(is.na(resp))) return(resp) + if (nconc < 4) return(resp) + + low <- 1:max(ceiling(nconc/4), 2) + rsub <- resp[which(logc %in% uconc[low])] + csub <- logc[which(logc %in% uconc[low])] + low_med <- median(rsub) + m <- lm(rsub ~ csub)$coefficients["csub"] + if (is.na(m)) m <- 0 + test1 <- abs(low_med) <= wndw + test2 <- abs(m) <= wndw/low[length(low)] + if (test1 & test2) resp <- resp - low_med + + resp[order(ordr)] + +} + +#------------------------------------------------------------------------------- diff --git a/R/buildAssayQ.R b/R/buildAssayQ.R index 74f66c3..6ee02e0 100644 --- a/R/buildAssayQ.R +++ b/R/buildAssayQ.R @@ -1,107 +1,107 @@ -#------------------------------------------------------------------------------- -# buildAssayQ: Generate query for assay information -#------------------------------------------------------------------------------- - -#' @title Generate query for assay information -#' -#' @description -#' \code{.buildAssayQ} generates a query string to load assay information -#' -#' @param out Character, the default fields to include -#' @param tblo Integer, the order to send the fields to prepOutput -#' @param fld Character, the field(s) to query/subset on -#' @param val List, vectors of values for each field to query/subset on. Must -#' be in the same order as 'fld'. -#' @param add.fld Character, additional field(s) to include, but not query/ -#' subset on -#' -#' @return A character containing the query to send to tcplQuery -#' -#' @import data.table - -.buildAssayQ <- function(out, tblo, fld = NULL, val = NULL, add.fld = NULL) { - - tbls <- c("assay_source", "assay", "assay_component", "assay_component_map", - "assay_component", "assay_component_endpoint") - - tblo <- tbls[tblo] - - fld <- .convertNames(fld) - add.fld <- .convertNames(add.fld) - - fld <- .prepField(fld = fld, tbl = tblo, db = getOption("TCPL_DB")) - add.fld <- .prepField(fld = add.fld, tbl = tblo, db = getOption("TCPL_DB")) - afld <- c(fld, - out, - add.fld) - afld <- afld[!duplicated(afld)] - - atbl <- unique(sapply(strsplit(afld, "[:.:]"), "[[", 1)) - tbls <- unique(tbls[min(match(atbl, tbls)):max(match(atbl, tbls))]) - if (!any(grepl("map", afld))) tbls <- tbls[tbls != "assay_component_map"] - - if (length(tbls) > 1) { - - tbl_link <- character() - if (all(c("assay_source", "assay") %in% tbls)) { - tbl_link <- c(tbl_link, "assay_source.asid = assay.asid") - } - if (all(c("assay", "assay_component") %in% tbls)) { - tbl_link <- c(tbl_link, "assay.aid = assay_component.aid") - } - if (all(c("assay_component", "assay_component_map") %in% tbls)) { - tbl_link <- c(tbl_link, "assay_component.acid = assay_component_map.acid") - } - if (all(c("assay_component", "assay_component_endpoint") %in% tbls)) { - tbl_link <- c(tbl_link, paste0("assay_component.acid = ", - "assay_component_endpoint.acid")) - } - - } else { - - tbl_link <- character() - - } - - - qformat <- paste("SELECT", - paste(afld, collapse = ", "), - "FROM", - paste(tbls, collapse = ", "), - if (length(tbl_link) > 0) "WHERE" else "", - paste(tbl_link, collapse = " AND ")) - - if (length(fld) > 0) { - - qformat <- paste(qformat, if (length(tbl_link) > 0) "AND" else "WHERE") - - qformat <- paste0(qformat, - " ", - paste(fld, "IN (%s)", collapse = " AND ")) - qformat <- paste0(qformat, ";") - - if (!is.list(val)) val <- list(val) - val <- lapply(val, function(x) paste0("\"", x, "\"", collapse = ",")) - - qstring <- do.call(sprintf, args = c(qformat, val)) - - } else { - - qstring <- qformat - - } - - qstring <- sub("assay_source_name", "assay_source_name AS asnm", qstring) - qstring <- sub("assay_name", "assay_name AS anm", qstring) - qstring <- sub("assay_component_name", - "assay_component_name AS acnm", - qstring) - qstring <- sub("assay_component_endpoint_name", - "assay_component_endpoint_name AS aenm", - qstring) - - qstring - -} - +#------------------------------------------------------------------------------- +# buildAssayQ: Generate query for assay information +#------------------------------------------------------------------------------- + +#' @title Generate query for assay information +#' +#' @description +#' \code{.buildAssayQ} generates a query string to load assay information +#' +#' @param out Character, the default fields to include +#' @param tblo Integer, the order to send the fields to prepOutput +#' @param fld Character, the field(s) to query/subset on +#' @param val List, vectors of values for each field to query/subset on. Must +#' be in the same order as 'fld'. +#' @param add.fld Character, additional field(s) to include, but not query/ +#' subset on +#' +#' @return A character containing the query to send to tcplQuery +#' +#' @import data.table + +.buildAssayQ <- function(out, tblo, fld = NULL, val = NULL, add.fld = NULL) { + + tbls <- c("assay_source", "assay", "assay_component", "assay_component_map", + "assay_component", "assay_component_endpoint") + + tblo <- tbls[tblo] + + fld <- .convertNames(fld) + add.fld <- .convertNames(add.fld) + + fld <- .prepField(fld = fld, tbl = tblo, db = getOption("TCPL_DB")) + add.fld <- .prepField(fld = add.fld, tbl = tblo, db = getOption("TCPL_DB")) + afld <- c(fld, + out, + add.fld) + afld <- afld[!duplicated(afld)] + + atbl <- unique(sapply(strsplit(afld, "[:.:]"), "[[", 1)) + tbls <- unique(tbls[min(match(atbl, tbls)):max(match(atbl, tbls))]) + if (!any(grepl("map", afld))) tbls <- tbls[tbls != "assay_component_map"] + + if (length(tbls) > 1) { + + tbl_link <- character() + if (all(c("assay_source", "assay") %in% tbls)) { + tbl_link <- c(tbl_link, "assay_source.asid = assay.asid") + } + if (all(c("assay", "assay_component") %in% tbls)) { + tbl_link <- c(tbl_link, "assay.aid = assay_component.aid") + } + if (all(c("assay_component", "assay_component_map") %in% tbls)) { + tbl_link <- c(tbl_link, "assay_component.acid = assay_component_map.acid") + } + if (all(c("assay_component", "assay_component_endpoint") %in% tbls)) { + tbl_link <- c(tbl_link, paste0("assay_component.acid = ", + "assay_component_endpoint.acid")) + } + + } else { + + tbl_link <- character() + + } + + + qformat <- paste("SELECT", + paste(afld, collapse = ", "), + "FROM", + paste(tbls, collapse = ", "), + if (length(tbl_link) > 0) "WHERE" else "", + paste(tbl_link, collapse = " AND ")) + + if (length(fld) > 0) { + + qformat <- paste(qformat, if (length(tbl_link) > 0) "AND" else "WHERE") + + qformat <- paste0(qformat, + " ", + paste(fld, "IN (%s)", collapse = " AND ")) + qformat <- paste0(qformat, ";") + + if (!is.list(val)) val <- list(val) + val <- lapply(val, function(x) paste0("\"", x, "\"", collapse = ",")) + + qstring <- do.call(sprintf, args = c(qformat, val)) + + } else { + + qstring <- qformat + + } + + qstring <- sub("assay_source_name", "assay_source_name AS asnm", qstring) + qstring <- sub("assay_name", "assay_name AS anm", qstring) + qstring <- sub("assay_component_name", + "assay_component_name AS acnm", + qstring) + qstring <- sub("assay_component_endpoint_name", + "assay_component_endpoint_name AS aenm", + qstring) + + qstring + +} + #------------------------------------------------------------------------------- \ No newline at end of file diff --git a/R/chemQueries.R b/R/chemQueries.R index b45f73f..3954ba8 100644 --- a/R/chemQueries.R +++ b/R/chemQueries.R @@ -1,100 +1,100 @@ -#------------------------------------------------------------------------------- -# .ChemQ: Create tcplLoadChem query string -#------------------------------------------------------------------------------- - -.ChemQ <- function(field, val, exact) { - - qformat <- - " - SELECT * FROM - ( - SELECT - spid, - chemical.* - FROM chemical - LEFT JOIN sample ON sample.chid = chemical.chid - UNION ALL - SELECT - spid, - chemical.* - FROM sample - LEFT JOIN chemical ON sample.chid = chemical.chid - WHERE chemical.chid IS NULL - ) AS cs - " - - if (getOption("TCPL_DRVR") == "SQLite") exact <- TRUE - - if (!is.null(field)) { - - nfld <- switch(field, - spid = "spid", - chid = "chid", - casn = "casn", - code = "casn", - "chnm") - - if (field == "code") val <- suppressWarnings(sapply(val, tcplCode2CASN)) - - qformat <- paste(qformat, "WHERE") - - if (nfld == "chnm") { - if (exact) { - qformat <- paste(qformat, "chnm IN (%s);") - val <- paste0("\"", val, "\"", collapse = ",") - qstring <- sprintf(qformat, val, val) - } else { - qformat <- paste(qformat, "chnm RLIKE %s;") - val <- paste0("\"", paste(val, collapse = "|"), "\"") - qstring <- sprintf(qformat, val, val) - } - } else { - qformat <- paste(qformat, nfld, "IN (%s)") - qstring <- sprintf(qformat, paste0("\"", val, "\"", collapse = ",")) - } - - } else { - - qstring <- qformat - - } - - qstring - -} - -#------------------------------------------------------------------------------- -# END .ChemQ -#------------------------------------------------------------------------------- - -#------------------------------------------------------------------------------- -# .ClibQ: Create tcplLoadClib query string -#------------------------------------------------------------------------------- - -.ClibQ <- function(field, val) { - - qformat <- "SELECT chid, clib FROM chemical_library" - - if (!is.null(field)) { - - nfld <- switch(field, - chid = "chid", - clib = "clib") - - qformat <- paste(qformat, "WHERE %s IN (%s);") - qstring <- sprintf(qformat, nfld, paste0("\"", val, "\"", collapse = ",")) - - } else { - - qstring <- paste0(qformat, ";") - - } - - qstring - -} - -#------------------------------------------------------------------------------- -# END .ClibQ -#------------------------------------------------------------------------------- - +#------------------------------------------------------------------------------- +# .ChemQ: Create tcplLoadChem query string +#------------------------------------------------------------------------------- + +.ChemQ <- function(field, val, exact) { + + qformat <- + " + SELECT * FROM + ( + SELECT + spid, + chemical.* + FROM chemical + LEFT JOIN sample ON sample.chid = chemical.chid + UNION ALL + SELECT + spid, + chemical.* + FROM sample + LEFT JOIN chemical ON sample.chid = chemical.chid + WHERE chemical.chid IS NULL + ) AS cs + " + + if (getOption("TCPL_DRVR") == "SQLite") exact <- TRUE + + if (!is.null(field)) { + + nfld <- switch(field, + spid = "spid", + chid = "chid", + casn = "casn", + code = "casn", + "chnm") + + if (field == "code") val <- suppressWarnings(sapply(val, tcplCode2CASN)) + + qformat <- paste(qformat, "WHERE") + + if (nfld == "chnm") { + if (exact) { + qformat <- paste(qformat, "chnm IN (%s);") + val <- paste0("\"", val, "\"", collapse = ",") + qstring <- sprintf(qformat, val, val) + } else { + qformat <- paste(qformat, "chnm RLIKE %s;") + val <- paste0("\"", paste(val, collapse = "|"), "\"") + qstring <- sprintf(qformat, val, val) + } + } else { + qformat <- paste(qformat, nfld, "IN (%s)") + qstring <- sprintf(qformat, paste0("\"", val, "\"", collapse = ",")) + } + + } else { + + qstring <- qformat + + } + + qstring + +} + +#------------------------------------------------------------------------------- +# END .ChemQ +#------------------------------------------------------------------------------- + +#------------------------------------------------------------------------------- +# .ClibQ: Create tcplLoadClib query string +#------------------------------------------------------------------------------- + +.ClibQ <- function(field, val) { + + qformat <- "SELECT chid, clib FROM chemical_library" + + if (!is.null(field)) { + + nfld <- switch(field, + chid = "chid", + clib = "clib") + + qformat <- paste(qformat, "WHERE %s IN (%s);") + qstring <- sprintf(qformat, nfld, paste0("\"", val, "\"", collapse = ",")) + + } else { + + qstring <- paste0(qformat, ";") + + } + + qstring + +} + +#------------------------------------------------------------------------------- +# END .ClibQ +#------------------------------------------------------------------------------- + diff --git a/R/clearSQLite.R b/R/clearSQLite.R new file mode 100644 index 0000000..8e700d0 --- /dev/null +++ b/R/clearSQLite.R @@ -0,0 +1,17 @@ +#------------------------------------------------------------------------------- +# .clearSQLite: clear out the sqlite db so it can be regenerated from scratch +#------------------------------------------------------------------------------- + +.clearSQLite <- function(db) { + + stopifnot(options()$TCPL_DRVR == "SQLite") + + tbls <- tcplQuery("SELECT name FROM sqlite_master WHERE type='table';") + tbls <- unname(unlist(tbls)) + keep <- c(grep("_methods", tbls, value = TRUE), "mc5_fit_categories") + reset_qs <- paste0("DELETE FROM ", tbls[!tbls %in% keep], ";") + sapply(reset_qs, tcplSendQuery) + +} + +#------------------------------------------------------------------------------- diff --git a/R/config_funcs.R b/R/config_funcs.R index aa13952..58fad11 100644 --- a/R/config_funcs.R +++ b/R/config_funcs.R @@ -1,38 +1,55 @@ -#' @name Configure functions -#' @rdname config_funcs -#' @title Functions for configuring the tcpl package -#' -#' @description -#' These functions are used to configure the tcpl settings. -#' -#' @param drvr Character of length 1, which database driver to use -#' @param user Character of length 1, the database server username -#' @param pass Character of length 1, the database server password -#' @param host Character of length 1, the database server -#' @param db Character of length 1, the name of the tcpl database -#' @param show.pass Logical, should the password be returned -#' -#' @details -#' Currently, the tcpl package only supports the "MySQL" and "SQLite" database -#' drivers. -#' -#' \code{tcplConf} changes \code{options} to set the tcpl-specific options, -#' most importantly to configure the connection to the tcpl databases. -#' \code{tcplConf} will only change non-null values, and can be used to -#' change a single value if needed. -#' -#' \code{tcplConfSave} modifies the TCPL.config file to reflect the current -#' tcpl settings. -#' -#' \code{tcplConfList} lists the values assigned to the tcpl global options. -#' -#' \code{tcplConfLoad} updates the tcpl settings to reflect the current -#' configuration file. -#' -#' \code{tcplConfDefault} changes the \code{options} to reflect the default -#' settings for the example SQLite database, but does not alter the -#' configuration file. -#' -#' \code{tcplConfReset} is used to generate the initial configuration script, -#' and can be used to reset or regenerate the configuration script by the user. -NULL +#' @name Configure functions +#' @rdname config_funcs +#' @title Functions for configuring the tcpl package +#' +#' @description +#' These functions are used to configure the tcpl settings. +#' +#' @param drvr Character of length 1, which database driver to use +#' @param user Character of length 1, the database server username +#' @param pass Character of length 1, the database server password +#' @param host Character of length 1, the database server +#' @param db Character of length 1, the name of the tcpl database +#' @param show.pass Logical, should the password be returned +#' +#' @details +#' Currently, the tcpl package only supports the "MySQL" and "SQLite" database +#' drivers. +#' +#' The settings can be stored in a configuration file to make the using the +#' package more user-friendly. To create the configuration file, the user must +#' first create a system environment variable ('TCPL_CONF') that points to to +#' the file. There is more information about system environment variables in +#' \code{\link{Startup}} and \code{\link{Sys.getenv}}. Briefly, the user +#' needs to modify the '.Renviron' file in their home directory. If the file +#' does not exist, create it, and add the following line: +#' +#' TCPL_CONF=path/to/confFile.conf +#' +#' Here 'path/to/confFile.conf' can be any path to a file. One suggestion would +#' be to include .tcplConf in the home directory, eg. TCPL_CONF=~/.tcplConf. +#' Note, '~' may not indicate the home directory on every operating system. +#' Once the environment variable is added, the user can change the settings +#' using \code{tcplConf}, then save the settings to the file given by the +#' TCPL_CONF environment variable running \code{tcplConfSave()}. +#' +#' \code{tcplConf} changes \code{options} to set the tcpl-specific options, +#' most importantly to configure the connection to the tcpl databases. +#' \code{tcplConf} will only change non-null values, and can be used to +#' change a single value if needed. +#' +#' \code{tcplConfSave} modifies the configuration file to reflect the current +#' tcpl settings. +#' +#' \code{tcplConfList} lists the values assigned to the tcpl global options. +#' +#' \code{tcplConfLoad} updates the tcpl settings to reflect the current +#' configuration file. +#' +#' \code{tcplConfDefault} changes the \code{options} to reflect the default +#' settings for the example SQLite database, but does not alter the +#' configuration file. +#' +#' \code{tcplConfReset} is used to generate the initial configuration script, +#' and can be used to reset or regenerate the configuration script by the user. +NULL diff --git a/R/convertNames.R b/R/convertNames.R index af81148..6856c98 100644 --- a/R/convertNames.R +++ b/R/convertNames.R @@ -1,26 +1,26 @@ -#------------------------------------------------------------------------------- -# convertNames: Convert assay names to their abbreviations -#------------------------------------------------------------------------------- - -#' @title Convert assay names to their abbreviations -#' -#' @description -#' \code{.convertNames} converts the assay names as they appear in the tcpl -#' database to their respective abbreviations -#' -#' @param names Character, strings to convert -#' -#' @return The same character vector given with any name strings converted to -#' the abbreviated version - -.convertNames <- function(names) { - - names <- sub("aenm", "assay_component_endpoint_name", names) - names <- sub("acnm", "assay_component_name", names) - names <- sub("anm", "assay_name", names) - names <- sub("asnm", "assay_source_name", names) - - names - -} +#------------------------------------------------------------------------------- +# convertNames: Convert assay names to their abbreviations +#------------------------------------------------------------------------------- + +#' @title Convert assay names to their abbreviations +#' +#' @description +#' \code{.convertNames} converts the assay names as they appear in the tcpl +#' database to their respective abbreviations +#' +#' @param names Character, strings to convert +#' +#' @return The same character vector given with any name strings converted to +#' the abbreviated version + +.convertNames <- function(names) { + + names <- sub("aenm", "assay_component_endpoint_name", names) + names <- sub("acnm", "assay_component_name", names) + names <- sub("anm", "assay_name", names) + names <- sub("asnm", "assay_source_name", names) + + names + +} \ No newline at end of file diff --git a/R/drawCircles.R b/R/drawCircles.R index 85ed0c8..c6143e5 100644 --- a/R/drawCircles.R +++ b/R/drawCircles.R @@ -1,56 +1,56 @@ -#------------------------------------------------------------------------------- -# drawCircles: draw circles on the current plot device -#------------------------------------------------------------------------------- - -#' @importFrom graphics polygon - -.drawCircles <- function(x, y, r, border = "black", col = NA, - lwd = 1, lty = "solid", n = 100) { - - if (length(x) < length(y)) { - x <- rep(x, length.out = length(y)) - } - - if (length(y) < length(x)) { - y <- rep(y, length.out = length(x)) - } - - inc <- 2*pi/n - angles <- angles <- seq(0, 2 * pi - inc, by = inc) - - if (length(col) < length(x)) { - col <- rep(col, length.out = length(x)) - } - - if (length(r) < length(x)) { - r <- rep(r, length.out = length(x)) - } - - if (length(lwd) < length(x)) { - lwd <- rep(lwd, length.out = length(x)) - } - - if (length(lty) < length(x)) { - lty <- rep(lty, length.out = length(x)) - } - - if (length(border) < length(x)) { - border <- rep(border, length.out = length(x)) - } - - invisible( - lapply(1:length(x), - function(i) { - xv <- cos(angles) * r[i] + x[i] - yv <- sin(angles) * r[i] + y[i] - polygon(xv, yv, - border = border[i], - col = col[i], - lty = lty[i], - lwd = lwd[i]) - }) - ) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# drawCircles: draw circles on the current plot device +#------------------------------------------------------------------------------- + +#' @importFrom graphics polygon + +.drawCircles <- function(x, y, r, border = "black", col = NA, + lwd = 1, lty = "solid", n = 100) { + + if (length(x) < length(y)) { + x <- rep(x, length.out = length(y)) + } + + if (length(y) < length(x)) { + y <- rep(y, length.out = length(x)) + } + + inc <- 2*pi/n + angles <- angles <- seq(0, 2 * pi - inc, by = inc) + + if (length(col) < length(x)) { + col <- rep(col, length.out = length(x)) + } + + if (length(r) < length(x)) { + r <- rep(r, length.out = length(x)) + } + + if (length(lwd) < length(x)) { + lwd <- rep(lwd, length.out = length(x)) + } + + if (length(lty) < length(x)) { + lty <- rep(lty, length.out = length(x)) + } + + if (length(border) < length(x)) { + border <- rep(border, length.out = length(x)) + } + + invisible( + lapply(1:length(x), + function(i) { + xv <- cos(angles) * r[i] + x[i] + yv <- sin(angles) * r[i] + y[i] + polygon(xv, yv, + border = border[i], + col = col[i], + lty = lty[i], + lwd = lwd[i]) + }) + ) + +} + +#------------------------------------------------------------------------------- diff --git a/R/flareFunc.R b/R/flareFunc.R index b03f9cc..d7af3a9 100644 --- a/R/flareFunc.R +++ b/R/flareFunc.R @@ -1,68 +1,68 @@ -#------------------------------------------------------------------------------- -# flareFunc: Calculate the weighted mean of a square to detect plate flares -#------------------------------------------------------------------------------- - -#' @title Calculate the weighted mean of a square to detect plate flares -#' -#' @description -#' \code{flareFunc} calculates the weighted mean of square regions to detect -#' plate flares. -#' -#' @param val Numeric, the well values -#' @param coli Integer, the well column index -#' @param rowi Integer, the well row index -#' @param apid Character, the assay plate id -#' @param r Integer, the number of wells from the center well (in one -#' direction) to make the square -#' -#' @seealso \code{\link{MC6_Methods}}, \code{\link{Method functions}}, -#' \code{\link{mc6}} -#' -#' @import data.table -#' @importFrom stats dist - -flareFunc <- function(val, coli, rowi, apid, r){ - - ## Variable-binding to pass R CMD Check - cold <- rowd <- flrv <- index <- NULL - - if (r > 4) r <- 4 - nrep <- (1 + 2*r)^2 - minc <- min(coli) - maxc <- max(coli) - minr <- min(rowi) - maxr <- max(rowi) - ordr <- order(apid, coli, rowi) - val <- val[ordr] - val[val > 100] <- 100 - coli <- coli[ordr] - rowi <- rowi[ordr] - apid <- apid[ordr] - val_len <- length(val) - adj <- -r:r - adj <- c(0, adj[-which(adj == 0)]) - adj_len <- length(adj) - adjc <- rep(adj, each = adj_len) - adjr <- rep(adj, times = adj_len) - adjd <- 1/as.matrix(dist(cbind(adjc, adjr)))[ , 1] - adjd[1] <- 1 - dat <- data.table(val = rep(val, nrep), - coli = rep(coli, nrep), - rowi = rep(rowi, nrep), - apid = rep(apid, nrep), - ordr = rep(ordr, nrep), - index = rep(1:nrep, each = val_len), - cold = rep(adjc, each = val_len), - rowd = rep(adjr, each = val_len), - adjd = rep(adjd, each = val_len)) - - dat[, coli := coli + cold] - dat[, rowi := rowi + rowd] - dat[, flrv := sum(val*adjd, na.rm = TRUE)/nrep - - max(val*adjd, na.rm = TRUE)/nrep, - by = list(apid, coli, rowi)] - dat[index == 1, flrv][order(ordr)][] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# flareFunc: Calculate the weighted mean of a square to detect plate flares +#------------------------------------------------------------------------------- + +#' @title Calculate the weighted mean of a square to detect plate flares +#' +#' @description +#' \code{flareFunc} calculates the weighted mean of square regions to detect +#' plate flares. +#' +#' @param val Numeric, the well values +#' @param coli Integer, the well column index +#' @param rowi Integer, the well row index +#' @param apid Character, the assay plate id +#' @param r Integer, the number of wells from the center well (in one +#' direction) to make the square +#' +#' @seealso \code{\link{MC6_Methods}}, \code{\link{Method functions}}, +#' \code{\link{mc6}} +#' +#' @import data.table +#' @importFrom stats dist + +flareFunc <- function(val, coli, rowi, apid, r){ + + ## Variable-binding to pass R CMD Check + cold <- rowd <- flrv <- index <- NULL + + if (r > 4) r <- 4 + nrep <- (1 + 2*r)^2 + minc <- min(coli) + maxc <- max(coli) + minr <- min(rowi) + maxr <- max(rowi) + ordr <- order(apid, coli, rowi) + val <- val[ordr] + val[val > 100] <- 100 + coli <- coli[ordr] + rowi <- rowi[ordr] + apid <- apid[ordr] + val_len <- length(val) + adj <- -r:r + adj <- c(0, adj[-which(adj == 0)]) + adj_len <- length(adj) + adjc <- rep(adj, each = adj_len) + adjr <- rep(adj, times = adj_len) + adjd <- 1/as.matrix(dist(cbind(adjc, adjr)))[ , 1] + adjd[1] <- 1 + dat <- data.table(val = rep(val, nrep), + coli = rep(coli, nrep), + rowi = rep(rowi, nrep), + apid = rep(apid, nrep), + ordr = rep(ordr, nrep), + index = rep(1:nrep, each = val_len), + cold = rep(adjc, each = val_len), + rowd = rep(adjr, each = val_len), + adjd = rep(adjd, each = val_len)) + + dat[, coli := coli + cold] + dat[, rowi := rowi + rowd] + dat[, flrv := sum(val*adjd, na.rm = TRUE)/nrep - + max(val*adjd, na.rm = TRUE)/nrep, + by = list(apid, coli, rowi)] + dat[index == 1, flrv][order(ordr)][] + +} + +#------------------------------------------------------------------------------- diff --git a/R/getConfFile.R b/R/getConfFile.R new file mode 100644 index 0000000..f5169c5 --- /dev/null +++ b/R/getConfFile.R @@ -0,0 +1,31 @@ +#------------------------------------------------------------------------------- +# .getConfFile: Get the conf file locoation and check that it is writable +#------------------------------------------------------------------------------- + +.getConfFile <- function() { + + conf_file <- Sys.getenv("TCPL_CONF") + if (conf_file == "") { + stop("Must add 'TCPL_CONF' environment variable to .Renviron file to ", + "store configuration settings. See ?tcplConf for more information.") + } else if (file.exists(conf_file)) { + if (file.access(conf_file, mode = 2) != 0) { + stop("The file given by 'TCPL_CONF' is not writeable. Please check the ", + "permissions on the file or update 'TCPL_CONF' in your .Renviron ", + "file.") + } + } else { + testfile <- try(cat("", file = conf_file)) + if (is(testfile, "try-error")) { + stop("Cannot write to the location given by 'TCPL_CONF'. ", + "Please check the ", + "permissions on the file or update 'TCPL_CONF' in your .Renviron ", + "file.") + } + } + + conf_file + +} + +#------------------------------------------------------------------------------- diff --git a/R/hill_utils.R b/R/hill_utils.R index 784cace..3b0ad24 100644 --- a/R/hill_utils.R +++ b/R/hill_utils.R @@ -1,53 +1,53 @@ -#' @name Hill model utilites -#' @rdname hill_utils -#' @title Functions to solve the Hill model -#' -#' @description -#' These functions solve for Hill model parameters. -#' -#' @details -#' \code{tcplHillVal} computes the value of the Hill model for a given log -#' concentration. -#' -#' \code{tcplHillACXX} computes the activity concentration for a Hill model for -#' a given activity level. -#' -#' \code{tcplHillConc} computes the Hill model concentration for a -#' given value. -#' -#' @param XX Numeric, the activity level (percentage of the top value) -#' @param val Numeric, the activity value -#' @param logc Numeric, the log concentration -#' @param tp Numeric, the top value from the Hill model -#' @param ga Numeric, the logAC50 value from the Hill model -#' @param gw Numeric, the Hill coefficient from the Hill model -#' @param bt Numierc, the bottom value from the Hill model -#' -#' @examples -#' ## The following code gives examples for a Hill model with a top of 50, -#' ## bottom of 0, AC50 of 1 and Hill coefficient of 1. -#' ## tcplHillVal calculates activity value given a concentration. tcplHillVal -#' ## will return the tp/2 when logc equals ga: -#' tcplHillVal(logc = 1, tp = 50, ga = 1, gw = 1, bt = 0) -#' -#' ## Here, tcplHillConc returns the concentration where the value equals 20 -#' tcplHillConc(val = 20, tp = 50, ga = 1, gw = 1, bt = 0) -#' -#' ## Note how this differs from tcplHillACXX: -#' tcplHillACXX(XX = 20, tp = 50, ga = 1, gw = 1, bt = 0) -#' -#' ## tcplHillACXX is based on the top value and allows the user to calculate -#' ## specifc activity concentrations based on a percentage of the top value -#' -#' ## For example, we can calculate the value for the concentration 0.25, then -#' ## use that value to check the other two functions. -#' -#' value <- tcplHillVal(logc = 0.25, tp = 50, ga = 1, gw = 1, bt = 0) -#' c1 <- tcplHillConc(val = value, tp = 50, ga = 1, gw = 1, bt = 0) -#' c2 <- tcplHillACXX(XX = value/50*100, tp = 50, ga = 1, gw = 1, bt = 0) -#' all.equal(0.25, c1, c2) -#' -#' ## Notice, the value had to be transformed to a percentage of the top value -#' ## when using tcplHillACXX - -NULL +#' @name Hill model utilites +#' @rdname hill_utils +#' @title Functions to solve the Hill model +#' +#' @description +#' These functions solve for Hill model parameters. +#' +#' @details +#' \code{tcplHillVal} computes the value of the Hill model for a given log +#' concentration. +#' +#' \code{tcplHillACXX} computes the activity concentration for a Hill model for +#' a given activity level. +#' +#' \code{tcplHillConc} computes the Hill model concentration for a +#' given value. +#' +#' @param XX Numeric, the activity level (percentage of the top value) +#' @param val Numeric, the activity value +#' @param logc Numeric, the log concentration +#' @param tp Numeric, the top value from the Hill model +#' @param ga Numeric, the logAC50 value from the Hill model +#' @param gw Numeric, the Hill coefficient from the Hill model +#' @param bt Numierc, the bottom value from the Hill model +#' +#' @examples +#' ## The following code gives examples for a Hill model with a top of 50, +#' ## bottom of 0, AC50 of 1 and Hill coefficient of 1. +#' ## tcplHillVal calculates activity value given a concentration. tcplHillVal +#' ## will return the tp/2 when logc equals ga: +#' tcplHillVal(logc = 1, tp = 50, ga = 1, gw = 1, bt = 0) +#' +#' ## Here, tcplHillConc returns the concentration where the value equals 20 +#' tcplHillConc(val = 20, tp = 50, ga = 1, gw = 1, bt = 0) +#' +#' ## Note how this differs from tcplHillACXX: +#' tcplHillACXX(XX = 20, tp = 50, ga = 1, gw = 1, bt = 0) +#' +#' ## tcplHillACXX is based on the top value and allows the user to calculate +#' ## specifc activity concentrations based on a percentage of the top value +#' +#' ## For example, we can calculate the value for the concentration 0.25, then +#' ## use that value to check the other two functions. +#' +#' value <- tcplHillVal(logc = 0.25, tp = 50, ga = 1, gw = 1, bt = 0) +#' c1 <- tcplHillConc(val = value, tp = 50, ga = 1, gw = 1, bt = 0) +#' c2 <- tcplHillACXX(XX = value/50*100, tp = 50, ga = 1, gw = 1, bt = 0) +#' all.equal(0.25, c1, c2) +#' +#' ## Notice, the value had to be transformed to a percentage of the top value +#' ## when using tcplHillACXX + +NULL diff --git a/R/interlaceFunc.R b/R/interlaceFunc.R index d39737c..468540f 100644 --- a/R/interlaceFunc.R +++ b/R/interlaceFunc.R @@ -1,74 +1,74 @@ -#------------------------------------------------------------------------------- -# interlaceFunc: Calculate the distance weighted mean of a square to detect -# interlaced (384 chemical plate) effects caused by potential -# spillage, volatility or overly non-random sample plating -#------------------------------------------------------------------------------- - -#' @title Calculate the weighted mean of a square to detect interlace effect -#' -#' @description -#' \code{interlaceFunc} calculates the distance weighted mean of square regions -#' from a 384-well plate that is interlaced onto a 1536 well plate to detect -#' non-random signals coming from the source plate -#' -#' @param val Numeric, the well values -#' @param intq Numeric, interlace quadrant -#' @param coli Integer, the well column index -#' @param rowi Integer, the well row index -#' @param apid Character, the assay plate id -#' @param r Integer, the number of wells from the center well (in one -#' direction) to make the square -#' -#' @seealso \code{\link{MC6_Methods}}, \code{\link{Method functions}}, -#' \code{\link{mc6}} -#' -#' @import data.table -#' @importFrom stats dist - -interlaceFunc <- function(val, intq, coli, rowi, apid, r){ - - ## Variable-binding to pass R CMD Check - cold <- rowd <- intv <- index <- NULL - - if (r > 4) r <- 4 - nrep <- (1 + 2*r)^2 - minc <- min(coli) - maxc <- max(coli) - minr <- min(rowi) - maxr <- max(rowi) - ordr <- order(apid, intq, coli, rowi) - val <- val[ordr] - val[val > 100] <- 100 - intq <- intq[ordr] - coli <- coli[ordr] - rowi <- rowi[ordr] - apid <- apid[ordr] - val_len <- length(val) - adj <- -r:r - adj <- c(0,adj[-which(adj == 0)]) - adj_len <- length(adj) - adjc <- rep(adj, each = adj_len) - adjr <- rep(adj, times = adj_len) - adjd <- 1/as.matrix(dist(cbind(2*adjc,adjr)))[,1] - adjd[1] <- 1 - dat <- data.table(val = rep(val, nrep), - coli = rep(coli, nrep), - rowi = rep(rowi, nrep), - apid = rep(apid, nrep), - intq = rep(intq, nrep), - ordr = rep(ordr, nrep), - index = rep(1:nrep, each = val_len), - cold = rep(adjc, each = val_len), - rowd = rep(adjr, each = val_len), - adjd = rep(adjd, each = val_len)) - - dat[, coli := coli + cold] - dat[, rowi := rowi + rowd] - dat[, intv := sum(val * adjd, na.rm = TRUE)/nrep - - max(val * adjd, na.rm = TRUE)/nrep, - by = list(apid, intq, coli, rowi)] - dat[index == 1, intv][order(ordr)][] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# interlaceFunc: Calculate the distance weighted mean of a square to detect +# interlaced (384 chemical plate) effects caused by potential +# spillage, volatility or overly non-random sample plating +#------------------------------------------------------------------------------- + +#' @title Calculate the weighted mean of a square to detect interlace effect +#' +#' @description +#' \code{interlaceFunc} calculates the distance weighted mean of square regions +#' from a 384-well plate that is interlaced onto a 1536 well plate to detect +#' non-random signals coming from the source plate +#' +#' @param val Numeric, the well values +#' @param intq Numeric, interlace quadrant +#' @param coli Integer, the well column index +#' @param rowi Integer, the well row index +#' @param apid Character, the assay plate id +#' @param r Integer, the number of wells from the center well (in one +#' direction) to make the square +#' +#' @seealso \code{\link{MC6_Methods}}, \code{\link{Method functions}}, +#' \code{\link{mc6}} +#' +#' @import data.table +#' @importFrom stats dist + +interlaceFunc <- function(val, intq, coli, rowi, apid, r){ + + ## Variable-binding to pass R CMD Check + cold <- rowd <- intv <- index <- NULL + + if (r > 4) r <- 4 + nrep <- (1 + 2*r)^2 + minc <- min(coli) + maxc <- max(coli) + minr <- min(rowi) + maxr <- max(rowi) + ordr <- order(apid, intq, coli, rowi) + val <- val[ordr] + val[val > 100] <- 100 + intq <- intq[ordr] + coli <- coli[ordr] + rowi <- rowi[ordr] + apid <- apid[ordr] + val_len <- length(val) + adj <- -r:r + adj <- c(0,adj[-which(adj == 0)]) + adj_len <- length(adj) + adjc <- rep(adj, each = adj_len) + adjr <- rep(adj, times = adj_len) + adjd <- 1/as.matrix(dist(cbind(2*adjc,adjr)))[,1] + adjd[1] <- 1 + dat <- data.table(val = rep(val, nrep), + coli = rep(coli, nrep), + rowi = rep(rowi, nrep), + apid = rep(apid, nrep), + intq = rep(intq, nrep), + ordr = rep(ordr, nrep), + index = rep(1:nrep, each = val_len), + cold = rep(adjc, each = val_len), + rowd = rep(adjr, each = val_len), + adjd = rep(adjd, each = val_len)) + + dat[, coli := coli + cold] + dat[, rowi := rowi + rowd] + dat[, intv := sum(val * adjd, na.rm = TRUE)/nrep - + max(val * adjd, na.rm = TRUE)/nrep, + by = list(apid, intq, coli, rowi)] + dat[index == 1, intv][order(ordr)][] + +} + +#------------------------------------------------------------------------------- diff --git a/R/is.odd.R b/R/is.odd.R index 9515315..a300967 100644 --- a/R/is.odd.R +++ b/R/is.odd.R @@ -1,24 +1,24 @@ -#------------------------------------------------------------------------------- -# is.odd: tests whether a value is odd or even, returning TRUE for odd -#------------------------------------------------------------------------------- - -#' @title Check for odd numbers -#' -#' @description -#' \code{is.odd} takes an integer vector, \code{x}, and returns TRUE for odd -#' integers. -#' -#' @param x An integer -#' -#' @return \code{TRUE} for odd integers and \code{FALSE} for even integers. -#' -#' @family tcpl abbreviations - -is.odd <- function(x) { - - if (!is.integer(x)) x <- as.integer(x) - x %% 2 != 0 - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# is.odd: tests whether a value is odd or even, returning TRUE for odd +#------------------------------------------------------------------------------- + +#' @title Check for odd numbers +#' +#' @description +#' \code{is.odd} takes an integer vector, \code{x}, and returns TRUE for odd +#' integers. +#' +#' @param x An integer +#' +#' @return \code{TRUE} for odd integers and \code{FALSE} for even integers. +#' +#' @family tcpl abbreviations + +is.odd <- function(x) { + + if (!is.integer(x)) x <- as.integer(x) + x %% 2 != 0 + +} + +#------------------------------------------------------------------------------- diff --git a/R/load6DR.R b/R/load6DR.R index b3b525e..e674928 100644 --- a/R/load6DR.R +++ b/R/load6DR.R @@ -1,53 +1,53 @@ -#------------------------------------------------------------------------------- -# .load6DR: Load data for tcpl6 -#------------------------------------------------------------------------------- - -#' @title Load data for tcpl6 -#' -#' @description -#' \code{.load6DR} loads dose-response data for tcpl6. - -.load6DR <- function(ae) { - - qformat <- - " - SELECT - mc4_agg.aeid, - mc4_agg.m4id, - mc4_agg.m3id, - spid, - logc, - rval, - resp, - apid, - rowi, - coli, - wllt, - cndx, - repi - FROM - mc0, - mc1, - mc3, - mc4_agg - WHERE - mc3.m3id = mc4_agg.m3id - AND - mc1.m1id = mc4_agg.m1id - AND - mc1.m0id = mc0.m0id - AND - mc0.m0id = mc4_agg.m0id - AND - mc4_agg.aeid = %s; - " - - qstring <- sprintf(qformat, ae) - - dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# .load6DR: Load data for tcpl6 +#------------------------------------------------------------------------------- + +#' @title Load data for tcpl6 +#' +#' @description +#' \code{.load6DR} loads dose-response data for tcpl6. + +.load6DR <- function(ae) { + + qformat <- + " + SELECT + mc4_agg.aeid, + mc4_agg.m4id, + mc4_agg.m3id, + spid, + logc, + rval, + resp, + apid, + rowi, + coli, + wllt, + cndx, + repi + FROM + mc0, + mc1, + mc3, + mc4_agg + WHERE + mc3.m3id = mc4_agg.m3id + AND + mc1.m1id = mc4_agg.m1id + AND + mc1.m0id = mc0.m0id + AND + mc0.m0id = mc4_agg.m0id + AND + mc4_agg.aeid = %s; + " + + qstring <- sprintf(qformat, ae) + + dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/lu.R b/R/lu.R index e32b613..14537d4 100644 --- a/R/lu.R +++ b/R/lu.R @@ -1,21 +1,21 @@ -#------------------------------------------------------------------------------- -# lu: Length of unique -#------------------------------------------------------------------------------- - -#' @title Abbreviation for \code{length(unique(x))} -#' -#' @description -#' \code{lu} takes a logical vector, \code{x}, and returns -#' \code{length(unique(x))}. -#' -#' @param x A logical -#' -#' @return The unique of the \code{TRUE} values in \code{x} -#' -#' @family tcpl abbreviations -#' @seealso \code{\link{unique}}, \code{\link{which}} -#' @export - -lu <- function(x) length(unique(x)) - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# lu: Length of unique +#------------------------------------------------------------------------------- + +#' @title Abbreviation for \code{length(unique(x))} +#' +#' @description +#' \code{lu} takes a logical vector, \code{x}, and returns +#' \code{length(unique(x))}. +#' +#' @param x A logical +#' +#' @return The unique of the \code{TRUE} values in \code{x} +#' +#' @family tcpl abbreviations +#' @seealso \code{\link{unique}}, \code{\link{which}} +#' @export + +lu <- function(x) length(unique(x)) + +#------------------------------------------------------------------------------- diff --git a/R/lw.R b/R/lw.R index baa0ea4..723681c 100644 --- a/R/lw.R +++ b/R/lw.R @@ -1,21 +1,21 @@ -#------------------------------------------------------------------------------- -# lw: Length of which is true -#------------------------------------------------------------------------------- - -#' @title Abbreviation for \code{length(which(x))} -#' -#' @description -#' \code{lw} takes a logical vector, \code{x}, and returns -#' \code{length(which(x))}. -#' -#' @param x A logical -#' -#' @return The length of the \code{TRUE} values in \code{x} -#' -#' @family tcpl abbreviations -#' @seealso \code{\link{length}}, \code{\link{which}} -#' @export - -lw <- function(x) length(which(x)) - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# lw: Length of which is true +#------------------------------------------------------------------------------- + +#' @title Abbreviation for \code{length(which(x))} +#' +#' @description +#' \code{lw} takes a logical vector, \code{x}, and returns +#' \code{length(which(x))}. +#' +#' @param x A logical +#' +#' @return The length of the \code{TRUE} values in \code{x} +#' +#' @family tcpl abbreviations +#' @seealso \code{\link{length}}, \code{\link{which}} +#' @export + +lw <- function(x) length(which(x)) + +#------------------------------------------------------------------------------- diff --git a/R/mc1.R b/R/mc1.R index 669c7f7..612207d 100644 --- a/R/mc1.R +++ b/R/mc1.R @@ -1,137 +1,137 @@ -#------------------------------------------------------------------------------- -# mc1: Perform level 1 processing -#------------------------------------------------------------------------------- - -#' @template proclvl -#' @templateVar LVL 1 -#' @templateVar type mc -#' -#' @param ac Integer of length 1, assay component id (acid) for processing. -#' @param wr Logical, whether the processed data should be written to the tcpl -#' database -#' -#' @details -#' Level 1 processing includes defining the concentration and replicate index, -#' cndx and repi, respectively. -#' -#' @import data.table - -mc1 <- function(ac, wr = FALSE) { - - ## Variable-binding to pass R CMD Check - conc <- wllt <- acid <- apid <- spid <- n <- rpid <- srcf <- NULL - cndx <- repi <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - ## Check the ac input - if (length(ac) > 1) { - warning("ac must be of length 1. Level 1 processing incomplete; no ", - "updates\n made to the mc1 table for ACIDS ", - paste(ac, collapse = ", "), ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - stime <- Sys.time() - - ## Load level 0 data - dat <- tcplLoadData(lvl = 0L, type = "mc", fld = "acid", val = ac) - - ## Check if any level 0 data was loaded - if (nrow(dat) == 0) { - warning("No level 0 data for ACID", ac, ". Level 1 processing incomplete;", - " no updates\n made to the mc1 table for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - - cat("Loaded L0 ACID", ac, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") - - stime <- Sys.time() - - ## Set conc to three significant figures - dat[ , conc := signif(conc, 3)] - - ## Define replicate id - # Order by the following columns - setkeyv(dat, c('acid', 'srcf', 'apid', 'coli', 'rowi', 'spid', 'conc')) - # Define rpid column for test compound wells - nconc <- dat[wllt == "t" , - list(n = lu(conc)), - by = list(acid, apid, spid)][ , list(nconc = min(n)), by = acid] - dat[wllt == "t" & acid %in% nconc[nconc > 1, acid], - rpid := paste(acid, spid, wllt, srcf, apid, "rep1", conc, sep = "_")] - dat[wllt == "t" & acid %in% nconc[nconc == 1, acid], - rpid := paste(acid, spid, wllt, srcf, "rep1", conc, sep = "_")] - # Define rpid column for non-test compound wells - dat[wllt != "t", - rpid := paste(acid, spid, wllt, srcf, apid, "rep1", conc, sep = "_")] - # Increment rpid - dat_rpid <- dat[ , rpid] - j = 2L - while (any(duplicated(dat_rpid))) { - ind <- duplicated(dat_rpid) - dat_rpid[ind] <- sub("_rep[0-9]+", paste0("_rep", j), dat_rpid[ind]) - j <- j + 1 - } - dat[ , rpid := dat_rpid] - rm(dat_rpid) - # Remove conc values from rpid - dat[ , rpid := sub("_([^_]+)$", "", rpid, useBytes = TRUE)] - - ## Define concentration index - indexfunc <- function(x) as.integer(rank(unique(x))[match(x, unique(x))]) - dat[ , cndx := indexfunc(conc), by = list(rpid)] - - ## Define replicate index - # Create temporary table containing the unique replicate ids - trdt <- unique(dat[wllt %in% c("t", "c") , list(acid, spid, wllt, rpid)]) - trdt_rpid <- trdt[ , rpid] - trdt[ , rpid := NULL] - trdt[ , repi := 1] - # Increment repi - while (any(duplicated(trdt))) { - trdt[duplicated(trdt), repi := repi + 1] - } - trdt[ , rpid := trdt_rpid] - rm(trdt_rpid) - # Map replicate index back to dat - setkey(dat, rpid) - setkey(trdt, rpid) - dat[ , repi := trdt[dat, repi]] - - ## Remove rpid column - dat[, rpid := NULL] - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Processed L1 ACID", ac, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - - res <- TRUE - - outcols <- c("m0id", "acid", "cndx", "repi") - dat <- dat[ , .SD, .SDcols = outcols] - - ## Load into mc1 table -- else return results - if (wr) { - stime <- Sys.time() - tcplWriteData(dat = dat, lvl = 1L, type = "mc") - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Wrote L1 ACID", ac, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - } else { - res <- c(res, list(dat)) - } - - return(res) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc1: Perform level 1 processing +#------------------------------------------------------------------------------- + +#' @template proclvl +#' @templateVar LVL 1 +#' @templateVar type mc +#' +#' @param ac Integer of length 1, assay component id (acid) for processing. +#' @param wr Logical, whether the processed data should be written to the tcpl +#' database +#' +#' @details +#' Level 1 processing includes defining the concentration and replicate index, +#' cndx and repi, respectively. +#' +#' @import data.table + +mc1 <- function(ac, wr = FALSE) { + + ## Variable-binding to pass R CMD Check + conc <- wllt <- acid <- apid <- spid <- n <- rpid <- srcf <- NULL + cndx <- repi <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + ## Check the ac input + if (length(ac) > 1) { + warning("ac must be of length 1. Level 1 processing incomplete; no ", + "updates\n made to the mc1 table for ACIDS ", + paste(ac, collapse = ", "), ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + stime <- Sys.time() + + ## Load level 0 data + dat <- tcplLoadData(lvl = 0L, type = "mc", fld = "acid", val = ac) + + ## Check if any level 0 data was loaded + if (nrow(dat) == 0) { + warning("No level 0 data for ACID", ac, ". Level 1 processing incomplete;", + " no updates\n made to the mc1 table for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + + cat("Loaded L0 ACID", ac, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") + + stime <- Sys.time() + + ## Set conc to three significant figures + dat[ , conc := signif(conc, 3)] + + ## Define replicate id + # Order by the following columns + setkeyv(dat, c('acid', 'srcf', 'apid', 'coli', 'rowi', 'spid', 'conc')) + # Define rpid column for test compound wells + nconc <- dat[wllt == "t" , + list(n = lu(conc)), + by = list(acid, apid, spid)][ , list(nconc = min(n)), by = acid] + dat[wllt == "t" & acid %in% nconc[nconc > 1, acid], + rpid := paste(acid, spid, wllt, srcf, apid, "rep1", conc, sep = "_")] + dat[wllt == "t" & acid %in% nconc[nconc == 1, acid], + rpid := paste(acid, spid, wllt, srcf, "rep1", conc, sep = "_")] + # Define rpid column for non-test compound wells + dat[wllt != "t", + rpid := paste(acid, spid, wllt, srcf, apid, "rep1", conc, sep = "_")] + # Increment rpid + dat_rpid <- dat[ , rpid] + j = 2L + while (any(duplicated(dat_rpid))) { + ind <- duplicated(dat_rpid) + dat_rpid[ind] <- sub("_rep[0-9]+", paste0("_rep", j), dat_rpid[ind]) + j <- j + 1 + } + dat[ , rpid := dat_rpid] + rm(dat_rpid) + # Remove conc values from rpid + dat[ , rpid := sub("_([^_]+)$", "", rpid, useBytes = TRUE)] + + ## Define concentration index + indexfunc <- function(x) as.integer(rank(unique(x))[match(x, unique(x))]) + dat[ , cndx := indexfunc(conc), by = list(rpid)] + + ## Define replicate index + # Create temporary table containing the unique replicate ids + trdt <- unique(dat[wllt %in% c("t", "c") , list(acid, spid, wllt, rpid)]) + trdt_rpid <- trdt[ , rpid] + trdt[ , rpid := NULL] + trdt[ , repi := 1] + # Increment repi + while (any(duplicated(trdt))) { + trdt[duplicated(trdt), repi := repi + 1] + } + trdt[ , rpid := trdt_rpid] + rm(trdt_rpid) + # Map replicate index back to dat + setkey(dat, rpid) + setkey(trdt, rpid) + dat[ , repi := trdt[dat, repi]] + + ## Remove rpid column + dat[, rpid := NULL] + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Processed L1 ACID", ac, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + + res <- TRUE + + outcols <- c("m0id", "acid", "cndx", "repi") + dat <- dat[ , .SD, .SDcols = outcols] + + ## Load into mc1 table -- else return results + if (wr) { + stime <- Sys.time() + tcplWriteData(dat = dat, lvl = 1L, type = "mc") + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Wrote L1 ACID", ac, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + } else { + res <- c(res, list(dat)) + } + + return(res) + +} + +#------------------------------------------------------------------------------- diff --git a/R/mc2.R b/R/mc2.R index e36d2b7..3ff894a 100644 --- a/R/mc2.R +++ b/R/mc2.R @@ -1,124 +1,124 @@ -#------------------------------------------------------------------------------- -# mc2: Perform level 2 multiple-concentration processing -#------------------------------------------------------------------------------- - -#' @template proclvl -#' @templateVar LVL 2 -#' @templateVar type mc -#' -#' @inheritParams mc1 -#' -#' @details -#' Level 2 multiple-concentration processing includes defining the -#' corrected value, cval, based on the correction methods listed in the -#' mc2_acid and mc2_methods tables. -#' -#' @seealso \code{\link{Method functions}}, \code{\link{MC2_Methods}} -#' -#' @import data.table - -mc2 <- function(ac, wr = FALSE) { - - ## Variable-binding to pass R CMD Check - cval <- rval <- acid <- wllq <- mthd <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - ## Check the ac input - if (length(ac) > 1) { - warning("ac must be of length 1. Level 2 processing incomplete; no ", - "updates\n made to the mc2 table for ACIDS ", - paste(ac, collapse = ", "), ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - stime <- Sys.time() - - ## Load level 1 data - dat <- tcplLoadData(lvl = 1L, type = "mc", fld = "acid", val = ac) - - ## Check if any level 1 data was loaded - if (nrow(dat) == 0) { - warning("No level 1 data for ACID", ac, ". Level 2 processing incomplete;", - " no updates\n made to the mc2 table for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - - cat("Loaded L1 ACID", ac, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") - - stime <- Sys.time() - - ## Add corrected value column - dat[ , cval := rval] - setkey(dat, acid) - - ## Set all wllq to 0 for all NA cvals - dat[is.na(cval), wllq := 0] - - ## Remove data with well quality of 0 - dat <- dat[wllq == 1] - - ## Load correction methods - ms <- tcplMthdLoad(lvl = 2L, id = ac, type = "mc") - if (nrow(ms) == 0) { - warning("ACID", ac, " not listed in the mc2_acid table. Level 2 ", - "processing\n incomplete; no updates made to the mc2 table for ", - "ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ## Load the functions to generate correction expressions - mthd_funcs <- mc2_mthds() - - ## Apply the correction methods - if (ms[mthd != "none", lu(mthd)] > 0) { - mthd_funcs <- mthd_funcs[ms[mthd != "none", mthd]] - exprs <- lapply(mthd_funcs, do.call, args = list()) - fenv <- environment() - invisible(rapply(exprs, eval, envir = fenv)) - } - - ## Remove data with well quality of 0 after correction methods - dat <- dat[wllq == 1] - - ## Check for infinite cval values - if (dat[ , lw(is.infinite(cval))] > 0) { - warning("ACID", ac, " contains infinite values in the cval column. Level", - "2 processing incomplete; no updates\n made to the mc2 table ", - "for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Processed L2 ACID", ac, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - - res <- TRUE - - outcols <- c("m0id", "m1id", "acid", "cval") - dat <- dat[ , .SD, .SDcols = outcols] - - ## Load into mc2 table -- else return results - if (wr) { - stime <- Sys.time() - tcplWriteData(dat = dat, lvl = 2L, type = "mc") - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Wrote L2 ACID", ac, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - } else { - res <- c(res, list(dat)) - } - - return(res) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc2: Perform level 2 multiple-concentration processing +#------------------------------------------------------------------------------- + +#' @template proclvl +#' @templateVar LVL 2 +#' @templateVar type mc +#' +#' @inheritParams mc1 +#' +#' @details +#' Level 2 multiple-concentration processing includes defining the +#' corrected value, cval, based on the correction methods listed in the +#' mc2_acid and mc2_methods tables. +#' +#' @seealso \code{\link{Method functions}}, \code{\link{MC2_Methods}} +#' +#' @import data.table + +mc2 <- function(ac, wr = FALSE) { + + ## Variable-binding to pass R CMD Check + cval <- rval <- acid <- wllq <- mthd <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + ## Check the ac input + if (length(ac) > 1) { + warning("ac must be of length 1. Level 2 processing incomplete; no ", + "updates\n made to the mc2 table for ACIDS ", + paste(ac, collapse = ", "), ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + stime <- Sys.time() + + ## Load level 1 data + dat <- tcplLoadData(lvl = 1L, type = "mc", fld = "acid", val = ac) + + ## Check if any level 1 data was loaded + if (nrow(dat) == 0) { + warning("No level 1 data for ACID", ac, ". Level 2 processing incomplete;", + " no updates\n made to the mc2 table for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + + cat("Loaded L1 ACID", ac, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") + + stime <- Sys.time() + + ## Add corrected value column + dat[ , cval := rval] + setkey(dat, acid) + + ## Set all wllq to 0 for all NA cvals + dat[is.na(cval), wllq := 0] + + ## Remove data with well quality of 0 + dat <- dat[wllq == 1] + + ## Load correction methods + ms <- tcplMthdLoad(lvl = 2L, id = ac, type = "mc") + if (nrow(ms) == 0) { + warning("ACID", ac, " not listed in the mc2_acid table. Level 2 ", + "processing\n incomplete; no updates made to the mc2 table for ", + "ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ## Load the functions to generate correction expressions + mthd_funcs <- mc2_mthds() + + ## Apply the correction methods + if (ms[mthd != "none", lu(mthd)] > 0) { + mthd_funcs <- mthd_funcs[ms[mthd != "none", mthd]] + exprs <- lapply(mthd_funcs, do.call, args = list()) + fenv <- environment() + invisible(rapply(exprs, eval, envir = fenv)) + } + + ## Remove data with well quality of 0 after correction methods + dat <- dat[wllq == 1] + + ## Check for infinite cval values + if (dat[ , lw(is.infinite(cval))] > 0) { + warning("ACID", ac, " contains infinite values in the cval column. Level", + "2 processing incomplete; no updates\n made to the mc2 table ", + "for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Processed L2 ACID", ac, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + + res <- TRUE + + outcols <- c("m0id", "m1id", "acid", "cval") + dat <- dat[ , .SD, .SDcols = outcols] + + ## Load into mc2 table -- else return results + if (wr) { + stime <- Sys.time() + tcplWriteData(dat = dat, lvl = 2L, type = "mc") + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Wrote L2 ACID", ac, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + } else { + res <- c(res, list(dat)) + } + + return(res) + +} + +#------------------------------------------------------------------------------- diff --git a/R/mc2_mthds.R b/R/mc2_mthds.R index 0b3da6c..3e7d6f3 100644 --- a/R/mc2_mthds.R +++ b/R/mc2_mthds.R @@ -1,134 +1,134 @@ -#------------------------------------------------------------------------------- -# mc2_mthds: Load list of correction functions (to be used at level 2) -#------------------------------------------------------------------------------- - -#' @name MC2_Methods -#' @title List of level 2 multiple-concentration correction functions -#' -#' @description -#' \code{mc2_mthds} returns a list of correction/transformation functions -#' to be used during level 2 multiple-concentration processing. -#' -#' @return A list functions -#' -#' @seealso \code{\link{mc2}}, \code{\link{Method functions}} to query what -#' methods get applied to each acid -#' -#' @details -#' The functions contained in the list returned by \code{mc2_mthds} return -#' a list of expressions to be executed in the \code{mc2} (not exported) -#' function environment. The functions are described here for reference -#' purposes, The \code{mc2_mthds} function is not exported, nor is it -#' intended for use. -#' -#' All available methods are described in the Available Methods section, listed -#' by the function/method name. -#' -#' @section Available Methods: -#' -#' More information about the level 2 multiple-concentration processing is -#' available in the package vignette, "Pipeline_Overview." -#' -#' \describe{ -#' \item{log2}{Take the logarithm of cval with the base 2.} -#' \item{log10}{Take the logarithm of cval with the base 10.} -#' \item{rmneg}{Remove entries where cval is less than 0.} -#' \item{rmzero}{Remove entries where cval is 0.} -#' \item{mult25}{Multiply cval by 25.} -#' \item{mult100}{Multiply cval by 100.} -#' \item{negshift}{Shift cval by subtracting out the minimum of cval and -#' adding 1, such that the new minimum of cval is 1.} -#' \item{mult25}{Multiply cval by 2.5.} -#' \item{mult3}{Multiply cval by 3.} -#' \item{mult6}{Multiply cval by 6.} -#' } -#' -#' @note -#' This function is not exported and is not intended to be used by the user. - - -mc2_mthds <- function() { - - list( - - log2 = function() { - - e1 <- bquote(dat[ , cval := log2(cval)]) - list(e1) - - }, - - log10 = function() { - - e1 <- bquote(dat[ , cval := log10(cval)]) - list(e1) - - }, - - rmneg = function() { - - e1 <- bquote(dat[cval < 0, c('cval', 'wllq') := list(NA_real_, 0)]) - list(e1) - - }, - - rmzero = function() { - - e1 <- bquote(dat[cval == 0, c('cval', 'wllq') := list(NA_real_, 0)]) - list(e1) - - }, - - mult25 = function() { - - e1 <- bquote(dat[ , cval := cval * 25]) - list(e1) - - }, - - mult100 = function() { - - e1 <- bquote(dat[ , cval := cval * 100]) - list(e1) - - }, - - negshift = function() { - - e1 <- bquote(dat[ , cval := cval - min(cval, na.rm = TRUE) + 1]) - list(e1) - - }, - - mult2.5 = function() { - - e1 <- bquote(dat[ , cval := cval * 2.5]) - list(e1) - - }, - - mult3 = function() { - - e1 <- bquote(dat[ , cval := cval * 3]) - list(e1) - - }, - - mult6 = function() { - - e1 <- bquote(dat[ , cval := cval * 6]) - list(e1) - - }, - - sub100 = function() { - - e1 <- bquote(dat[ , cval := 100 - cval]) - list(e1) - - } - - ) -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc2_mthds: Load list of correction functions (to be used at level 2) +#------------------------------------------------------------------------------- + +#' @name MC2_Methods +#' @title List of level 2 multiple-concentration correction functions +#' +#' @description +#' \code{mc2_mthds} returns a list of correction/transformation functions +#' to be used during level 2 multiple-concentration processing. +#' +#' @return A list functions +#' +#' @seealso \code{\link{mc2}}, \code{\link{Method functions}} to query what +#' methods get applied to each acid +#' +#' @details +#' The functions contained in the list returned by \code{mc2_mthds} return +#' a list of expressions to be executed in the \code{mc2} (not exported) +#' function environment. The functions are described here for reference +#' purposes, The \code{mc2_mthds} function is not exported, nor is it +#' intended for use. +#' +#' All available methods are described in the Available Methods section, listed +#' by the function/method name. +#' +#' @section Available Methods: +#' +#' More information about the level 2 multiple-concentration processing is +#' available in the package vignette, "Pipeline_Overview." +#' +#' \describe{ +#' \item{log2}{Take the logarithm of cval with the base 2.} +#' \item{log10}{Take the logarithm of cval with the base 10.} +#' \item{rmneg}{Remove entries where cval is less than 0.} +#' \item{rmzero}{Remove entries where cval is 0.} +#' \item{mult25}{Multiply cval by 25.} +#' \item{mult100}{Multiply cval by 100.} +#' \item{negshift}{Shift cval by subtracting out the minimum of cval and +#' adding 1, such that the new minimum of cval is 1.} +#' \item{mult25}{Multiply cval by 2.5.} +#' \item{mult3}{Multiply cval by 3.} +#' \item{mult6}{Multiply cval by 6.} +#' } +#' +#' @note +#' This function is not exported and is not intended to be used by the user. + + +mc2_mthds <- function() { + + list( + + log2 = function() { + + e1 <- bquote(dat[ , cval := log2(cval)]) + list(e1) + + }, + + log10 = function() { + + e1 <- bquote(dat[ , cval := log10(cval)]) + list(e1) + + }, + + rmneg = function() { + + e1 <- bquote(dat[cval < 0, c('cval', 'wllq') := list(NA_real_, 0)]) + list(e1) + + }, + + rmzero = function() { + + e1 <- bquote(dat[cval == 0, c('cval', 'wllq') := list(NA_real_, 0)]) + list(e1) + + }, + + mult25 = function() { + + e1 <- bquote(dat[ , cval := cval * 25]) + list(e1) + + }, + + mult100 = function() { + + e1 <- bquote(dat[ , cval := cval * 100]) + list(e1) + + }, + + negshift = function() { + + e1 <- bquote(dat[ , cval := cval - min(cval, na.rm = TRUE) + 1]) + list(e1) + + }, + + mult2.5 = function() { + + e1 <- bquote(dat[ , cval := cval * 2.5]) + list(e1) + + }, + + mult3 = function() { + + e1 <- bquote(dat[ , cval := cval * 3]) + list(e1) + + }, + + mult6 = function() { + + e1 <- bquote(dat[ , cval := cval * 6]) + list(e1) + + }, + + sub100 = function() { + + e1 <- bquote(dat[ , cval := 100 - cval]) + list(e1) + + } + + ) +} + +#------------------------------------------------------------------------------- diff --git a/R/mc3.R b/R/mc3.R index a2106fb..e6dac25 100644 --- a/R/mc3.R +++ b/R/mc3.R @@ -1,164 +1,164 @@ -#------------------------------------------------------------------------------- -# mc3: Perform level 3 multiple-concentration processing -#------------------------------------------------------------------------------- - -#' @template proclvl -#' @templateVar LVL 3 -#' @templateVar type mc -#' -#' @inheritParams mc1 -#' -#' @details -#' Level 3 multiple-concentration processing includes mapping assay component -#' to assay endpoint, duplicating the data when the assay component has -#' multiple assay endpoints, and any normalization of the data. Data -#' normalization based on methods listed in mc3_aeid and mc3_methods tables. -#' -#' @seealso \code{\link{Method functions}}, \code{\link{MC3_Methods}} -#' -#' @import data.table - -mc3 <- function(ac, wr = FALSE) { - - ## Variable-binding to pass R CMD Check - conc <- logc <- acid <- aeid <- mthd <- ordr <- nassays <- resp <- NULL - pval <- bval <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - ## Check the ac input - if (length(ac) > 1) { - warning("ac must be of length 1. Level 3 processing incomplete; no ", - "updates\n made to the mc3 table for ACIDS ", - paste(ac, collapse = ", "), ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - stime <- Sys.time() - - ## Load level 2 data - dat <- tcplLoadData(lvl = 2L, type = "mc", fld = "acid", val = ac) - - ## Check if any level 2 data was loaded - if (nrow(dat) == 0) { - warning("No level 2 data for ACID", ac, ". Level 3 processing incomplete;", - " no updates\n made to the mc3 table for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - - cat("Loaded L2 ACID", ac, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") - - stime <- Sys.time() - - ## Force all concentrations to 1 significant figure - dat[ , conc := signif(conc, 1)] - - ## Add column for log10 concentration - dat[ , logc := log10(conc)] - - ## Load aeid mapping information. - aeid_info <- tcplLoadAeid("acid", ac)[ , list(acid, aeid)] - setkey(aeid_info, acid) - - ## Check for acids for aeids - if (nrow(aeid_info) == 0) { - warning("No assay endpoint listed for ACID", ac, ". Level 3 processing ", - "incomplete; no\n updates made to the mc3 table for ACID", - ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ## Merge dat with aeid_info to duplicate data for every aeid - setkey(dat, acid) - dat <- aeid_info[dat, allow.cartesian = TRUE] - setkey(dat, aeid) - - ## Load normalization methods - ms <- tcplMthdLoad(lvl = 3L, id = dat[ , unique(aeid)], type = "mc") - ms <- ms[ , list(aeid, mthd, ordr)] - - ## Check for aeids for methods - if (!all(dat[ , unique(aeid)] %in% ms[ , aeid])) { - miss_aeid <- dat[ , unique(aeid)[!unique(aeid) %in% ms[ , aeid]]] - warning("AEIDS(S) ", paste(miss_aeid, collapse = ", "), " (mapped to ACID", - ac, ") do not have aeid\n methods listed in the mc3_aeid table. ", - "Level 3 processing incomplete; no updates\n made to the mc3 ", - "table for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ## Reshape ms - ms <- setkey(ms, ordr) - ms <- ms[ , lapply(.SD, list), by = list(mthd, ordr)] - ms[ , nassays := unlist(lapply(aeid, length))] - - ## Load the functions to generate normalization expressions - mthd_funcs <- mc3_mthds() - - ## Initialize the bval, pval, and resp columns - dat[ , c('bval', 'pval', 'resp') := NA_real_] - - ## Apply the normalization methods - exprs <- lapply(1:nrow(ms), - function(x) { - do.call(mthd_funcs[[ms[x, mthd]]], - list(aeids = ms[ , aeid][[x]])) - }) - fenv <- environment() - invisible(rapply(exprs, eval, envir = fenv)) - - ## Check for infinite pval or bval values - if (dat[ , lw(is.infinite(pval))] > 0 | dat[ , lw(is.infinite(bval))] > 0) { - in_aeid <- dat[is.infinite(pval) | is.infinite(bval), unique(aeid)] - warning("AEID(S) ", paste(in_aeid, collapse = ", "), " (mapped to ACID", - ac, ") contain infinite values in the bval or pval column. Level ", - "3 processing incomplete; no updates\n made to the mc3 table ", - "for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ## Check for NA response values - if (dat[ , lw(is.na(resp))] > 0) { - na_aeid <- dat[is.na(resp) > 0, unique(aeid)] - warning("AEID(S) ", paste(na_aeid, collapse = ", "), " (mapped to ACID", - ac, ") contain NA in the response column. Level 3 processing ", - "incomplete; no updates\n made to the mc3 table for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Processed L3 ACID", ac, " (AEIDS: ", - paste(dat[ , unique(aeid)], collapse = ", "), - "; ", nrow(dat), " rows; ", ttime, ")\n", sep = "") - - res <- TRUE - - outcols <- c("m0id", "m1id", "m2id", "acid", "aeid", - "bval", "pval", "logc", "resp") - dat <- dat[ , .SD, .SDcols = outcols] - - ## Load into mc3 table -- else return results - if (wr) { - stime <- Sys.time() - tcplWriteData(dat = dat, lvl = 3L, type = "mc") - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Wrote L3 ACID", ac, " (AEIDS: ", - paste(dat[ , unique(aeid)], collapse = ", "), - "; ", nrow(dat), " rows; ", ttime, ")\n", sep = "") - } else { - res <- c(list(res), list(dat)) - } - - return(res) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc3: Perform level 3 multiple-concentration processing +#------------------------------------------------------------------------------- + +#' @template proclvl +#' @templateVar LVL 3 +#' @templateVar type mc +#' +#' @inheritParams mc1 +#' +#' @details +#' Level 3 multiple-concentration processing includes mapping assay component +#' to assay endpoint, duplicating the data when the assay component has +#' multiple assay endpoints, and any normalization of the data. Data +#' normalization based on methods listed in mc3_aeid and mc3_methods tables. +#' +#' @seealso \code{\link{Method functions}}, \code{\link{MC3_Methods}} +#' +#' @import data.table + +mc3 <- function(ac, wr = FALSE) { + + ## Variable-binding to pass R CMD Check + conc <- logc <- acid <- aeid <- mthd <- ordr <- nassays <- resp <- NULL + pval <- bval <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + ## Check the ac input + if (length(ac) > 1) { + warning("ac must be of length 1. Level 3 processing incomplete; no ", + "updates\n made to the mc3 table for ACIDS ", + paste(ac, collapse = ", "), ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + stime <- Sys.time() + + ## Load level 2 data + dat <- tcplLoadData(lvl = 2L, type = "mc", fld = "acid", val = ac) + + ## Check if any level 2 data was loaded + if (nrow(dat) == 0) { + warning("No level 2 data for ACID", ac, ". Level 3 processing incomplete;", + " no updates\n made to the mc3 table for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + + cat("Loaded L2 ACID", ac, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") + + stime <- Sys.time() + + ## Force all concentrations to 1 significant figure + dat[ , conc := signif(conc, 1)] + + ## Add column for log10 concentration + dat[ , logc := log10(conc)] + + ## Load aeid mapping information. + aeid_info <- tcplLoadAeid("acid", ac)[ , list(acid, aeid)] + setkey(aeid_info, acid) + + ## Check for acids for aeids + if (nrow(aeid_info) == 0) { + warning("No assay endpoint listed for ACID", ac, ". Level 3 processing ", + "incomplete; no\n updates made to the mc3 table for ACID", + ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ## Merge dat with aeid_info to duplicate data for every aeid + setkey(dat, acid) + dat <- aeid_info[dat, allow.cartesian = TRUE] + setkey(dat, aeid) + + ## Load normalization methods + ms <- tcplMthdLoad(lvl = 3L, id = dat[ , unique(aeid)], type = "mc") + ms <- ms[ , list(aeid, mthd, ordr)] + + ## Check for aeids for methods + if (!all(dat[ , unique(aeid)] %in% ms[ , aeid])) { + miss_aeid <- dat[ , unique(aeid)[!unique(aeid) %in% ms[ , aeid]]] + warning("AEIDS(S) ", paste(miss_aeid, collapse = ", "), " (mapped to ACID", + ac, ") do not have aeid\n methods listed in the mc3_aeid table. ", + "Level 3 processing incomplete; no updates\n made to the mc3 ", + "table for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ## Reshape ms + ms <- setkey(ms, ordr) + ms <- ms[ , lapply(.SD, list), by = list(mthd, ordr)] + ms[ , nassays := unlist(lapply(aeid, length))] + + ## Load the functions to generate normalization expressions + mthd_funcs <- mc3_mthds() + + ## Initialize the bval, pval, and resp columns + dat[ , c('bval', 'pval', 'resp') := NA_real_] + + ## Apply the normalization methods + exprs <- lapply(1:nrow(ms), + function(x) { + do.call(mthd_funcs[[ms[x, mthd]]], + list(aeids = ms[ , aeid][[x]])) + }) + fenv <- environment() + invisible(rapply(exprs, eval, envir = fenv)) + + ## Check for infinite pval or bval values + if (dat[ , lw(is.infinite(pval))] > 0 | dat[ , lw(is.infinite(bval))] > 0) { + in_aeid <- dat[is.infinite(pval) | is.infinite(bval), unique(aeid)] + warning("AEID(S) ", paste(in_aeid, collapse = ", "), " (mapped to ACID", + ac, ") contain infinite values in the bval or pval column. Level ", + "3 processing incomplete; no updates\n made to the mc3 table ", + "for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ## Check for NA response values + if (dat[ , lw(is.na(resp))] > 0) { + na_aeid <- dat[is.na(resp) > 0, unique(aeid)] + warning("AEID(S) ", paste(na_aeid, collapse = ", "), " (mapped to ACID", + ac, ") contain NA in the response column. Level 3 processing ", + "incomplete; no updates\n made to the mc3 table for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Processed L3 ACID", ac, " (AEIDS: ", + paste(dat[ , unique(aeid)], collapse = ", "), + "; ", nrow(dat), " rows; ", ttime, ")\n", sep = "") + + res <- TRUE + + outcols <- c("m0id", "m1id", "m2id", "acid", "aeid", + "bval", "pval", "logc", "resp") + dat <- dat[ , .SD, .SDcols = outcols] + + ## Load into mc3 table -- else return results + if (wr) { + stime <- Sys.time() + tcplWriteData(dat = dat, lvl = 3L, type = "mc") + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Wrote L3 ACID", ac, " (AEIDS: ", + paste(dat[ , unique(aeid)], collapse = ", "), + "; ", nrow(dat), " rows; ", ttime, ")\n", sep = "") + } else { + res <- c(list(res), list(dat)) + } + + return(res) + +} + +#------------------------------------------------------------------------------- diff --git a/R/mc3_mthds.R b/R/mc3_mthds.R index b90d6d8..6f91e4b 100644 --- a/R/mc3_mthds.R +++ b/R/mc3_mthds.R @@ -1,538 +1,538 @@ -#------------------------------------------------------------------------------- -# mc3_mthds: List of normalization methods (to be used at level 3) -#------------------------------------------------------------------------------- - -#' @name MC3_Methods -#' @title List of level 3 multiple-concentration normalization methods -#' -#' @description -#' \code{mc3_mthds} returns a list of normalization methods to be used -#' during level 3 multiple-concentration processing. -#' -#' @return A list of functions -#' -#' @seealso \code{\link{mc3}}, \code{\link{Method functions}} to query what -#' methods get applied to each aeid -#' -#' @details -#' The functions contained in the list returned by \code{mc3_mthds} take -#' 'aeids' (a numeric vector of aeid values) and returns a list of expressions -#' to be executed in the \code{mc3} (not exported) function environment. The -#' functions are described here for reference purposes, The -#' \code{mc3_mthds} function is not exported, nor is it intended for use. -#' -#' All available methods are described in the Available Methods section, listed -#' by the type of function and the function/method name. -#' -#' @section Available Methods: -#' -#' The methods are broken into three types, based on what fields they define. -#' Different methods are used to define "bval" (the baseline value), "pval" -#' (the positive control value), and "resp" (the final response value). -#' -#' Although it does not say so specifically in each description, all methods -#' are applied by aeid. -#' -#' More information about the level 3 multiple-concentration processing is -#' available in the package vignette, "Pipeline_Overview." -#' -#' \subsection{bval Methods}{ -#' \describe{ -#' \item{bval.apid.nwlls.med}{Calculate bval as the median of cval for -#' wells with wllt equal to "n," by apid.} -#' \item{bval.apid.lowconc.med}{Calculate bval as the median of cval for -#' wells with wllt equal to "t" and cndx equal to 1 or 2, by apid.} -#' \item{bval.apid.twlls.med}{Calculate bval as the median of cval for -#' wells with wllt equal to "t," by apid.} -#' \item{bval.apid.tn.med}{Calculate bval as the median of cval for wells -#' with wllt equal to "t" or "n," by apid.} -#' \item{bval.apid.nwllslowconc.med}{Calculate bval as the median of cval -#' for wells with wllt equal to "n" or wells with wllt equal to "t" and -#' cndx equal to 1 or 2, by apid.} -#' \item{bval.spid.lowconc.med}{Calculate bval as the median of cval for -#' wells with wllt equal to "t" and cndx equal to 1, 2, or 3, by spid.} -#' \item{bval.apid.nwllstcwllslowconc.med}{Calculate bval as the median of -#' cval for wells with wllt equal to "n" or cndx equal to 1 or 2 and -#' wllt equal to "t" or "c" by apid.} -#' -#' } -#' } -#' -#' \subsection{pval Methods}{ -#' \describe{ -#' \item{pval.apid.pwlls.med}{Calculate pval as the median of cval for -#' wells with wllt equal to "p," by apid.} -#' \item{pval.apid.mwlls.med}{Calculate pval as the median of cval for -#' wells with wllt equal to "m," by apid.} -#' \item{pval.apid.medpcbyconc.max}{First calculate the median of cval for -#' wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then -#' calculate pval as the maximum of the calculated medians, by apid.} -#' \item{pval.apid.medpcbyconc.min}{First calculate the median of cval for -#' wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then -#' calculate pval as the minimum of the calculated medians, by apid.} -#' \item{pval.apid.medncbyconc.min}{First calculate the median of cval for -#' wells with wllt equal to "m" or "o," by wllt, conc, and apid. Then -#' calculate pval as the minimum of the calculated medians, by apid.} -#' \item{pval.apid.pmv.min}{First calculate the median of cval for -#' wells with wllt equal to "p," "m," or "v," by wllt, conc, and apid. Then -#' calculate pval as the minimum of the calculated medians, by apid.} -#' \item{pval.apid.pmv.max}{First calculate the median of cval for -#' wells with wllt equal to "p," "m," or "v," by wllt, conc, and apid. Then -#' calculate pval as the maximum of the calculated medians, by apid.} -#' \item{pval.apid.f.max}{First calculate the median of cval for -#' wells with wllt equal to "f," by wllt, conc, and apid. Then calculate -#' pval as the maximum of the calculated medians, by apid.} -#' \item{pval.apid.f.min}{First calculate the median of cval for -#' wells with wllt equal to "f," by wllt, conc, and apid. Then calculate -#' pval as the minimum of the calculated medians, by apid.} -#' \item{pval.apid.p.max}{First calculate the median of cval for -#' wells with wllt equal to "p," by wllt, conc, and apid. Then calculate -#' pval as the maximum of the calculated medians, by apid.} -#' \item{pval.apid.p.min}{First calculate the median of cval for -#' wells with wllt equal to "p," by wllt, conc, and apid. Then calculate -#' pval as the minimum of the calculated medians, by apid.} -#' \item{pval.apid.v.min}{First calculate the median of cval for -#' wells with wllt equal to "v," by wllt, conc, and apid. Then calculate -#' pval as the minimum of the calculated medians, by apid.} -#' \item{pval.zero}{Define pval as 0.} -#' } -#' } -#' -#' \subsection{resp Methods}{ -#' \describe{ -#' \item{resp.pc}{Calculate resp as \eqn{\frac{\mathit{cval} - -#' \mathit{bval}}{\mathit{pval} - \mathit{bval}}100}{(cval - bval)/(pval -#' - bval)*100}.} -#' \item{resp.fc}{Calculate resp as \eqn{\mathit{cval}/\mathit{bval}}{ -#' cval/bval}.} -#' \item{resp.logfc}{Calculate resp as \eqn{\mathit{cval} - \mathit{bval}}{ -#' cval - bval}.} -#' \item{resp.log2}{Take the logarithm of resp with base 2.} -#' \item{resp.mult25}{Multiply resp by 25.} -#' \item{resp.scale.mad.log2fc}{Multiply resp by the scale factor -#' \eqn{\frac{\log_2 \left( 1.2 \right)}{3\mathit{bmad}}}{ -#' log2(1.2)/(3*bmad)}.} -#' \item{resp.scale.quant.log2fc}{Determine the maximum response -#' \eqn{\mathit{md}}{md} where \eqn{\mathit{md}}{md} = abs(1st centile - -#' 50th centile) or abs(99th centile - 50th centile), whichever is greater. -#' Scale the response such that 20 percent of md equals -#' \eqn{\log_2 \left( 1.2 \right)}{log2(1.2)}.} -#' \item{resp.multneg1}{Multiply resp by -1.} -#' \item{resp.shiftneg.3bmad}{Shift all resp values less than -3*bmad to 0.} -#' \item{resp.shiftneg.6bmad}{Shift all resp values less than -6*bmad to 0.} -#' \item{resp.shiftneg.10bmad}{Shift all resp values less than -10*bmad to -#' 0.} -#' \item{resp.blineshift.3bmad.repi}{Shift resp values with the blineShift -#' function by repi, where the window (wndw) is 3*bmad.} -#' \item{resp.blineshift.50.repi}{Shift resp values with the blineShift -#' function by repi, where the window (wndw) is 50.} -#' \item{resp.blineshift.3bmad.spid}{Shift resp values with the blineShift -#' function by spid, where the window (wndw) is 3*bmad.} -#' \item{resp.blineshift.50.spid}{Shift resp values with the blineShift -#' function by spid, where the window (wndw) is 50.} -#' \item{none}{Do no normalization; make resp equal to cval.} -#' } -#' } -#' -#' @note -#' This function is not exported and is not intended to be used by the user. - - -mc3_mthds <- function() { - - list( - - bval.apid.nwlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(cval[wllt == "n"], na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - bval.apid.lowconc.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(cval[cndx %in% 1:2 & wllt == "t"], - na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - bval.apid.twlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(cval[wllt == "t"], na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - bval.apid.tn.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(cval[wllt %in% c("t", "n")], - na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - bval.apid.nwllslowconc.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(cval[(cndx %in% 1:2 & wllt == "t") | - wllt == "n"], - na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - bval.spid.lowconc.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(cval[cndx %in% 1:3 & wllt == "t"], - na.rm = TRUE), - by = list(aeid, spid, repi)]) - list(e1) - - }, - - pval.apid.pwlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - pval := median(cval[wllt == "p"], na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - pval.apid.mwlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - pval := median(cval[wllt == "m"], na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - pval.apid.medpcbyconc.max = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt %in% c("c", "p")], - na.rm = TRUE), - by = list(aeid, apid, wllt, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := max(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.medpcbyconc.min = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt %in% c("c", "p")], - na.rm = TRUE), - by = list(aeid, apid, wllt, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := min(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.medncbyconc.min = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt %in% c("m","o")], - na.rm = TRUE), - by = list(aeid, apid, wllt, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := min(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.pmv.min = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt %in% c("p", "m", "v")], - na.rm = TRUE), - by = list(aeid, apid, wllt, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := min(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.pmv.max = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt %in% c("p", "m", "v")], - na.rm = TRUE), - by = list(aeid, apid, wllt, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := max(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.f.max = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt == "f"], na.rm = TRUE), - by = list(aeid, apid, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := max(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.f.min = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt == "f"], na.rm = TRUE), - by = list(aeid, apid, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := min(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.p.max = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt == "p"], na.rm = TRUE), - by = list(aeid, apid, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := max(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.p.min = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt == "p"], na.rm = TRUE), - by = list(aeid, apid, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := min(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.v.min = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(cval[wllt == "v"], na.rm = TRUE), - by = list(aeid, apid, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := min(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.zero = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), pval := 0]) - list(e1) - - }, - - resp.pc = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - resp := (cval - bval)/(pval - bval)*100]) - list(e1) - - }, - - resp.fc = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := cval/bval]) - list(e1) - - }, - - resp.logfc = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := cval - bval]) - list(e1) - - }, - - resp.log2 = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := log2(resp)]) - list(e1) - - }, - - resp.mult25 = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := resp * 25]) - list(e1) - - }, - - resp.scale.mad.log2fc = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], - na.rm = TRUE), - by = aeid]) - e2 <- bquote(dat[J(.(aeids)), resp := log2(1.2)/(3*bmad)*resp]) - e3 <- bquote(dat[ , bmad := NULL]) - - list(e1, e2, e3) - - }, - - resp.scale.quant.log2fc = function(aeids) { - - qv <- c(0.01, 0.5, 0.99) - e1 <- bquote(dat[J(.(aeids)), - c("q1", "q2", "q3") := as.list(quantile(resp, .(qv))), - by = aeid]) - e2 <- bquote(dat[J(.(aeids)), - md := max(abs(c(diff(c(q1, q2)), diff(c(q2, q3))))), - by = aeid]) - e3 <- bquote(dat[J(.(aeids)), resp := log2(1.2)/(0.2*md)*resp]) - e4 <- bquote(dat[ , .(c("q1", "q2", "q3", "md")) := NULL, with = FALSE]) - list(e1, e2, e3, e4) - - }, - - resp.multneg1 = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := resp * -1]) - list(e1) - - }, - - resp.shiftneg.3bmad = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], - na.rm = TRUE), - by = aeid]) - e2 <- bquote(dat[aeid %in% .(aeids) & resp < -3 * bmad, resp := 0]) - e3 <- bquote(dat[ , bmad := NULL]) - list(e1, e2, e3) - - }, - - resp.shiftneg.6bmad = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], - na.rm = TRUE), - by = aeid]) - e2 <- bquote(dat[aeid %in% .(aeids) & resp < -6 * bmad, resp := 0]) - e3 <- bquote(dat[ , bmad := NULL]) - list(e1, e2, e3) - - }, - - resp.shiftneg.10bmad = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], - na.rm = TRUE), - by = aeid]) - e2 <- bquote(dat[aeid %in% .(aeids) & resp < -10 * bmad, resp := 0]) - e3 <- bquote(dat[ , bmad := NULL]) - list(e1, e2, e3) - - }, - - resp.blineshift.3bmad.repi = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - wndw := mad(resp[cndx %in% 1:2 & wllt == "t"], - na.rm = TRUE) * 3, - by = aeid]) - e2 <- bquote(dat[aeid %in% .(aeids) & wllt %in% c("t", "c", "o"), - resp := blineShift(resp, logc, wndw), - by = list(aeid, spid, repi)]) - e3 <- bquote(dat[ , wndw := NULL]) - list(e1, e2, e3) - - }, - - resp.blineshift.50.repi = function(aeids) { - - e1 <- bquote(dat[aeid %in% .(aeids) & wllt %in% c("t", "c", "o"), - resp := blineShift(resp, logc, wndw = 50), - by = list(aeid, spid, repi)]) - list(e1) - - }, - - resp.blineshift.3bmad.spid = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - wndw := mad(resp[cndx %in% 1:2 & wllt == "t"], - na.rm = TRUE) * 3, - by = aeid]) - e2 <- bquote(dat[aeid %in% .(aeids) & wllt %in% c("t", "c", "o"), - resp := blineShift(resp, logc, wndw), - by = list(aeid, spid)]) - e3 <- bquote(dat[ , wndw := NULL]) - list(e1, e2, e3) - - }, - - resp.blineshift.50.spid = function(aeids) { - - e1 <- bquote(dat[aeid %in% .(aeids) & wllt %in% c("t", "c", "o"), - resp := blineShift(resp, logc, wndw = 50), - by = list(aeid, spid)]) - list(e1) - - }, - - none = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := cval]) - list(e1) - - }, - - bval.apid.nwllstcwllslowconc.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(cval[(cndx %in% 1:2 & wllt %in% c("t","c")) | - wllt == "n"], - na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - } - - ) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc3_mthds: List of normalization methods (to be used at level 3) +#------------------------------------------------------------------------------- + +#' @name MC3_Methods +#' @title List of level 3 multiple-concentration normalization methods +#' +#' @description +#' \code{mc3_mthds} returns a list of normalization methods to be used +#' during level 3 multiple-concentration processing. +#' +#' @return A list of functions +#' +#' @seealso \code{\link{mc3}}, \code{\link{Method functions}} to query what +#' methods get applied to each aeid +#' +#' @details +#' The functions contained in the list returned by \code{mc3_mthds} take +#' 'aeids' (a numeric vector of aeid values) and returns a list of expressions +#' to be executed in the \code{mc3} (not exported) function environment. The +#' functions are described here for reference purposes, The +#' \code{mc3_mthds} function is not exported, nor is it intended for use. +#' +#' All available methods are described in the Available Methods section, listed +#' by the type of function and the function/method name. +#' +#' @section Available Methods: +#' +#' The methods are broken into three types, based on what fields they define. +#' Different methods are used to define "bval" (the baseline value), "pval" +#' (the positive control value), and "resp" (the final response value). +#' +#' Although it does not say so specifically in each description, all methods +#' are applied by aeid. +#' +#' More information about the level 3 multiple-concentration processing is +#' available in the package vignette, "Pipeline_Overview." +#' +#' \subsection{bval Methods}{ +#' \describe{ +#' \item{bval.apid.nwlls.med}{Calculate bval as the median of cval for +#' wells with wllt equal to "n," by apid.} +#' \item{bval.apid.lowconc.med}{Calculate bval as the median of cval for +#' wells with wllt equal to "t" and cndx equal to 1 or 2, by apid.} +#' \item{bval.apid.twlls.med}{Calculate bval as the median of cval for +#' wells with wllt equal to "t," by apid.} +#' \item{bval.apid.tn.med}{Calculate bval as the median of cval for wells +#' with wllt equal to "t" or "n," by apid.} +#' \item{bval.apid.nwllslowconc.med}{Calculate bval as the median of cval +#' for wells with wllt equal to "n" or wells with wllt equal to "t" and +#' cndx equal to 1 or 2, by apid.} +#' \item{bval.spid.lowconc.med}{Calculate bval as the median of cval for +#' wells with wllt equal to "t" and cndx equal to 1, 2, or 3, by spid.} +#' \item{bval.apid.nwllstcwllslowconc.med}{Calculate bval as the median of +#' cval for wells with wllt equal to "n" or cndx equal to 1 or 2 and +#' wllt equal to "t" or "c" by apid.} +#' +#' } +#' } +#' +#' \subsection{pval Methods}{ +#' \describe{ +#' \item{pval.apid.pwlls.med}{Calculate pval as the median of cval for +#' wells with wllt equal to "p," by apid.} +#' \item{pval.apid.mwlls.med}{Calculate pval as the median of cval for +#' wells with wllt equal to "m," by apid.} +#' \item{pval.apid.medpcbyconc.max}{First calculate the median of cval for +#' wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then +#' calculate pval as the maximum of the calculated medians, by apid.} +#' \item{pval.apid.medpcbyconc.min}{First calculate the median of cval for +#' wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then +#' calculate pval as the minimum of the calculated medians, by apid.} +#' \item{pval.apid.medncbyconc.min}{First calculate the median of cval for +#' wells with wllt equal to "m" or "o," by wllt, conc, and apid. Then +#' calculate pval as the minimum of the calculated medians, by apid.} +#' \item{pval.apid.pmv.min}{First calculate the median of cval for +#' wells with wllt equal to "p," "m," or "v," by wllt, conc, and apid. Then +#' calculate pval as the minimum of the calculated medians, by apid.} +#' \item{pval.apid.pmv.max}{First calculate the median of cval for +#' wells with wllt equal to "p," "m," or "v," by wllt, conc, and apid. Then +#' calculate pval as the maximum of the calculated medians, by apid.} +#' \item{pval.apid.f.max}{First calculate the median of cval for +#' wells with wllt equal to "f," by wllt, conc, and apid. Then calculate +#' pval as the maximum of the calculated medians, by apid.} +#' \item{pval.apid.f.min}{First calculate the median of cval for +#' wells with wllt equal to "f," by wllt, conc, and apid. Then calculate +#' pval as the minimum of the calculated medians, by apid.} +#' \item{pval.apid.p.max}{First calculate the median of cval for +#' wells with wllt equal to "p," by wllt, conc, and apid. Then calculate +#' pval as the maximum of the calculated medians, by apid.} +#' \item{pval.apid.p.min}{First calculate the median of cval for +#' wells with wllt equal to "p," by wllt, conc, and apid. Then calculate +#' pval as the minimum of the calculated medians, by apid.} +#' \item{pval.apid.v.min}{First calculate the median of cval for +#' wells with wllt equal to "v," by wllt, conc, and apid. Then calculate +#' pval as the minimum of the calculated medians, by apid.} +#' \item{pval.zero}{Define pval as 0.} +#' } +#' } +#' +#' \subsection{resp Methods}{ +#' \describe{ +#' \item{resp.pc}{Calculate resp as \eqn{\frac{\mathit{cval} - +#' \mathit{bval}}{\mathit{pval} - \mathit{bval}}100}{(cval - bval)/(pval +#' - bval)*100}.} +#' \item{resp.fc}{Calculate resp as \eqn{\mathit{cval}/\mathit{bval}}{ +#' cval/bval}.} +#' \item{resp.logfc}{Calculate resp as \eqn{\mathit{cval} - \mathit{bval}}{ +#' cval - bval}.} +#' \item{resp.log2}{Take the logarithm of resp with base 2.} +#' \item{resp.mult25}{Multiply resp by 25.} +#' \item{resp.scale.mad.log2fc}{Multiply resp by the scale factor +#' \eqn{\frac{\log_2 \left( 1.2 \right)}{3\mathit{bmad}}}{ +#' log2(1.2)/(3*bmad)}.} +#' \item{resp.scale.quant.log2fc}{Determine the maximum response +#' \eqn{\mathit{md}}{md} where \eqn{\mathit{md}}{md} = abs(1st centile - +#' 50th centile) or abs(99th centile - 50th centile), whichever is greater. +#' Scale the response such that 20 percent of md equals +#' \eqn{\log_2 \left( 1.2 \right)}{log2(1.2)}.} +#' \item{resp.multneg1}{Multiply resp by -1.} +#' \item{resp.shiftneg.3bmad}{Shift all resp values less than -3*bmad to 0.} +#' \item{resp.shiftneg.6bmad}{Shift all resp values less than -6*bmad to 0.} +#' \item{resp.shiftneg.10bmad}{Shift all resp values less than -10*bmad to +#' 0.} +#' \item{resp.blineshift.3bmad.repi}{Shift resp values with the blineShift +#' function by repi, where the window (wndw) is 3*bmad.} +#' \item{resp.blineshift.50.repi}{Shift resp values with the blineShift +#' function by repi, where the window (wndw) is 50.} +#' \item{resp.blineshift.3bmad.spid}{Shift resp values with the blineShift +#' function by spid, where the window (wndw) is 3*bmad.} +#' \item{resp.blineshift.50.spid}{Shift resp values with the blineShift +#' function by spid, where the window (wndw) is 50.} +#' \item{none}{Do no normalization; make resp equal to cval.} +#' } +#' } +#' +#' @note +#' This function is not exported and is not intended to be used by the user. + + +mc3_mthds <- function() { + + list( + + bval.apid.nwlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(cval[wllt == "n"], na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + bval.apid.lowconc.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(cval[cndx %in% 1:2 & wllt == "t"], + na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + bval.apid.twlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(cval[wllt == "t"], na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + bval.apid.tn.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(cval[wllt %in% c("t", "n")], + na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + bval.apid.nwllslowconc.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(cval[(cndx %in% 1:2 & wllt == "t") | + wllt == "n"], + na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + bval.spid.lowconc.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(cval[cndx %in% 1:3 & wllt == "t"], + na.rm = TRUE), + by = list(aeid, spid, repi)]) + list(e1) + + }, + + pval.apid.pwlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + pval := median(cval[wllt == "p"], na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + pval.apid.mwlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + pval := median(cval[wllt == "m"], na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + pval.apid.medpcbyconc.max = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt %in% c("c", "p")], + na.rm = TRUE), + by = list(aeid, apid, wllt, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := max(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.medpcbyconc.min = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt %in% c("c", "p")], + na.rm = TRUE), + by = list(aeid, apid, wllt, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := min(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.medncbyconc.min = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt %in% c("m","o")], + na.rm = TRUE), + by = list(aeid, apid, wllt, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := min(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.pmv.min = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt %in% c("p", "m", "v")], + na.rm = TRUE), + by = list(aeid, apid, wllt, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := min(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.pmv.max = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt %in% c("p", "m", "v")], + na.rm = TRUE), + by = list(aeid, apid, wllt, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := max(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.f.max = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt == "f"], na.rm = TRUE), + by = list(aeid, apid, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := max(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.f.min = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt == "f"], na.rm = TRUE), + by = list(aeid, apid, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := min(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.p.max = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt == "p"], na.rm = TRUE), + by = list(aeid, apid, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := max(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.p.min = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt == "p"], na.rm = TRUE), + by = list(aeid, apid, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := min(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.v.min = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(cval[wllt == "v"], na.rm = TRUE), + by = list(aeid, apid, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := min(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.zero = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), pval := 0]) + list(e1) + + }, + + resp.pc = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + resp := (cval - bval)/(pval - bval)*100]) + list(e1) + + }, + + resp.fc = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := cval/bval]) + list(e1) + + }, + + resp.logfc = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := cval - bval]) + list(e1) + + }, + + resp.log2 = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := log2(resp)]) + list(e1) + + }, + + resp.mult25 = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := resp * 25]) + list(e1) + + }, + + resp.scale.mad.log2fc = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], + na.rm = TRUE), + by = aeid]) + e2 <- bquote(dat[J(.(aeids)), resp := log2(1.2)/(3*bmad)*resp]) + e3 <- bquote(dat[ , bmad := NULL]) + + list(e1, e2, e3) + + }, + + resp.scale.quant.log2fc = function(aeids) { + + qv <- c(0.01, 0.5, 0.99) + e1 <- bquote(dat[J(.(aeids)), + c("q1", "q2", "q3") := as.list(quantile(resp, .(qv))), + by = aeid]) + e2 <- bquote(dat[J(.(aeids)), + md := max(abs(c(diff(c(q1, q2)), diff(c(q2, q3))))), + by = aeid]) + e3 <- bquote(dat[J(.(aeids)), resp := log2(1.2)/(0.2*md)*resp]) + e4 <- bquote(dat[ , .(c("q1", "q2", "q3", "md")) := NULL]) + list(e1, e2, e3, e4) + + }, + + resp.multneg1 = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := resp * -1]) + list(e1) + + }, + + resp.shiftneg.3bmad = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], + na.rm = TRUE), + by = aeid]) + e2 <- bquote(dat[aeid %in% .(aeids) & resp < -3 * bmad, resp := 0]) + e3 <- bquote(dat[ , bmad := NULL]) + list(e1, e2, e3) + + }, + + resp.shiftneg.6bmad = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], + na.rm = TRUE), + by = aeid]) + e2 <- bquote(dat[aeid %in% .(aeids) & resp < -6 * bmad, resp := 0]) + e3 <- bquote(dat[ , bmad := NULL]) + list(e1, e2, e3) + + }, + + resp.shiftneg.10bmad = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], + na.rm = TRUE), + by = aeid]) + e2 <- bquote(dat[aeid %in% .(aeids) & resp < -10 * bmad, resp := 0]) + e3 <- bquote(dat[ , bmad := NULL]) + list(e1, e2, e3) + + }, + + resp.blineshift.3bmad.repi = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + wndw := mad(resp[cndx %in% 1:2 & wllt == "t"], + na.rm = TRUE) * 3, + by = aeid]) + e2 <- bquote(dat[aeid %in% .(aeids) & wllt %in% c("t", "c", "o"), + resp := blineShift(resp, logc, wndw), + by = list(aeid, spid, repi)]) + e3 <- bquote(dat[ , wndw := NULL]) + list(e1, e2, e3) + + }, + + resp.blineshift.50.repi = function(aeids) { + + e1 <- bquote(dat[aeid %in% .(aeids) & wllt %in% c("t", "c", "o"), + resp := blineShift(resp, logc, wndw = 50), + by = list(aeid, spid, repi)]) + list(e1) + + }, + + resp.blineshift.3bmad.spid = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + wndw := mad(resp[cndx %in% 1:2 & wllt == "t"], + na.rm = TRUE) * 3, + by = aeid]) + e2 <- bquote(dat[aeid %in% .(aeids) & wllt %in% c("t", "c", "o"), + resp := blineShift(resp, logc, wndw), + by = list(aeid, spid)]) + e3 <- bquote(dat[ , wndw := NULL]) + list(e1, e2, e3) + + }, + + resp.blineshift.50.spid = function(aeids) { + + e1 <- bquote(dat[aeid %in% .(aeids) & wllt %in% c("t", "c", "o"), + resp := blineShift(resp, logc, wndw = 50), + by = list(aeid, spid)]) + list(e1) + + }, + + none = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := cval]) + list(e1) + + }, + + bval.apid.nwllstcwllslowconc.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(cval[(cndx %in% 1:2 & wllt %in% c("t","c")) | + wllt == "n"], + na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + } + + ) + +} + +#------------------------------------------------------------------------------- diff --git a/R/mc4.R b/R/mc4.R index 87daa64..3e9cee1 100644 --- a/R/mc4.R +++ b/R/mc4.R @@ -1,152 +1,151 @@ -#------------------------------------------------------------------------------- -# mc4: Perform level 4 multiple-concentration processing -#------------------------------------------------------------------------------- - -#' @template proclvl -#' @templateVar LVL 4 -#' @templateVar type mc -#' -#' @param ae Integer of length 1, assay endpoint id (aeid) for processing. -#' @param wr Logical, whether the processed data should be written to the tcpl -#' database -#' -#' @details -#' Level 4 multiple-concentration modeling takes the dose-response data for -#' chemical-assay pairs, and fits three models to the data: constant, hill, -#' and gain-loss. For more information about the models see -#' \code{\link{Models}}. When a chemical has more than one sample, the function -#' fits each sample seperately. -#' -#' @seealso \code{\link{tcplFit}}, \code{\link{Models}} -#' -#' @import data.table -#' @importFrom stats mad - -mc4 <- function(ae, wr = FALSE) { - - ## Variable-binding to pass R CMD Check - bmad <- resp <- cndx <- wllt <- logc <- spid <- cnst_aic <- hill_aic <- NULL - gnls_aic <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - ## Check the ae input - if (length(ae) > 1) { - warning("ae must be of length 1. Level 4 processing incomplete; no updates", - "\n made to the mc4 table for AEIDS ", - paste(ae, collapse = ", "), ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - stime <- Sys.time() - - ## Load level 3 data - dat <- tcplLoadData(lvl = 3L, type = "mc", fld = "aeid", val = ae) - dat <- dat[wllt %in% c("t", "c", "o")] - - ## Check if any level 3 data was loaded - if (nrow(dat) == 0) { - warning("No level 3 data for AEID", ae, ". Level 4 processing incomplete;", - " no updates\n made to the mc4 table for AEID", ae, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - - cat("Loaded L3 AEID", ae, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") - - stime <- Sys.time() - - ## Calculate the baseline mad - dat[ , bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], na.rm = TRUE)] - - ## Check to see if all samples should be fit - fit_all <- as.logical(tcplLoadAeid("aeid", ae, "fit_all")$fit_all) - - fitpars <- c("resp_max", - "resp_min", - "max_mean", - "max_mean_conc", - "max_med", - "max_med_conc", - "logc_max", - "logc_min", - "cnst", - "hill", - "hcov", - "gnls", - "gcov", - "cnst_er", - "cnst_aic", - "cnst_rmse", - "hill_tp", - "hill_tp_sd", - "hill_ga", - "hill_ga_sd", - "hill_gw", - "hill_gw_sd", - "hill_er", - "hill_er_sd", - "hill_aic", - "hill_rmse", - "gnls_tp", - "gnls_tp_sd", - "gnls_ga", - "gnls_ga_sd", - "gnls_gw", - "gnls_gw_sd", - "gnls_la", - "gnls_la_sd", - "gnls_lw", - "gnls_lw_sd", - "gnls_er", - "gnls_er_sd", - "gnls_aic", - "gnls_rmse", - "nconc", - "npts", - "nrep", - "nmed_gtbl") - - ## Fit the data by spid - dat[ , - c("tmpi", fitpars) := c(.GRP, - tcplFit(logc = logc, - resp = resp, - bmad = bmad, - force.fit = fit_all)), - by = spid, - with = FALSE] - - ## Calculate the aic probabilities - aic_probs <- c("cnst_prob", "hill_prob", "gnls_prob") - dat[ , aic_probs := tcplAICProb(cnst_aic, hill_aic, gnls_aic), with = FALSE] - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Processed L4 AEID", ae, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - - res <- TRUE - - ## Load into mc4 & mc4_agg tables -- else return results - if (wr) { - stime <- Sys.time() - tcplWriteData(dat = dat, lvl = 4L, type = "mc") - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Wrote L4 AEID", ae, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - } else { - res <- c(list(res), list(dat)) - } - - return(res) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc4: Perform level 4 multiple-concentration processing +#------------------------------------------------------------------------------- + +#' @template proclvl +#' @templateVar LVL 4 +#' @templateVar type mc +#' +#' @param ae Integer of length 1, assay endpoint id (aeid) for processing. +#' @param wr Logical, whether the processed data should be written to the tcpl +#' database +#' +#' @details +#' Level 4 multiple-concentration modeling takes the dose-response data for +#' chemical-assay pairs, and fits three models to the data: constant, hill, +#' and gain-loss. For more information about the models see +#' \code{\link{Models}}. When a chemical has more than one sample, the function +#' fits each sample seperately. +#' +#' @seealso \code{\link{tcplFit}}, \code{\link{Models}} +#' +#' @import data.table +#' @importFrom stats mad + +mc4 <- function(ae, wr = FALSE) { + + ## Variable-binding to pass R CMD Check + bmad <- resp <- cndx <- wllt <- logc <- spid <- cnst_aic <- hill_aic <- NULL + gnls_aic <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + ## Check the ae input + if (length(ae) > 1) { + warning("ae must be of length 1. Level 4 processing incomplete; no updates", + "\n made to the mc4 table for AEIDS ", + paste(ae, collapse = ", "), ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + stime <- Sys.time() + + ## Load level 3 data + dat <- tcplLoadData(lvl = 3L, type = "mc", fld = "aeid", val = ae) + dat <- dat[wllt %in% c("t", "c", "o")] + + ## Check if any level 3 data was loaded + if (nrow(dat) == 0) { + warning("No level 3 data for AEID", ae, ". Level 4 processing incomplete;", + " no updates\n made to the mc4 table for AEID", ae, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + + cat("Loaded L3 AEID", ae, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") + + stime <- Sys.time() + + ## Calculate the baseline mad + dat[ , bmad := mad(resp[cndx %in% 1:2 & wllt == "t"], na.rm = TRUE)] + + ## Check to see if all samples should be fit + fit_all <- as.logical(tcplLoadAeid("aeid", ae, "fit_all")$fit_all) + + fitpars <- c("resp_max", + "resp_min", + "max_mean", + "max_mean_conc", + "max_med", + "max_med_conc", + "logc_max", + "logc_min", + "cnst", + "hill", + "hcov", + "gnls", + "gcov", + "cnst_er", + "cnst_aic", + "cnst_rmse", + "hill_tp", + "hill_tp_sd", + "hill_ga", + "hill_ga_sd", + "hill_gw", + "hill_gw_sd", + "hill_er", + "hill_er_sd", + "hill_aic", + "hill_rmse", + "gnls_tp", + "gnls_tp_sd", + "gnls_ga", + "gnls_ga_sd", + "gnls_gw", + "gnls_gw_sd", + "gnls_la", + "gnls_la_sd", + "gnls_lw", + "gnls_lw_sd", + "gnls_er", + "gnls_er_sd", + "gnls_aic", + "gnls_rmse", + "nconc", + "npts", + "nrep", + "nmed_gtbl") + + ## Fit the data by spid + dat[ , + c("tmpi", fitpars) := c(.GRP, + tcplFit(logc = logc, + resp = resp, + bmad = bmad, + force.fit = fit_all)), + by = spid] + + ## Calculate the aic probabilities + aic_probs <- c("cnst_prob", "hill_prob", "gnls_prob") + dat[ , (aic_probs) := tcplAICProb(cnst_aic, hill_aic, gnls_aic)] + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Processed L4 AEID", ae, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + + res <- TRUE + + ## Load into mc4 & mc4_agg tables -- else return results + if (wr) { + stime <- Sys.time() + tcplWriteData(dat = dat, lvl = 4L, type = "mc") + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Wrote L4 AEID", ae, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + } else { + res <- c(list(res), list(dat)) + } + + return(res) + +} + +#------------------------------------------------------------------------------- diff --git a/R/mc5.R b/R/mc5.R index d93b1c5..d708fc9 100644 --- a/R/mc5.R +++ b/R/mc5.R @@ -1,281 +1,281 @@ -#------------------------------------------------------------------------------- -# mc5: Perform level 5 multiple-concentration processing -#------------------------------------------------------------------------------- - -#' @template proclvl -#' @templateVar LVL 5 -#' @templateVar type mc -#' -#' @inheritParams mc4 -#' -#' @details -#' Level 5 multiple-concentration hit-calling uses the fit parameters and the -#' activity cutoff methods from mc5_aeid and mc5_methods to make an activity -#' call and identify the winning model for each fit. -#' -#' @seealso \code{\link{Method functions}}, \code{\link{MC5_Methods}} -#' -#' @import data.table - -mc5 <- function(ae, wr = FALSE) { - - ## Variable-binding to pass R CMD Check - coff <- bmad <- adco <- maic <- cnst_aic <- hill_aic <- gnls_aic <- NULL - modl <- hitc <- hill_tp <- max_med <- gnls_tp <- hill_95 <- hill_ga <- NULL - hill_gw <- gnls_95 <- gnls_ga <- gnls_gw <- coff_upper <- coff_lower <- NULL - rgbl <- hill <- hill_gu <- hill_lu <- hill_gl <- hill_ll <- hill_gc <- NULL - hill_lc <- hill_al <- logc_min <- hill_ai <- logc_max <- hill_au <- NULL - gnls_gu <- gnls_lu <- gnls_gl <- gnls_ll <- gnls_gc <- gnls_lc <- NULL - gnls_al <- gnls_ai <- gnls_au <- cnst_win <- hill_win <- gnls_win <- NULL - cnst <- fitc <- gnls <- modl_er <- cnst_er <- modl_rmse <- cnst_rmse <- NULL - modl_prob <- cnst_prob <- hill_er <- modl_tp <- modl_ga <- modl_gw <- NULL - hill_rmse <- hill_prob <- modl_acb <- modl_acc <- gnls_er <- modl_la <- NULL - gnls_la <- modl_lw <- gnls_lw <- gnls_rmse <- gnls_prob <- actp <- NULL - modl_ac10 <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - ## Check the ae input - if (length(ae) > 1) { - warning("ae must be of length 1. Level 5 processing incomplete; no updates", - "\n made to the mc5 table for AEIDS ", - paste(ae, collapse = ", "), ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - stime <- Sys.time() - - ## Load level 4 data - dat <- tcplLoadData(lvl = 4L, type = "mc", fld = "aeid", val = ae) - - ## Check if any level 4 data was loaded - if (nrow(dat) == 0) { - warning("No level 4 data for AEID", ae, ". Level 5 processing incomplete;", - " no updates\n made to the mc5 table for AEID", ae, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - - cat("Loaded L4 AEID", ae, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") - - stime <- Sys.time() - - ## Initialize coff vector - coff <- 0 - - ## Load cutoff functions - mthd_funcs <- mc5_mthds() - - ## Load cutoff methods - ms <- tcplMthdLoad(lvl = 5L, id = ae, type = "mc") - if (nrow(ms) == 0) { - warning("No level 5 methods for AEID", ae, " -- cutoff will be 0.") - } - - ## Apply cutoff methods - exprs <- lapply(mthd_funcs[ms$mthd], do.call, args = list()) - fenv <- environment() - invisible(rapply(exprs, eval, envir = fenv)) - - ## Determine final cutoff - dat[ , coff := max(coff)] - - ## Determine winning model - dat[ , maic := pmin(cnst_aic, hill_aic, gnls_aic, na.rm = TRUE)] - # Order matters here, because in the case of a tie the simpler model will - # overwrite the more complex model as the winner. - dat[gnls_aic == maic, modl := "gnls"] - dat[hill_aic == maic, modl := "hill"] - dat[cnst_aic == maic, modl := "cnst"] - - ## Make the hitcall - dat[ , hitc := FALSE] - dat[modl == "hill" & hill_tp >= coff & max_med >= coff, hitc := TRUE] - dat[modl == "gnls" & gnls_tp >= coff & max_med >= coff, hitc := TRUE] - - ###--------------------- Bin the Dose-Response Sets -----------------------### - - ## Calculate AC05 and AC95 - dat[ , hill_95 := tcplHillACXX(95, hill_tp, hill_ga, hill_gw)] - dat[ , gnls_95 := tcplHillACXX(95, gnls_tp, gnls_ga, gnls_gw)] - - ## Add a few helper columns - dat[ , coff_upper := 1.2 * coff] - dat[ , coff_lower := 0.8 * coff] - dat[ , rgbl := !is.na(hill)] - dat[ , hill_gu := hill_tp > coff_upper] - dat[ , hill_lu := hill_tp <= coff_upper] - dat[ , hill_gl := hill_tp >= coff_lower] - dat[ , hill_ll := hill_tp < coff_lower] - dat[ , hill_gc := hill_tp >= coff] - dat[ , hill_lc := hill_tp < coff] - dat[ , hill_al := hill_ga <= logc_min] - dat[ , hill_ai := hill_ga > logc_min & hill_95 < logc_max] - dat[ , hill_au := hill_ga > logc_min & hill_95 >= logc_max] - dat[ , gnls_gu := gnls_tp > coff_upper] - dat[ , gnls_lu := gnls_tp <= coff_upper] - dat[ , gnls_gl := gnls_tp >= coff_lower] - dat[ , gnls_ll := gnls_tp < coff_lower] - dat[ , gnls_gc := gnls_tp >= coff] - dat[ , gnls_lc := gnls_tp < coff] - dat[ , gnls_al := gnls_ga <= logc_min] - dat[ , gnls_ai := gnls_ga > logc_min & gnls_95 < logc_max] - dat[ , gnls_au := gnls_ga > logc_min & gnls_95 >= logc_max] - dat[ , cnst_win := modl == "cnst"] - dat[ , hill_win := modl == "hill"] - dat[ , gnls_win := modl == "gnls"] - - ## Initiate fitc column - dat[ , fitc := NA_integer_] - - ## 02: CANNOT DETERMINE - dat[is.na(cnst), fitc := 2L] - ## 04: RESP < BLINE - dat[!rgbl & !is.na(cnst), fitc := 4L] - ## 07: NO TP >= 0.8(COFF) - dat[rgbl & cnst_win & (!hill_gl|is.na(hill_tp)) & (!gnls_gl|is.na(gnls_tp)), - fitc := 7L] - ## 09: NO TP >= COFF - dat[is.na(fitc) & rgbl & cnst_win & - (!hill_gc|is.na(hill_tp)) & (!gnls_gc|is.na(gnls_tp)), - fitc := 9L] - ## 10: ANY TP >= COFF - dat[is.na(fitc) & rgbl & cnst_win & (hill_gc | gnls_gc), fitc := 10L] - ## 54: GNLS DNC - dat[!hitc & hill_win & hill_ll & !gnls, fitc := 54] - ## 13: GNLS < 0.8(COFF) - dat[is.na(fitc) & !hitc & hill_win & hill_ll & gnls_ll, fitc := 13L] - ## 15: GNLS < COFF - dat[is.na(fitc) & !hitc & hill_win & hill_ll & gnls_lc, fitc := 15L] - ## 16: GNLS >= COFF - dat[is.na(fitc) & !hitc & hill_win & hill_ll & gnls_gc, fitc := 16L] - ## 55: GNLS DNC - dat[!hitc & hill_win & hill_gl & !gnls, fitc := 55] - ## 18: GNLS < 0.8(COFF) - dat[is.na(fitc) & !hitc & hill_win & hill_gl & gnls_ll, fitc := 18L] - ## 20: GNLS < COFF - dat[is.na(fitc) & !hitc & hill_win & hill_gl & gnls_lc, fitc := 20L] - ## 21: GNLS >= COFF - dat[is.na(fitc) & !hitc & hill_win & hill_gl & gnls_gc, fitc := 21L] - ## 52: HILL DNC - dat[!hitc & gnls_win & gnls_ll & !hill, fitc := 52] - ## 24: HILL < 0.8(COFF) - dat[is.na(fitc) & !hitc & gnls_win & gnls_ll & hill_ll, fitc := 24L] - ## 26: HILL < COFF - dat[is.na(fitc) & !hitc & gnls_win & gnls_ll & hill_lc, fitc := 26L] - ## 27: HILL >= COFF - dat[is.na(fitc) & !hitc & gnls_win & gnls_ll & hill_gc, fitc := 27L] - ## 53: HILL DNC - dat[!hitc & gnls_win & gnls_gl & !hill, fitc := 53] - ## 29: HILL < 0.8(COFF) - dat[is.na(fitc) & !hitc & gnls_win & gnls_gl & hill_ll, fitc := 29L] - ## 31: HILL < COFF - dat[is.na(fitc) & !hitc & gnls_win & gnls_gl & hill_lc, fitc := 31L] - ## 32: HILL >= COFF - dat[is.na(fitc) & !hitc & gnls_win & gnls_gl & hill_gc, fitc := 32L] - ## 36: GA <= LCONC - dat[hitc & hill_win & hill_lu & hill_al, fitc := 36L] - ## 37: LCONC < GA < HCONC - dat[hitc & hill_win & hill_lu & hill_ai, fitc := 37L] - ## 38: GA >= HCONC - dat[hitc & hill_win & hill_lu & hill_au, fitc := 38L] - ## 40: GA <= LCONC - dat[hitc & hill_win & hill_gu & hill_al, fitc := 40L] - ## 41: LCONC < GA < HCONC - dat[hitc & hill_win & hill_gu & hill_ai, fitc := 41L] - ## 42: GA >= HCONC - dat[hitc & hill_win & hill_gu & hill_au, fitc := 42L] - ## 45: GA <= LCONC - dat[hitc & gnls_win * gnls_lu & gnls_al, fitc := 45L] - ## 46: LCONC < GA < HCONC - dat[hitc & gnls_win * gnls_lu & gnls_ai, fitc := 46L] - ## 47: GA >= HCONC - dat[hitc & gnls_win * gnls_lu & gnls_au, fitc := 47L] - ## 49: GA <= LCONC - dat[hitc & gnls_win * gnls_gu & gnls_al, fitc := 49L] - ## 50: LCONC < GA < HCONC - dat[hitc & gnls_win * gnls_gu & gnls_ai, fitc := 50L] - ## 51: GA >= HCONC - dat[hitc & gnls_win * gnls_gu & gnls_au, fitc := 51L] - - ## Update hit-calls with the cannot determine call - dat[ , hitc := as.integer(hitc)] - dat[is.na(cnst), hitc := -1L] - - ## Add model fields - modl_pars <- c("modl_acb", - "modl_acc", - "modl_ac10", - "modl_er", - "modl_tp", - "modl_ga", - "modl_gw", - "modl_la", - "modl_lw", - "modl_rmse", - "modl_prob") - dat[ , modl_pars := NA_real_, with = FALSE] - dat[modl == "cnst", modl_er := cnst_er] - dat[modl == "cnst", modl_rmse := cnst_rmse] - dat[modl == "cnst", modl_prob := cnst_prob] - dat[modl == "hill", modl_er := hill_er] - dat[modl == "hill", modl_tp := hill_tp] - dat[modl == "hill", modl_ga := hill_ga] - dat[modl == "hill", modl_gw := hill_gw] - dat[modl == "hill", modl_rmse := hill_rmse] - dat[modl == "hill", modl_prob := hill_prob] - dat[modl == "hill" & hill_tp >= 3 * bmad, - modl_acb := tcplHillConc(3 * bmad, hill_tp, hill_ga, hill_gw)] - dat[modl == "hill" & hill_tp >= coff, - modl_acc := tcplHillConc(coff, hill_tp, hill_ga, hill_gw)] - dat[modl == "hill", modl_ac10 := tcplHillACXX(10, hill_tp, hill_ga, hill_gw)] - dat[modl == "gnls", modl_er := gnls_er] - dat[modl == "gnls", modl_tp := gnls_tp] - dat[modl == "gnls", modl_ga := gnls_ga] - dat[modl == "gnls", modl_gw := gnls_gw] - dat[modl == "gnls", modl_la := gnls_la] - dat[modl == "gnls", modl_lw := gnls_lw] - dat[modl == "gnls", modl_rmse := gnls_rmse] - dat[modl == "gnls", modl_prob := gnls_prob] - dat[modl == "gnls" & gnls_tp >= 3 * bmad, - modl_acb := tcplHillConc(3 * bmad, gnls_tp, gnls_ga, gnls_gw)] - dat[modl == "gnls" & gnls_tp >= coff, - modl_acc := tcplHillConc(coff, gnls_tp, gnls_ga, gnls_gw)] - dat[modl == "gnls", modl_ac10 := tcplHillACXX(10, gnls_tp, gnls_ga, gnls_gw)] - - ## Add activity probability - dat[ , actp := 1 - cnst_prob] - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Processed L5 AEID", ae, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - - res <- TRUE - - outcols <- c("m4id", "aeid", "modl", "hitc", "fitc", - "coff", "actp", modl_pars) - dat <- dat[ , .SD, .SDcols = outcols] - - ## Load into mc5 table -- else return results - if (wr) { - stime <- Sys.time() - tcplWriteData(dat = dat, lvl = 5L, type = "mc") - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Wrote L5 AEID", ae, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - } else { - res <- c(list(res), list(dat)) - } - - return(res) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc5: Perform level 5 multiple-concentration processing +#------------------------------------------------------------------------------- + +#' @template proclvl +#' @templateVar LVL 5 +#' @templateVar type mc +#' +#' @inheritParams mc4 +#' +#' @details +#' Level 5 multiple-concentration hit-calling uses the fit parameters and the +#' activity cutoff methods from mc5_aeid and mc5_methods to make an activity +#' call and identify the winning model for each fit. +#' +#' @seealso \code{\link{Method functions}}, \code{\link{MC5_Methods}} +#' +#' @import data.table + +mc5 <- function(ae, wr = FALSE) { + + ## Variable-binding to pass R CMD Check + coff <- bmad <- adco <- maic <- cnst_aic <- hill_aic <- gnls_aic <- NULL + modl <- hitc <- hill_tp <- max_med <- gnls_tp <- hill_95 <- hill_ga <- NULL + hill_gw <- gnls_95 <- gnls_ga <- gnls_gw <- coff_upper <- coff_lower <- NULL + rgbl <- hill <- hill_gu <- hill_lu <- hill_gl <- hill_ll <- hill_gc <- NULL + hill_lc <- hill_al <- logc_min <- hill_ai <- logc_max <- hill_au <- NULL + gnls_gu <- gnls_lu <- gnls_gl <- gnls_ll <- gnls_gc <- gnls_lc <- NULL + gnls_al <- gnls_ai <- gnls_au <- cnst_win <- hill_win <- gnls_win <- NULL + cnst <- fitc <- gnls <- modl_er <- cnst_er <- modl_rmse <- cnst_rmse <- NULL + modl_prob <- cnst_prob <- hill_er <- modl_tp <- modl_ga <- modl_gw <- NULL + hill_rmse <- hill_prob <- modl_acb <- modl_acc <- gnls_er <- modl_la <- NULL + gnls_la <- modl_lw <- gnls_lw <- gnls_rmse <- gnls_prob <- actp <- NULL + modl_ac10 <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + ## Check the ae input + if (length(ae) > 1) { + warning("ae must be of length 1. Level 5 processing incomplete; no updates", + "\n made to the mc5 table for AEIDS ", + paste(ae, collapse = ", "), ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + stime <- Sys.time() + + ## Load level 4 data + dat <- tcplLoadData(lvl = 4L, type = "mc", fld = "aeid", val = ae) + + ## Check if any level 4 data was loaded + if (nrow(dat) == 0) { + warning("No level 4 data for AEID", ae, ". Level 5 processing incomplete;", + " no updates\n made to the mc5 table for AEID", ae, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + + cat("Loaded L4 AEID", ae, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") + + stime <- Sys.time() + + ## Initialize coff vector + coff <- 0 + + ## Load cutoff functions + mthd_funcs <- mc5_mthds() + + ## Load cutoff methods + ms <- tcplMthdLoad(lvl = 5L, id = ae, type = "mc") + if (nrow(ms) == 0) { + warning("No level 5 methods for AEID", ae, " -- cutoff will be 0.") + } + + ## Apply cutoff methods + exprs <- lapply(mthd_funcs[ms$mthd], do.call, args = list()) + fenv <- environment() + invisible(rapply(exprs, eval, envir = fenv)) + + ## Determine final cutoff + dat[ , coff := max(coff)] + + ## Determine winning model + dat[ , maic := pmin(cnst_aic, hill_aic, gnls_aic, na.rm = TRUE)] + # Order matters here, because in the case of a tie the simpler model will + # overwrite the more complex model as the winner. + dat[gnls_aic == maic, modl := "gnls"] + dat[hill_aic == maic, modl := "hill"] + dat[cnst_aic == maic, modl := "cnst"] + + ## Make the hitcall + dat[ , hitc := FALSE] + dat[modl == "hill" & hill_tp >= coff & max_med >= coff, hitc := TRUE] + dat[modl == "gnls" & gnls_tp >= coff & max_med >= coff, hitc := TRUE] + + ###--------------------- Bin the Dose-Response Sets -----------------------### + + ## Calculate AC05 and AC95 + dat[ , hill_95 := tcplHillACXX(95, hill_tp, hill_ga, hill_gw)] + dat[ , gnls_95 := tcplHillACXX(95, gnls_tp, gnls_ga, gnls_gw)] + + ## Add a few helper columns + dat[ , coff_upper := 1.2 * coff] + dat[ , coff_lower := 0.8 * coff] + dat[ , rgbl := !is.na(hill)] + dat[ , hill_gu := hill_tp > coff_upper] + dat[ , hill_lu := hill_tp <= coff_upper] + dat[ , hill_gl := hill_tp >= coff_lower] + dat[ , hill_ll := hill_tp < coff_lower] + dat[ , hill_gc := hill_tp >= coff] + dat[ , hill_lc := hill_tp < coff] + dat[ , hill_al := hill_ga <= logc_min] + dat[ , hill_ai := hill_ga > logc_min & hill_95 < logc_max] + dat[ , hill_au := hill_ga > logc_min & hill_95 >= logc_max] + dat[ , gnls_gu := gnls_tp > coff_upper] + dat[ , gnls_lu := gnls_tp <= coff_upper] + dat[ , gnls_gl := gnls_tp >= coff_lower] + dat[ , gnls_ll := gnls_tp < coff_lower] + dat[ , gnls_gc := gnls_tp >= coff] + dat[ , gnls_lc := gnls_tp < coff] + dat[ , gnls_al := gnls_ga <= logc_min] + dat[ , gnls_ai := gnls_ga > logc_min & gnls_95 < logc_max] + dat[ , gnls_au := gnls_ga > logc_min & gnls_95 >= logc_max] + dat[ , cnst_win := modl == "cnst"] + dat[ , hill_win := modl == "hill"] + dat[ , gnls_win := modl == "gnls"] + + ## Initiate fitc column + dat[ , fitc := NA_integer_] + + ## 02: CANNOT DETERMINE + dat[is.na(cnst), fitc := 2L] + ## 04: RESP < BLINE + dat[!rgbl & !is.na(cnst), fitc := 4L] + ## 07: NO TP >= 0.8(COFF) + dat[rgbl & cnst_win & (!hill_gl|is.na(hill_tp)) & (!gnls_gl|is.na(gnls_tp)), + fitc := 7L] + ## 09: NO TP >= COFF + dat[is.na(fitc) & rgbl & cnst_win & + (!hill_gc|is.na(hill_tp)) & (!gnls_gc|is.na(gnls_tp)), + fitc := 9L] + ## 10: ANY TP >= COFF + dat[is.na(fitc) & rgbl & cnst_win & (hill_gc | gnls_gc), fitc := 10L] + ## 54: GNLS DNC + dat[!hitc & hill_win & hill_ll & !gnls, fitc := 54] + ## 13: GNLS < 0.8(COFF) + dat[is.na(fitc) & !hitc & hill_win & hill_ll & gnls_ll, fitc := 13L] + ## 15: GNLS < COFF + dat[is.na(fitc) & !hitc & hill_win & hill_ll & gnls_lc, fitc := 15L] + ## 16: GNLS >= COFF + dat[is.na(fitc) & !hitc & hill_win & hill_ll & gnls_gc, fitc := 16L] + ## 55: GNLS DNC + dat[!hitc & hill_win & hill_gl & !gnls, fitc := 55] + ## 18: GNLS < 0.8(COFF) + dat[is.na(fitc) & !hitc & hill_win & hill_gl & gnls_ll, fitc := 18L] + ## 20: GNLS < COFF + dat[is.na(fitc) & !hitc & hill_win & hill_gl & gnls_lc, fitc := 20L] + ## 21: GNLS >= COFF + dat[is.na(fitc) & !hitc & hill_win & hill_gl & gnls_gc, fitc := 21L] + ## 52: HILL DNC + dat[!hitc & gnls_win & gnls_ll & !hill, fitc := 52] + ## 24: HILL < 0.8(COFF) + dat[is.na(fitc) & !hitc & gnls_win & gnls_ll & hill_ll, fitc := 24L] + ## 26: HILL < COFF + dat[is.na(fitc) & !hitc & gnls_win & gnls_ll & hill_lc, fitc := 26L] + ## 27: HILL >= COFF + dat[is.na(fitc) & !hitc & gnls_win & gnls_ll & hill_gc, fitc := 27L] + ## 53: HILL DNC + dat[!hitc & gnls_win & gnls_gl & !hill, fitc := 53] + ## 29: HILL < 0.8(COFF) + dat[is.na(fitc) & !hitc & gnls_win & gnls_gl & hill_ll, fitc := 29L] + ## 31: HILL < COFF + dat[is.na(fitc) & !hitc & gnls_win & gnls_gl & hill_lc, fitc := 31L] + ## 32: HILL >= COFF + dat[is.na(fitc) & !hitc & gnls_win & gnls_gl & hill_gc, fitc := 32L] + ## 36: GA <= LCONC + dat[hitc & hill_win & hill_lu & hill_al, fitc := 36L] + ## 37: LCONC < GA < HCONC + dat[hitc & hill_win & hill_lu & hill_ai, fitc := 37L] + ## 38: GA >= HCONC + dat[hitc & hill_win & hill_lu & hill_au, fitc := 38L] + ## 40: GA <= LCONC + dat[hitc & hill_win & hill_gu & hill_al, fitc := 40L] + ## 41: LCONC < GA < HCONC + dat[hitc & hill_win & hill_gu & hill_ai, fitc := 41L] + ## 42: GA >= HCONC + dat[hitc & hill_win & hill_gu & hill_au, fitc := 42L] + ## 45: GA <= LCONC + dat[hitc & gnls_win * gnls_lu & gnls_al, fitc := 45L] + ## 46: LCONC < GA < HCONC + dat[hitc & gnls_win * gnls_lu & gnls_ai, fitc := 46L] + ## 47: GA >= HCONC + dat[hitc & gnls_win * gnls_lu & gnls_au, fitc := 47L] + ## 49: GA <= LCONC + dat[hitc & gnls_win * gnls_gu & gnls_al, fitc := 49L] + ## 50: LCONC < GA < HCONC + dat[hitc & gnls_win * gnls_gu & gnls_ai, fitc := 50L] + ## 51: GA >= HCONC + dat[hitc & gnls_win * gnls_gu & gnls_au, fitc := 51L] + + ## Update hit-calls with the cannot determine call + dat[ , hitc := as.integer(hitc)] + dat[is.na(cnst), hitc := -1L] + + ## Add model fields + modl_pars <- c("modl_acb", + "modl_acc", + "modl_ac10", + "modl_er", + "modl_tp", + "modl_ga", + "modl_gw", + "modl_la", + "modl_lw", + "modl_rmse", + "modl_prob") + dat[ , (modl_pars) := NA_real_] + dat[modl == "cnst", modl_er := cnst_er] + dat[modl == "cnst", modl_rmse := cnst_rmse] + dat[modl == "cnst", modl_prob := cnst_prob] + dat[modl == "hill", modl_er := hill_er] + dat[modl == "hill", modl_tp := hill_tp] + dat[modl == "hill", modl_ga := hill_ga] + dat[modl == "hill", modl_gw := hill_gw] + dat[modl == "hill", modl_rmse := hill_rmse] + dat[modl == "hill", modl_prob := hill_prob] + dat[modl == "hill" & hill_tp >= 3 * bmad, + modl_acb := tcplHillConc(3 * bmad, hill_tp, hill_ga, hill_gw)] + dat[modl == "hill" & hill_tp >= coff, + modl_acc := tcplHillConc(coff, hill_tp, hill_ga, hill_gw)] + dat[modl == "hill", modl_ac10 := tcplHillACXX(10, hill_tp, hill_ga, hill_gw)] + dat[modl == "gnls", modl_er := gnls_er] + dat[modl == "gnls", modl_tp := gnls_tp] + dat[modl == "gnls", modl_ga := gnls_ga] + dat[modl == "gnls", modl_gw := gnls_gw] + dat[modl == "gnls", modl_la := gnls_la] + dat[modl == "gnls", modl_lw := gnls_lw] + dat[modl == "gnls", modl_rmse := gnls_rmse] + dat[modl == "gnls", modl_prob := gnls_prob] + dat[modl == "gnls" & gnls_tp >= 3 * bmad, + modl_acb := tcplHillConc(3 * bmad, gnls_tp, gnls_ga, gnls_gw)] + dat[modl == "gnls" & gnls_tp >= coff, + modl_acc := tcplHillConc(coff, gnls_tp, gnls_ga, gnls_gw)] + dat[modl == "gnls", modl_ac10 := tcplHillACXX(10, gnls_tp, gnls_ga, gnls_gw)] + + ## Add activity probability + dat[ , actp := 1 - cnst_prob] + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Processed L5 AEID", ae, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + + res <- TRUE + + outcols <- c("m4id", "aeid", "modl", "hitc", "fitc", + "coff", "actp", modl_pars) + dat <- dat[ , .SD, .SDcols = outcols] + + ## Load into mc5 table -- else return results + if (wr) { + stime <- Sys.time() + tcplWriteData(dat = dat, lvl = 5L, type = "mc") + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Wrote L5 AEID", ae, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + } else { + res <- c(list(res), list(dat)) + } + + return(res) + +} + +#------------------------------------------------------------------------------- diff --git a/R/mc5_mthds.R b/R/mc5_mthds.R index 7131030..fe2e303 100644 --- a/R/mc5_mthds.R +++ b/R/mc5_mthds.R @@ -1,133 +1,133 @@ -#------------------------------------------------------------------------------- -# mc5_mthds: Load list of cutoff methods (to be used at level 5) -#------------------------------------------------------------------------------- - -#' @name MC5_Methods -#' @title Load list of level 5 multiple-concentration cutoff methods -#' -#' @description -#' \code{mc5_mthds} returns a list of additional activity cutoff methods -#' to be used during level 5 multiple-concentration processing. -#' -#' @return A list of functions -#' -#' @seealso \code{\link{mc5}}, \code{\link{Method functions}} to query what -#' methods get applied to each aeid -#' -#' @section Available Methods: -#' -#' More information about the level 5 multiple-concentration processing is -#' available in the package vignette, "Pipeline_Overview." -#' -#' \describe{ -#' \item{bmad3}{Add a cutoff value of 3*bmad.} -#' \item{pc20}{Add a cutoff value of 20.} -#' \item{log2_1.2}{Add a cutoff value of log2(1.2).} -#' \item{log10_1.2}{Add a cutoff value of log10(1.2).} -#' \item{bmad5}{Add a cutoff value of 5*bmad.} -#' \item{bmad6}{Add a cutoff value of 6*bmad.} -#' \item{bmad10}{Add a cutoff value of 10*bmad.} -#' \item{log2_2}{Add a cutoff value of log2(2).} -#' \item{log10_2}{Add a cutoff value of log10(2).} -#' \item{neglog2_0.88}{Add a cutoff value of -1*log2(0.88).} -#' } - - -mc5_mthds <- function() { - - list( - - bmad3 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*3])) - list(e1) - - }, - - pc20 = function() { - - e1 <- bquote(coff <- c(coff, 20)) - list(e1) - - }, - - log2_1.2 = function() { - - e1 <- bquote(coff <- c(coff, log2(1.2))) - list(e1) - - }, - - log10_1.2 = function() { - - e1 <- bquote(coff <- c(coff, log10(1.2))) - list(e1) - - }, - - bmad5 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*5])) - list(e1) - - }, - - bmad6 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*6])) - list(e1) - - }, - - bmad10 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*10])) - list(e1) - - }, - - maxmed20pct = function() { - - e1 <- bquote(coff <- c(coff, dat[ , max(max_med)*.20])) - list(e1) - - }, - - pc70 = function() { - - e1 <- bquote(coff <- c(coff, 70)) - list(e1) - - }, - - pc50 = function() { - - e1 <- bquote(coff <- c(coff, 50)) - list(e1) - - }, - - log2_2 = function() { - - e1 <- bquote(coff <- c(coff, log2(2))) - list(e1) - - }, - - log10_2 = function() { - - e1 <- bquote(coff <- c(coff, log10(2))) - list(e1) - - }, - - neglog2_0.88 = function() { - - e1 <- bquote(coff <- c(coff, -1*log2(0.88))) - list(e1) - - } - ) -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc5_mthds: Load list of cutoff methods (to be used at level 5) +#------------------------------------------------------------------------------- + +#' @name MC5_Methods +#' @title Load list of level 5 multiple-concentration cutoff methods +#' +#' @description +#' \code{mc5_mthds} returns a list of additional activity cutoff methods +#' to be used during level 5 multiple-concentration processing. +#' +#' @return A list of functions +#' +#' @seealso \code{\link{mc5}}, \code{\link{Method functions}} to query what +#' methods get applied to each aeid +#' +#' @section Available Methods: +#' +#' More information about the level 5 multiple-concentration processing is +#' available in the package vignette, "Pipeline_Overview." +#' +#' \describe{ +#' \item{bmad3}{Add a cutoff value of 3*bmad.} +#' \item{pc20}{Add a cutoff value of 20.} +#' \item{log2_1.2}{Add a cutoff value of log2(1.2).} +#' \item{log10_1.2}{Add a cutoff value of log10(1.2).} +#' \item{bmad5}{Add a cutoff value of 5*bmad.} +#' \item{bmad6}{Add a cutoff value of 6*bmad.} +#' \item{bmad10}{Add a cutoff value of 10*bmad.} +#' \item{log2_2}{Add a cutoff value of log2(2).} +#' \item{log10_2}{Add a cutoff value of log10(2).} +#' \item{neglog2_0.88}{Add a cutoff value of -1*log2(0.88).} +#' } + + +mc5_mthds <- function() { + + list( + + bmad3 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*3])) + list(e1) + + }, + + pc20 = function() { + + e1 <- bquote(coff <- c(coff, 20)) + list(e1) + + }, + + log2_1.2 = function() { + + e1 <- bquote(coff <- c(coff, log2(1.2))) + list(e1) + + }, + + log10_1.2 = function() { + + e1 <- bquote(coff <- c(coff, log10(1.2))) + list(e1) + + }, + + bmad5 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*5])) + list(e1) + + }, + + bmad6 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*6])) + list(e1) + + }, + + bmad10 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*10])) + list(e1) + + }, + + maxmed20pct = function() { + + e1 <- bquote(coff <- c(coff, dat[ , max(max_med)*.20])) + list(e1) + + }, + + pc70 = function() { + + e1 <- bquote(coff <- c(coff, 70)) + list(e1) + + }, + + pc50 = function() { + + e1 <- bquote(coff <- c(coff, 50)) + list(e1) + + }, + + log2_2 = function() { + + e1 <- bquote(coff <- c(coff, log2(2))) + list(e1) + + }, + + log10_2 = function() { + + e1 <- bquote(coff <- c(coff, log10(2))) + list(e1) + + }, + + neglog2_0.88 = function() { + + e1 <- bquote(coff <- c(coff, -1*log2(0.88))) + list(e1) + + } + ) +} + +#------------------------------------------------------------------------------- diff --git a/R/mc6.R b/R/mc6.R index 15d0194..51870c5 100644 --- a/R/mc6.R +++ b/R/mc6.R @@ -1,114 +1,114 @@ -#------------------------------------------------------------------------------- -# mc6: Perform level 6 multiple-concentration processing -#------------------------------------------------------------------------------- - -#' @template proclvl -#' @templateVar LVL 6 -#' @templateVar type mc -#' -#' @inheritParams mc4 -#' -#' @details -#' Level 6 multiple-concentration flagging uses both the plate level -#' concentration-response data and the modeled parameters to flag potential -#' false positives and false negative results. -#' -#' @seealso \code{\link{Method functions}}, \code{\link{MC6_Methods}} -#' -#' @import data.table - -mc6 <- function(ae, wr = FALSE) { - - ## Variable-binding to pass R CMD Check - mthd_id <- m4id <- m5id <- lval <- rval <- J <- mthd <- bmad <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - ## Check the ae input - if (length(ae) > 1) { - warning("ae must be of length 1. Level 6 processing incomplete; no updates", - "\n made to the mc6 table for AEIDS ", - paste(ae, collapse = ", "), ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - stime <- Sys.time() - - ## Load the mc6 flags - ms <- tcplMthdLoad(lvl = 6L, id = ae, type = "mc") - if (nrow(ms) == 0) { - warning("No level 6 methods assigned to AEID", ae, ".") - if(wr) return(TRUE) else return(list(TRUE, NULL)) - } - setkey(ms, mthd_id) - - ## Load level 5 and, if needed, level 3 data - ft <- tcplLoadData(lvl = 5L, type = "mc", fld = "aeid", val = ae) - setkey(ft, m4id) - if (any(ms$nddr)) { - dr <- .load6DR(ae) - setkey(dr, m4id) - dr <- dr[ft[ , list(m4id, m5id)]] - dr[ , bmad := unique(ft$bmad)] - } - - ## Check if any level 5 data was loaded - if (nrow(ft) == 0) { - warning("No level 5 data for AEID", ae, ". Level 6 processing incomplete;", - " no updates\n made to the mc6 table for AEID", ae, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - - cat("Loaded L5 AEID", ae, " (", nrow(ft), " rows; ", ttime,")\n", sep = "") - - stime <- Sys.time() - - ## Initialize f, the list of data.tables containing the flag information - f <- vector(mode = "list", length = max(ms$mthd_id)) - - ## Generate and evaluate flag expressions - mthd_funcs <- mc6_mthds() - exprs <- lapply(ms$mthd_id, function(x) mthd_funcs[[ms[J(x), mthd]]](x)) - fenv <- environment() - invisible(rapply(exprs, eval, envir = fenv)) - - f <- rbindlist(f) - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Processed L6 AEID", ae, " (", nrow(ft), - " rows; ", ttime, ")\n", sep = "") - - res <- TRUE - - ## Load into mc6 table -- else return results - if (wr) { - - stime <- Sys.time() - - if (nrow(f) == 0) { - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("No flags to write for AEID", ae, sep = "") - return(TRUE) - } - - tcplWriteData(dat = f, lvl = 6L, type = "mc") - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Wrote L6 AEID", ae, " (", nrow(f), " rows; ", ttime, ")\n", sep = "") - } else { - res <- c(list(res), list(f)) - } - - return(res) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc6: Perform level 6 multiple-concentration processing +#------------------------------------------------------------------------------- + +#' @template proclvl +#' @templateVar LVL 6 +#' @templateVar type mc +#' +#' @inheritParams mc4 +#' +#' @details +#' Level 6 multiple-concentration flagging uses both the plate level +#' concentration-response data and the modeled parameters to flag potential +#' false positives and false negative results. +#' +#' @seealso \code{\link{Method functions}}, \code{\link{MC6_Methods}} +#' +#' @import data.table + +mc6 <- function(ae, wr = FALSE) { + + ## Variable-binding to pass R CMD Check + mthd_id <- m4id <- m5id <- lval <- rval <- J <- mthd <- bmad <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + ## Check the ae input + if (length(ae) > 1) { + warning("ae must be of length 1. Level 6 processing incomplete; no updates", + "\n made to the mc6 table for AEIDS ", + paste(ae, collapse = ", "), ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + stime <- Sys.time() + + ## Load the mc6 flags + ms <- tcplMthdLoad(lvl = 6L, id = ae, type = "mc") + if (nrow(ms) == 0) { + warning("No level 6 methods assigned to AEID", ae, ".") + if(wr) return(TRUE) else return(list(TRUE, NULL)) + } + setkey(ms, mthd_id) + + ## Load level 5 and, if needed, level 3 data + ft <- tcplLoadData(lvl = 5L, type = "mc", fld = "aeid", val = ae) + setkey(ft, m4id) + if (any(ms$nddr)) { + dr <- .load6DR(ae) + setkey(dr, m4id) + dr <- dr[ft[ , list(m4id, m5id)]] + dr[ , bmad := unique(ft$bmad)] + } + + ## Check if any level 5 data was loaded + if (nrow(ft) == 0) { + warning("No level 5 data for AEID", ae, ". Level 6 processing incomplete;", + " no updates\n made to the mc6 table for AEID", ae, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + + cat("Loaded L5 AEID", ae, " (", nrow(ft), " rows; ", ttime,")\n", sep = "") + + stime <- Sys.time() + + ## Initialize f, the list of data.tables containing the flag information + f <- vector(mode = "list", length = max(ms$mthd_id)) + + ## Generate and evaluate flag expressions + mthd_funcs <- mc6_mthds() + exprs <- lapply(ms$mthd_id, function(x) mthd_funcs[[ms[J(x), mthd]]](x)) + fenv <- environment() + invisible(rapply(exprs, eval, envir = fenv)) + + f <- rbindlist(f) + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Processed L6 AEID", ae, " (", nrow(ft), + " rows; ", ttime, ")\n", sep = "") + + res <- TRUE + + ## Load into mc6 table -- else return results + if (wr) { + + stime <- Sys.time() + + if (nrow(f) == 0) { + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("No flags to write for AEID", ae, sep = "") + return(TRUE) + } + + tcplWriteData(dat = f, lvl = 6L, type = "mc") + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Wrote L6 AEID", ae, " (", nrow(f), " rows; ", ttime, ")\n", sep = "") + } else { + res <- c(list(res), list(f)) + } + + return(res) + +} + +#------------------------------------------------------------------------------- diff --git a/R/mc6_mthds.R b/R/mc6_mthds.R index c0dd150..65d2e2e 100644 --- a/R/mc6_mthds.R +++ b/R/mc6_mthds.R @@ -1,482 +1,245 @@ -#------------------------------------------------------------------------------- -# mc6_mthds: Load list of flag methods (to be used at level 6) -#------------------------------------------------------------------------------- - -#' @name MC6_Methods -#' @title Load list of level 6 multiple-concentration flag methods -#' -#' @description -#' \code{mc6_mthds} returns a list of flag methods to be used -#' during level 6 multiple-concentration processing. -#' -#' @return A list functions -#' -#' @seealso \code{\link{mc6}}, \code{\link{Method functions}} to query what -#' methods get applied to each aeid -#' -#' @section Available Methods: -#' -#' More information about the level 6 multiple-concentration processing is -#' available in the package vignette, "Pipeline_Overview." -#' -#' \describe{ -#' \item{row.dev.up}{The row.dev.up flag looks at the individual point data, -#' searching for row effects across an apid. To get flagged the point has to -#' be greater than 3 standard deviations above the mean response for the -#' plate, and the row mean must be greater than 3 standard deviations above -#' the row means for the plate.} -#' \item{row.dev.dn}{The row.dev.dn flag is identical to the row.dev.up flag, -#' but identifies points falling in rows with decreased signals.} -#' \item{col.dev.up}{The col.dev.up flag is identical to the row.dev.up flag, -#' but identifies points falling in columns with increased signals.} -#' \item{col.dev.dn}{The col.dev.up flag is identical to the row.dev.up flag, -#' but identifies points falling in columns with decreased signals.} -#' \item{plate.flare}{The plate.flare flag looks at the individual point data, -#' searching for overly active regions across an apid. Intended for use in -#' fluorometric assays that are read by a plate-reader that measures the -#' plate as a whole, rather than measuring individual wells. For each well -#' the flare value is calculated as a weighted mean a 5 well by 5 well box -#' centered on the well where the weight given to each well in the box is the -#' euclidian distance from the center well. The flag then identifies points -#' with flare values greater than 3 standard deviations above the mean flare -#' values for the plate.} -#' \item{plate.interlace}{The plate.interlace flag is specific to one -#' experimental design that plates chemicals from a 386 well chemical plate -#' to a 1536 well assay plate. The flag looks for any chemical-plate affects, -#' by looking for an increased signal in the wells originating from the same -#' chemical plate.} -#' \item{rep.mismatch}{The rep.mismatch flag is still in development and is -#' not suggested for use at this time.} -#' \item{pintool}{Deprecated. The pintool flag uses a complicated algorithm -#' to look for signal potentially caused by residual in the pintool used to -#' deliver the chemical to assay plates in some experimental designs. The -#' gnls.lowconc is a faster and simpler way to identify where this problem -#' may be driving the activity or hit-call.} -#' \item{singlept.hit.high}{The singlept.hit.high flag identifies -#' concentration series where the median response was greater than 3*bmad -#' only at the highest tested concentration and the series had an active -#' hit-call.} -#' \item{singlept.hit.mid}{The singlept.hit.mid flag identifies concentration -#' series where the median response was greater than 3*bmad at only one -#' concentration (not the highest tested concentration) and the series had -#' an active hit-call.} -#' \item{multipoint.neg}{The multipoint.neg flag identifies concentration -#' series with response medians greater than 3*bmad at multiple -#' concentrations and an inactive hit-call.} -#' \item{gnls.lowconc}{The gnls.lowconc flag identifies concentration series -#' where the gain-loss model won, the gain AC50 is less than the minimum -#' tested concentration, and the loss AC50 is less than the mean tested -#' concentration.} -#' \item{noise}{The noise flag attempts to identify noisy concentration -#' series by flagging series where the root mean square error for the series -#' is greater than the cutoff for the assay endpoint.} -#' \item{border.hit}{The border.hit flag identifies active concentration -#' series where the top parameter of the winning model was less than or equal -#' to 1.2*cut-off or the the activity probablity was less than 0.9.} -#' \item{border.miss}{The border.miss flag identifies inactive concentration -#' series where either the Hill or gain-loss top parameter was greater than -#' or equal to 0.8*cut-off and the activity probability was greater than 0.5.} -#' \item{overfit.hit}{The overfit.hit flag recalculates the model winner -#' after applying a small sample correction factor to the AIC values. If the -#' hit-call would be changed after applying the small sample correction -#' factor the series is flagged. Series with less than 5 concentrations where -#' the hill model won and series with less than 7 concentrations where the -#' gain-loss model won are automatically flagged.} -#' \item{efficacy.50}{The efficacy.50 flag identifies concentration series -#' with efficacy values (either the modeled top parameter for the winning -#' model or the maximum median response) are less than 50. Intended for use -#' with biochemical assays where one might expect at least a 50\% change in -#' real responses.} -#' } - -mc6_mthds <- function() { - - list( - - row.dev.up = function(mthd) { - - flag <- "Row-wise effect, increased signal" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, "proportion", FALSE)) - e1 <- bquote(dr[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(dr[wllt == "t", - rowm := mean(resp, na.rm = TRUE), - by = list(apid, rowi)]) - e3 <- bquote(dr[wllt == "t", - athd := resp > mean(resp) + 3*sd(resp), by = apid]) - e4 <- bquote(dr[wllt == "t", - test := rowm > mean(rowm) + 3*sd(rowm) & athd, - by = apid]) - e5 <- bquote(dr[ , fval := lw(test)/.N, by = m4id]) - e6 <- bquote(dr[fval < 0.25, test := FALSE]) - e7 <- bquote(f[[.(mthd)]] <- dr[which(test), - unique(.SD), - .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "rowm", - "athd") - e8 <- bquote(dr[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7, e8) - - }, - - row.dev.dn = function(mthd) { - - flag <- "Row-wise effect, decreased signal" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, "proportion", FALSE)) - e1 <- bquote(dr[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(dr[wllt == "t", - rowm := mean(resp, na.rm = TRUE), - by = list(apid, rowi)]) - e3 <- bquote(dr[wllt == "t", - athd := resp < mean(resp) - 3*sd(resp), by = apid]) - e4 <- bquote(dr[wllt == "t", - test := rowm < mean(rowm) - 3*sd(rowm) & athd, - by = apid]) - e5 <- bquote(dr[ , fval := lw(test)/.N, by = m4id]) - e6 <- bquote(dr[fval < 0.25, test := FALSE]) - e7 <- bquote(f[[.(mthd)]] <- dr[which(test), - unique(.SD), - .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "rowm", - "athd") - e8 <- bquote(dr[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7, e8) - - }, - - col.dev.up = function(mthd) { - - flag <- "Col-wise effect, increased signal" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, "proportion", FALSE)) - e1 <- bquote(dr[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(dr[wllt == "t", - colm := mean(resp, na.rm = TRUE), - by = list(apid, coli)]) - e3 <- bquote(dr[wllt == "t", - athd := resp > mean(resp) + 3*sd(resp), by = apid]) - e4 <- bquote(dr[wllt == "t", - test := colm > mean(colm) + 3*sd(colm) & athd, - by = apid]) - e5 <- bquote(dr[ , fval := lw(test)/.N, by = m4id]) - e6 <- bquote(dr[fval < 0.25, test := FALSE]) - e7 <- bquote(f[[.(mthd)]] <- dr[which(test), - unique(.SD), - .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "colm", - "athd") - e8 <- bquote(dr[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7, e8) - - }, - - col.dev.dn = function(mthd) { - - flag <- "Col-wise effect, decreased signal" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, "proportion", FALSE)) - e1 <- bquote(dr[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(dr[wllt == "t", - colm := mean(resp, na.rm = TRUE), - by = list(apid, coli)]) - e3 <- bquote(dr[wllt == "t", - athd := resp < mean(resp) - 3*sd(resp), by = apid]) - e4 <- bquote(dr[wllt == "t", - test := colm < mean(colm) - 3*sd(colm) & athd, - by = apid]) - e5 <- bquote(dr[ , fval := lw(test)/.N, by = m4id]) - e6 <- bquote(dr[fval < 0.25, test := FALSE]) - e7 <- bquote(f[[.(mthd)]] <- dr[which(test), - unique(.SD), - .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "colm", - "athd") - e8 <- bquote(dr[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7, e8) - - }, - - plate.flare = function(mthd) { - - flag <- "Includes potential flare region points" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, "proportion", FALSE)) - e1 <- bquote(dr[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(dr[wllt == "t", - flrv := flareFunc(resp, coli, rowi, apid, r = 4)]) - e3 <- bquote(dr[wllt == "t", - test := flrv > mean(flrv) + 3*sd(flrv)]) - e4 <- bquote(dr[ , fval := lw(test)/.N, by = m4id]) - e5 <- bquote(dr[fval < 0.25, test := FALSE]) - e6 <- bquote(f[[.(mthd)]] <- dr[wllt == "t" & test & fval > 0.1, - unique(.SD), - .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "flrv") - e7 <- bquote(dr[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7) - - }, - - plate.interlace = function(mthd) { - - flag <- "Includes potential chemical plate interlace points" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, "proportion", FALSE)) - e1 <- bquote(dr[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(dr[wllt == "t" & is.odd(coli) & is.odd(rowi), intq := 1]) - e3 <- bquote(dr[wllt == "t" & !is.odd(coli) & is.odd(rowi), intq := 2]) - e4 <- bquote(dr[wllt == "t" & is.odd(coli) & !is.odd(rowi), intq := 3]) - e5 <- bquote(dr[wllt == "t" & !is.odd(coli) & !is.odd(rowi), intq := 4]) - e6 <- bquote(dr[wllt =="t", colj := ceiling(coli/2)]) - e7 <- bquote(dr[wllt =="t", rowj := ceiling(rowi/2)]) - e8 <- bquote(dr[wllt == "t", - intv := interlaceFunc(val = resp, - intq = intq, - coli = colj, - rowi = rowj, - apid = apid, - r = 3)]) - e9 <- bquote(dr[wllt == "t", test := (intv > mean(intv) + 3*sd(intv))]) - e10 <- bquote(dr[ , fval := lw(test)/.N, by = m4id]) - e11 <- bquote(dr[fval < 0.25, test := FALSE]) - e12 <- bquote(f[[.(mthd)]] <- dr[wllt == "t" & test & fval > 0.1, - unique(.SD), - .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", - "intv", "intq", "colj", "rowj") - e13 <- bquote(dr[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7, e8, e9, e10, e11, e12, e13) - - }, - - - rep.mismatch = function(mthd) { - - flag <- "Replicate mismatch" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, "proportion", FALSE)) - e1 <- bquote(dr[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(dr[wllt == "t", - c("l4mn", "N") := list(mean(resp), .N), by = m4id]) - e3 <- bquote(dr[wllt == "t", - excl.repmn := (l4mn * N - sum(resp)) / (N - .N), - by = list(m4id, repi)]) - e4 <- bquote(dr[wllt == "t", repmn := mean(resp), by = list(m4id, repi)]) - e5 <- bquote(dr[wllt == "t", repsd := sd(resp), by = list(m4id, repi)]) - e6 <- bquote(dr[wllt == "t", t1 := excl.repmn > repmn + 2*repsd]) - e7 <- bquote(dr[wllt == "t", t2 := excl.repmn < repmn - 2*repsd]) - e8 <- bquote(dr[wllt == "t", test := t1 | t2]) - e9 <- bquote(dr[ , fval := lw(test)/.N, by = m4id]) - e10 <- bquote(f[[.(mthd)]] <- dr[which(test), - unique(.SD), - .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "l4mn", "N", - "excl.repmn", "repsd", "repmn", "t1", "t2") - e11 <- bquote(dr[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7, e8, e9) - - }, - - pintool = function(mthd) { - - flag <- "Potential pintool carryover" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, "proportion", FALSE)) - e1 <- bquote(dr[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(dr[wllt == "t", - t1 := max(resp[cndx == 1]) > 9*bmad, - by = list(m4id, repi)]) - e3 <- bquote(dr[wllt == "t", - t2 := max(resp[cndx == 2]) > 4.5*bmad, - by = list(m4id, repi)]) - e4 <- bquote(dr[wllt == "t", - t3 := min(resp[cndx %in% 3:7]) < bmad, - by = list(m4id, repi)]) - e5 <- bquote(dr[wllt == "t", incl := t1 & t2 & t3]) - e6 <- bquote(setkey(dr, cndx)) - e7 <- bquote(dr[wllt == "t" & incl, - test := all(resp[cndx[1:3]] - resp[cndx[2:4]] > 0), - by = list(m4id, repi)]) - e8 <- bquote(dr[ , fval := lw(test)/.N, by = m4id]) - e9 <- bquote(f[[.(mthd)]] <- dr[which(test), - unique(.SD), - .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "incl", - "t1", "t2", "t3") - e10 <- bquote(dr[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7, e8, e9, e10) - - }, - - singlept.hit.high = function(mthd) { - - flag <- "Only highest conc above baseline, active" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(ft[ , lstc := max_med_conc == logc_max]) - e3 <- bquote(ft[ , test := nmed_gtbl == 1 & hitc == 1 & lstc]) - e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "lstc") - e5 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5) - - }, - - singlept.hit.mid = function(mthd) { - - flag <- "Only one conc above baseline, active" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(ft[ , lstc := max_med_conc == logc_max]) - e3 <- bquote(ft[ , test := nmed_gtbl == 1 & hitc == 1 & !lstc]) - e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "lstc") - e5 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5) - - }, - - multipoint.neg = function(mthd) { - - flag <- "Multiple points above baseline, inactive" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(ft[ , test := nmed_gtbl > 1 & hitc == 0]) - e3 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") - e4 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4) - - }, - - gnls.lowconc = function(mthd) { - - flag <- "Gain AC50 < lowest conc & loss AC50 < mean conc" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - conc_cols <- c("logc_max", "logc_min") - e2 <- bquote(ft[ , cmen := rowMeans(.SD), .SDcols = .(conc_cols)]) - e3 <- bquote(ft[ , test := modl_ga < logc_min & modl_la < cmen]) - e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "cmen") - e5 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5) - - }, - - noise = function(mthd) { - - flag <- "Noisy data" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(ft[ , test := modl_rmse > coff]) - e3 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") - e4 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4) - - }, - - border.hit = function(mthd) { - - flag <- "Borderline active" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(ft[ , t1 := actp < 0.9]) - e3 <- bquote(ft[ , t2 := modl_tp <= 1.2*coff | max_med <= 1.2*coff]) - e4 <- bquote(ft[ , test := hitc == 1 & (t1 | t2)]) - e5 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") - e6 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6) - - }, - - border.miss = function(mthd) { - - flag <- "Borderline inactive" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(ft[ , tp.8 := gnls_tp >= 0.8*coff | hill_tp >= 0.8*coff]) - e3 <- bquote(ft[ , test := hitc == 0L & actp > 0.5 & tp.8]) - e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "tp.8") - e5 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5) - - }, - - overfit.hit = function(mthd) { - - flag <- "Hit-call potentially confounded by overfitting" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(ft[modl == "hill" & npts < 5 & hitc == 1, test := TRUE]) - e3 <- bquote(ft[modl == "gnls" & npts < 7 & hitc == 1, test := TRUE]) - e4 <- bquote(ft[npts > 1, cna := cnst_aic + 4/(npts - 2)]) - e5 <- bquote(ft[npts > 4, hna := hill_aic + 40/(npts - 4)]) - e6 <- bquote(ft[npts > 6, gna := gnls_aic + 84/(npts - 7)]) - e7 <- bquote(ft[ , nma := pmin(cna, hna, gna, na.rm = TRUE)]) - e8 <- bquote(ft[gna == nma, nmdl := "gnls"]) - e9 <- bquote(ft[hna == nma, nmdl := "hill"]) - e10 <- bquote(ft[cna == nma, nmdl := "cnst"]) - e11 <- bquote(ft[ , nhc := FALSE]) - e12 <- bquote(ft[nmdl == "hill" & hill_tp >= coff & max_med >= coff, - nhc := TRUE]) - e13 <- bquote(ft[nmdl == "gnls" & gnls_tp >= coff & max_med >= coff, - nhc := TRUE]) - e14 <- bquote(ft[hitc == 1 & !nhc, test := TRUE]) - e15 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", - "cna", "hna", "gna", "nma", "nmdl", "nhc") - e16 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4, e5, e6, e7, e8, e9, e10, - e11, e12, e13, e14, e15, e16) - - }, - - efficacy.50 = function(mthd) { - - flag <- "Biochemical assay with < 50% efficacy" - out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", - "flag", "fval", "fval_unit") - init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) - e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init), with = FALSE]) - e2 <- bquote(ft[hitc == 1, test := modl_tp < 50 | max_med < 50]) - e3 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) - cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") - e4 <- bquote(ft[ , .(cr) := NULL, with = FALSE]) - list(e1, e2, e3, e4) - - } - - ) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# mc6_mthds: Load list of flag methods (to be used at level 6) +#------------------------------------------------------------------------------- + +#' @name MC6_Methods +#' @title Load list of level 6 multiple-concentration flag methods +#' +#' @description +#' \code{mc6_mthds} returns a list of flag methods to be used +#' during level 6 multiple-concentration processing. +#' +#' @return A list functions +#' +#' @seealso \code{\link{mc6}}, \code{\link{Method functions}} to query what +#' methods get applied to each aeid +#' +#' @section Available Methods: +#' +#' More information about the level 6 multiple-concentration processing is +#' available in the package vignette, "Pipeline_Overview." +#' +#' \describe{ +#' \item{singlept.hit.high}{The singlept.hit.high flag identifies +#' concentration series where the median response was greater than 3*bmad +#' only at the highest tested concentration and the series had an active +#' hit-call.} +#' \item{singlept.hit.mid}{The singlept.hit.mid flag identifies concentration +#' series where the median response was greater than 3*bmad at only one +#' concentration (not the highest tested concentration) and the series had +#' an active hit-call.} +#' \item{multipoint.neg}{The multipoint.neg flag identifies concentration +#' series with response medians greater than 3*bmad at multiple +#' concentrations and an inactive hit-call.} +#' \item{gnls.lowconc}{The gnls.lowconc flag identifies concentration series +#' where the gain-loss model won, the gain AC50 is less than the minimum +#' tested concentration, and the loss AC50 is less than the mean tested +#' concentration.} +#' \item{noise}{The noise flag attempts to identify noisy concentration +#' series by flagging series where the root mean square error for the series +#' is greater than the cutoff for the assay endpoint.} +#' \item{border.hit}{The border.hit flag identifies active concentration +#' series where the top parameter of the winning model was less than or equal +#' to 1.2*cut-off or the the activity probablity was less than 0.9.} +#' \item{border.miss}{The border.miss flag identifies inactive concentration +#' series where either the Hill or gain-loss top parameter was greater than +#' or equal to 0.8*cut-off and the activity probability was greater than 0.5.} +#' \item{overfit.hit}{The overfit.hit flag recalculates the model winner +#' after applying a small sample correction factor to the AIC values. If the +#' hit-call would be changed after applying the small sample correction +#' factor the series is flagged. Series with less than 5 concentrations where +#' the hill model won and series with less than 7 concentrations where the +#' gain-loss model won are automatically flagged.} +#' \item{efficacy.50}{The efficacy.50 flag identifies concentration series +#' with efficacy values (either the modeled top parameter for the winning +#' model or the maximum median response) are less than 50 for percent activity +#' data or log2(1.5) for fold induction data} +#' \item{modlga.lowconc}{The modlga.lowconc flag identifies concentration series +#' with modl_ga (AC50) values less than the minimum tested concentration.} +#' } + +mc6_mthds <- function() { + + list( + + singlept.hit.high = function(mthd) { + + flag <- "Only highest conc above baseline, active" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[ , lstc := max_med_conc == logc_max]) + e3 <- bquote(ft[ , test := nmed_gtbl == 1 & hitc == 1 & lstc]) + e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "lstc") + e5 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4, e5) + + }, + + singlept.hit.mid = function(mthd) { + + flag <- "Only one conc above baseline, active" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[ , lstc := max_med_conc == logc_max]) + e3 <- bquote(ft[ , test := nmed_gtbl == 1 & hitc == 1 & !lstc]) + e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "lstc") + e5 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4, e5) + + }, + + multipoint.neg = function(mthd) { + + flag <- "Multiple points above baseline, inactive" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[ , test := nmed_gtbl > 1 & hitc == 0]) + e3 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") + e4 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4) + + }, + + gnls.lowconc = function(mthd) { + + flag <- "Gain AC50 < lowest conc & loss AC50 < mean conc" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + conc_cols <- c("logc_max", "logc_min") + e2 <- bquote(ft[ , cmen := rowMeans(.SD), .SDcols = .(conc_cols)]) + e3 <- bquote(ft[ , test := modl_ga < logc_min & modl_la < cmen]) + e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "cmen") + e5 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4, e5) + + }, + + noise = function(mthd) { + + flag <- "Noisy data" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[ , test := modl_rmse > coff]) + e3 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") + e4 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4) + + }, + + border.hit = function(mthd) { + + flag <- "Borderline active" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[ , t1 := actp < 0.9]) + e3 <- bquote(ft[ , t2 := modl_tp <= 1.2*coff | max_med <= 1.2*coff]) + e4 <- bquote(ft[ , test := hitc == 1 & (t1 | t2)]) + e5 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") + e6 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4, e5, e6) + + }, + + border.miss = function(mthd) { + + flag <- "Borderline inactive" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[ , tp.8 := gnls_tp >= 0.8*coff | hill_tp >= 0.8*coff]) + e3 <- bquote(ft[ , test := hitc == 0L & actp > 0.5 & tp.8]) + e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", "tp.8") + e5 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4, e5) + + }, + + overfit.hit = function(mthd) { + + flag <- "Hit-call potentially confounded by overfitting" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[modl == "hill" & npts < 5 & hitc == 1, test := TRUE]) + e3 <- bquote(ft[modl == "gnls" & npts < 7 & hitc == 1, test := TRUE]) + e4 <- bquote(ft[npts > 1, cna := cnst_aic + 4/(npts - 2)]) + e5 <- bquote(ft[npts > 4, hna := hill_aic + 40/(npts - 4)]) + e6 <- bquote(ft[npts > 6, gna := gnls_aic + 84/(npts - 7)]) + e7 <- bquote(ft[ , nma := pmin(cna, hna, gna, na.rm = TRUE)]) + e8 <- bquote(ft[gna == nma, nmdl := "gnls"]) + e9 <- bquote(ft[hna == nma, nmdl := "hill"]) + e10 <- bquote(ft[cna == nma, nmdl := "cnst"]) + e11 <- bquote(ft[ , nhc := FALSE]) + e12 <- bquote(ft[nmdl == "hill" & hill_tp >= coff & max_med >= coff, + nhc := TRUE]) + e13 <- bquote(ft[nmdl == "gnls" & gnls_tp >= coff & max_med >= coff, + nhc := TRUE]) + e14 <- bquote(ft[hitc == 1 & !nhc, test := TRUE]) + e15 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test", + "cna", "hna", "gna", "nma", "nmdl", "nhc") + e16 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4, e5, e6, e7, e8, e9, e10, + e11, e12, e13, e14, e15, e16) + + }, + + efficacy.50 = function(mthd) { + + flag <- "Less than 50% efficacy" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[hitc == 1 & coff >= 5, + test := modl_tp < 50 | max_med < 50]) + e3 <- bquote(ft[hitc == 1 & coff < 5, + test := modl_tp < log2(1.5) | max_med < log2(1.5)]) + e4 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") + e5 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4, e5) + + }, + + modlga.lowconc = function(mthd) { + + flag <- "AC50 less than lowest concentration tested" + out <- c("m5id", "m4id", "aeid", "mc6_mthd_id", + "flag", "fval", "fval_unit") + init <- bquote(list(.(mthd), .(flag), NA_real_, NA_character_, FALSE)) + e1 <- bquote(ft[ , .(c(out[4:7], "test")) := .(init)]) + e2 <- bquote(ft[hitc == 1, test := modl_ga < logc_min]) + e3 <- bquote(f[[.(mthd)]] <- ft[which(test), .SD, .SDcols = .(out)]) + cr <- c("mc6_mthd_id", "flag", "fval", "fval_unit", "test") + e4 <- bquote(ft[ , .((cr)) := NULL]) + list(e1, e2, e3, e4) + + } + + ) + +} + +#------------------------------------------------------------------------------- diff --git a/R/mthd_funcs.R b/R/mthd_funcs.R index d0e230a..cc99d51 100644 --- a/R/mthd_funcs.R +++ b/R/mthd_funcs.R @@ -1,67 +1,68 @@ -#' @name Method functions -#' @rdname mthd_funcs -#' @title Functions for managing processing methods -#' -#' @description -#' These functions are used to manage which methods are used to process data. -#' They include methods for assigning, clearing, and loading the assigned -#' methods. Also, \code{tcplMthdList} lists the available methods. -#' -#' @param lvl Integer of length 1, the method level -#' @param id Integer, the assay component or assay endpoint id(s) -#' @param mthd_id Integer, the method id(s) -#' @param ordr Integer, the order in which to execute the analysis methods, -#' must be the same length as mthd_id, does not apply to levels 5 or 6 -#' @param type Character of length 1, the data type, "sc" or "mc" -#' -#' @details -#' \code{tcplMthdLoad} loads the assigned methods for the given level and -#' ID(s). Similarly, \code{tcplMthdList} displays the available methods for -#' the given level. These two functions do not make any changes to the -#' database. -#' -#' Unlike the \code{-Load} and \code{-List} functions, the \code{-Assign} and -#' \code{-Clear} functions alter the database and trigger a delete cascade. -#' \code{tcplMthdAssign} assigns methods to the given ID(s), and -#' \code{tcplMthdClear} removes methods. In addition to the method ID -#' ('mthd_id'), assigning methods at some levels require an order ('ordr'). -#' The 'ordr' parameter is necessary to allow progression of methods at level -#' one for single-concentration processing, and levels two and three for -#' multiple-concentration processing. More information about method assignments -#' and the delete cascade are available in the package vignette. -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## tcplListMthd allows the user to display the available methods for -#' ## a given level and data type -#' head(tcplMthdList(lvl = 2, type = "mc")) -#' -#' ## tcplLoadMthd shows which methods are assigned for the given ID, level, -#' ## and data type. Here we will show how to register, load, and clear methods -#' ## using an acid not in the example database. Note: There is no check for -#' ## whether an ID exists before assigning/clearing methods. -#' tcplMthdLoad(lvl = 2, id = 55, type = "mc") -#' -#' ## ACID 55 does not have any methods. Assign methods from the list above. -#' tcplMthdAssign(lvl = 2, -#' id = 55, -#' mthd_id = c(3, 4, 2), -#' ordr = 1:3, -#' type = "mc") -#' ## Method assignment can be done for multiple assays, too. -#' tcplMthdAssign(lvl = 2, -#' id = 53:54, -#' mthd_id = c(3, 4, 2), -#' ordr = 1:3, -#' type = "mc") -#' -#' ## Cleanup example method assigments -#' tcplMthdClear(lvl = 2, id = 53:55, type = "mc") -#' -#' ## Reset configuration -#' options(conf_store) -NULL +#' @name Method functions +#' @rdname mthd_funcs +#' @title Functions for managing processing methods +#' +#' @description +#' These functions are used to manage which methods are used to process data. +#' They include methods for assigning, clearing, and loading the assigned +#' methods. Also, \code{tcplMthdList} lists the available methods. +#' +#' @param lvl Integer of length 1, the method level +#' @param id Integer, the assay component or assay endpoint id(s) +#' @param mthd_id Integer, the method id(s) +#' @param ordr Integer, the order in which to execute the analysis methods, +#' must be the same length as mthd_id, does not apply to levels 5 or 6 +#' @param type Character of length 1, the data type, "sc" or "mc" +#' +#' @details +#' \code{tcplMthdLoad} loads the assigned methods for the given level and +#' ID(s). Similarly, \code{tcplMthdList} displays the available methods for +#' the given level. These two functions do not make any changes to the +#' database. +#' +#' Unlike the \code{-Load} and \code{-List} functions, the \code{-Assign} and +#' \code{-Clear} functions alter the database and trigger a delete cascade. +#' \code{tcplMthdAssign} assigns methods to the given ID(s), and +#' \code{tcplMthdClear} removes methods. In addition to the method ID +#' ('mthd_id'), assigning methods at some levels require an order ('ordr'). +#' The 'ordr' parameter is necessary to allow progression of methods at level +#' one for single-concentration processing, and levels two and three for +#' multiple-concentration processing. More information about method assignments +#' and the delete cascade are available in the package vignette. +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## tcplListMthd allows the user to display the available methods for +#' ## a given level and data type +#' head(tcplMthdList(lvl = 2, type = "mc")) +#' +#' ## tcplLoadMthd shows which methods are assigned for the given ID, level, +#' ## and data type. Here we will show how to register, load, and clear methods +#' ## using an acid not in the example database. Note: There is no check for +#' ## whether an ID exists before assigning/clearing methods. +#' tcplMthdLoad(lvl = 2, id = 55, type = "mc") +#' +#' \dontrun{ +#' ## ACID 55 does not have any methods. Assign methods from the list above. +#' tcplMthdAssign(lvl = 2, +#' id = 55, +#' mthd_id = c(3, 4, 2), +#' ordr = 1:3, +#' type = "mc") +#' ## Method assignment can be done for multiple assays, too. +#' tcplMthdAssign(lvl = 2, +#' id = 53:54, +#' mthd_id = c(3, 4, 2), +#' ordr = 1:3, +#' type = "mc") +#' +#' ## Cleanup example method assigments +#' tcplMthdClear(lvl = 2, id = 53:55, type = "mc") +#' } +#' ## Reset configuration +#' options(conf_store) +NULL diff --git a/R/multProc.R b/R/multProc.R index 7d83764..3396f58 100644 --- a/R/multProc.R +++ b/R/multProc.R @@ -1,24 +1,24 @@ -#' @importFrom parallel mclapply - -.multProc <- function(id, lvl, type, ncores) { - - proc_func <- get(paste0(type, lvl)) - - tmp <- mclapply(id, proc_func, mc.cores = ncores, mc.preschedule = FALSE) - cat("Writing level", lvl, "data for", lw(sapply(tmp, "[[", 1)), "ids...\n") - stime <- Sys.time() - dat <- rbindlist(lapply(tmp, "[[", 2)) - if (nrow(dat) == 0) { - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Writing level ", lvl, " complete. (", ttime, ")\n", sep = "") - return(sapply(tmp, "[[", 1)) - } - tcplWriteData(dat = dat, lvl = lvl, type = type) - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Writing level ", lvl, " complete. (", ttime, ")\n", sep = "") - - sapply(tmp, "[[", 1) - +#' @importFrom parallel mclapply + +.multProc <- function(id, lvl, type, ncores) { + + proc_func <- get(paste0(type, lvl)) + + tmp <- mclapply(id, proc_func, mc.cores = ncores, mc.preschedule = FALSE) + cat("Writing level", lvl, "data for", lw(sapply(tmp, "[[", 1)), "ids...\n") + stime <- Sys.time() + dat <- rbindlist(lapply(tmp, "[[", 2)) + if (nrow(dat) == 0) { + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Writing level ", lvl, " complete. (", ttime, ")\n", sep = "") + return(sapply(tmp, "[[", 1)) + } + tcplWriteData(dat = dat, lvl = lvl, type = type) + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Writing level ", lvl, " complete. (", ttime, ")\n", sep = "") + + sapply(tmp, "[[", 1) + } \ No newline at end of file diff --git a/R/onAttach.R b/R/onAttach.R index 7db3288..8ae1e3e 100644 --- a/R/onAttach.R +++ b/R/onAttach.R @@ -1,16 +1,16 @@ -.onAttach <- function(libname, pkgname) { - - v <- tcplConfList() - p <- names(v) - pn <- sapply(p, nchar) - sep <- sapply(pn, function(x) paste(rep(" ", 11 - x), collapse = "")) - sep <- paste0(":", sep) - cs <- sapply(seq_along(v), function(x) paste(p[x], v[[x]], sep = sep[x])) - - packageStartupMessage("tcpl (v", as.character(utils::packageVersion("tcpl")), - ") loaded with the following settings:\n ", - paste(cs, collapse = "\n "), - "\nDefault settings stored in TCPL.conf. See ", - "?tcplConf for more information.") - -} +.onAttach <- function(libname, pkgname) { + + v <- tcplConfList() + p <- names(v) + pn <- sapply(p, nchar) + sep <- sapply(pn, function(x) paste(rep(" ", 11 - x), collapse = "")) + sep <- paste0(":", sep) + cs <- sapply(seq_along(v), function(x) paste(p[x], v[[x]], sep = sep[x])) + + packageStartupMessage("tcpl (v", as.character(utils::packageVersion("tcpl")), + ") loaded with the following settings:\n ", + paste(cs, collapse = "\n "), + "\nDefault settings stored in tcpl config file. See ", + "?tcplConf for more information.") + +} diff --git a/R/onLoad.R b/R/onLoad.R index 7d02e0e..8bc0e1f 100644 --- a/R/onLoad.R +++ b/R/onLoad.R @@ -1,16 +1,25 @@ -.onLoad <- function(libname, pkgname) { - - conf_file <- file.path(system.file(package = "tcpl"), "TCPL.config") - - if (file.exists(conf_file)) { - - tcplConfLoad() - - } else { - - tcplConfReset() - tcplConfLoad() - - } - -} +.onLoad <- function(libname, pkgname) { + + conf_file <- Sys.getenv("TCPL_CONF") + + if (file.exists(conf_file)) { + + loadConf <- try(tcplConfLoad(list.new = FALSE)) + + if (is(loadConf, 'try-error')) { + + warning("The configuration file given by 'TCPL_CONF' could not be ", + "loaded. Using default settings. Please see ?tcplConf for ", + "more information.") + + tcplConfDefault() + + } + + } else { + + tcplConfDefault() + + } + +} diff --git a/R/plateHeat.R b/R/plateHeat.R index 7ea5d46..9d4fc2b 100644 --- a/R/plateHeat.R +++ b/R/plateHeat.R @@ -1,147 +1,147 @@ -#------------------------------------------------------------------------------- -# plateHeat: create a plot showing the assay plate data -#------------------------------------------------------------------------------- - -#' @title Plot plate heatmap -#' -#' @description Plot plate heatmap, to be used with tcplPlotPlate -#' -#' @param vals Numeric, the well values -#' @param rowi Integer, the row index -#' @param coli Integer, the column index -#' @param wllt Character, the well type -#' @param wllq Logical, the well quality -#' @param rown Integer, the number of rows on the plate -#' @param coln Integer, the number of columns on the plate -#' @param main Character of length 1, the title/main -#' @param argn Numeric of length 2, the minimum and maximum values to constrain -#' the color scale -#' -#' @note -#' Optimized for an output with height = 20/3, width = 10, and -#' pointsize = 10 -#' -#' @importFrom RColorBrewer brewer.pal -#' @importFrom graphics par layout plot.new plot.window text box abline axis -#' @importFrom graphics lines rect -#' @importFrom grDevices colorRampPalette -#' @importFrom stats quantile - -.plateHeat <- function(vals, rowi, coli, wllt, wllq, rown, coln, main, arng) { - - opar <- par()[c("pty", "mar", "mai", "family")] - on.exit(par(opar)) - par(pty = "m", family = "mono") - - myPal <- colorRampPalette(rev(brewer.pal(11, "Spectral")), space = "Lab") - - outside <- vals < arng[1] | vals > arng[2] - outside[is.na(outside)] <- TRUE - vals[vals < arng[1]] <- arng[1] - vals[vals > arng[2]] <- arng[2] - badwlls <- cbind(rowi[!wllq], coli[!wllq]) - - layout(matrix(c(1, 1, 2, 3), ncol = 2, byrow = TRUE), - widths = c(9, 1), - heights = c(1, 9)) - - par(mar = c(0, 0, 0, 0), mai = c(0, 0, 0, 0), family = "mono") - plot.new() - plot.window(xlim = 0:1, - ylim = 0:1) - text(0.5, 0.5, main, font = 2, cex = 1.5) - - plot.new() - par(mar = c(2, 3, 2, 2) + 0.1, family = "mono") - plot.window(xlim = c(0, coln) + 0.5, - ylim = rev(c(0, rown) + 0.5), - xaxs = "i", - yaxs = "i") - box(which = "plot") - abline(v = 1:(coln - 1) + 0.5) - abline(h = 1:(rown - 1) + 0.5) - axis(side = 3, - at = 1:coln, - tick = FALSE, - labels = sprintf("%02d", 1:coln), - cex = 0.75) - axis(side = 2, - at = 1:rown, - tick = FALSE, - labels = sprintf("%02d", 1:rown), - cex = 0.75, - las = 2) - allwells <- expand.grid(1:coln, 1:rown) - .drawCircles(x = allwells[ , 1], - y = allwells[ , 2], - r = 0.4, - border = "gray30") - wcol <- myPal(500)[as.numeric(cut(c(vals, arng), breaks = 500))] - wcol <- wcol[1:(length(vals))] - .drawCircles(x = coli, - y = rowi, - r = 0.4, - border = "gray30", - col = wcol, - lwd = 1 + 3*outside) - invisible(apply(badwlls, - 1, - function(x) { - lines(x = c(x[2] - 0.5, x[2] + 0.5), - y = c(x[1] - 0.5, x[1] + 0.5)) - lines(x = c(x[2] - 0.5, x[2] + 0.5), - y = c(x[1] + 0.5, x[1] - 0.5)) - })) - .drawCircles(x = coli, - y = rowi, - r = 0.2, - border = "gray30", - col = "white") - text(x = coli, - y = rowi, - label = wllt, - font = 2, - col = "black", - cex = 0.65) - - lgnd <- try(plot.new(), silent = TRUE) - if (is(lgnd, "try-error")) { - par(mar = rep(0, 4), family = "mono", new = FALSE) - plot.new() - warning("Could not add the legend. Please adjust device size. See", - " ?tcplPlotPlate for more information.") - } else { - par(mar = c(2, 0, 2, 6) + 0.1, family = "mono") - plot.window(xlim = c(0, 1), - ylim = arng, - xaxs = "i", - yaxs = "i") - rect(0, - seq(arng[1], arng[2], length.out = 101)[-101], - 1, - seq(arng[1], arng[2], length.out = 101)[-1], - col = myPal(100), - border = myPal(100)) - apts <- quantile(arng, probs = seq(0, 1, length.out = 10)) - axis(side = 4, - at = apts, - las = 2, - cex = 0.5, - labels = sprintf("%5.1f", apts)) - axis(side = 4, - at = range(vals, na.rm = TRUE), - labels = c("", ""), - lwd = 0, - lwd.ticks = 2, - tck = -0.5) - axis(side = 4, - at = range(vals, na.rm = TRUE), - labels = c("", ""), - lwd = 0, - lwd.ticks = 2, - tck = 0.5) - } - -} - +#------------------------------------------------------------------------------- +# plateHeat: create a plot showing the assay plate data +#------------------------------------------------------------------------------- + +#' @title Plot plate heatmap +#' +#' @description Plot plate heatmap, to be used with tcplPlotPlate +#' +#' @param vals Numeric, the well values +#' @param rowi Integer, the row index +#' @param coli Integer, the column index +#' @param wllt Character, the well type +#' @param wllq Logical, the well quality +#' @param rown Integer, the number of rows on the plate +#' @param coln Integer, the number of columns on the plate +#' @param main Character of length 1, the title/main +#' @param argn Numeric of length 2, the minimum and maximum values to constrain +#' the color scale +#' +#' @note +#' Optimized for an output with height = 20/3, width = 10, and +#' pointsize = 10 +#' +#' @importFrom RColorBrewer brewer.pal +#' @importFrom graphics par layout plot.new plot.window text box abline axis +#' @importFrom graphics lines rect +#' @importFrom grDevices colorRampPalette +#' @importFrom stats quantile + +.plateHeat <- function(vals, rowi, coli, wllt, wllq, rown, coln, main, arng) { + + opar <- par()[c("pty", "mar", "mai", "family")] + on.exit(par(opar)) + par(pty = "m", family = "mono") + + myPal <- colorRampPalette(rev(brewer.pal(11, "Spectral")), space = "Lab") + + outside <- vals < arng[1] | vals > arng[2] + outside[is.na(outside)] <- TRUE + vals[vals < arng[1]] <- arng[1] + vals[vals > arng[2]] <- arng[2] + badwlls <- cbind(rowi[!wllq], coli[!wllq]) + + layout(matrix(c(1, 1, 2, 3), ncol = 2, byrow = TRUE), + widths = c(9, 1), + heights = c(1, 9)) + + par(mar = c(0, 0, 0, 0), mai = c(0, 0, 0, 0), family = "mono") + plot.new() + plot.window(xlim = 0:1, + ylim = 0:1) + text(0.5, 0.5, main, font = 2, cex = 1.5) + + plot.new() + par(mar = c(2, 3, 2, 2) + 0.1, family = "mono") + plot.window(xlim = c(0, coln) + 0.5, + ylim = rev(c(0, rown) + 0.5), + xaxs = "i", + yaxs = "i") + box(which = "plot") + abline(v = 1:(coln - 1) + 0.5) + abline(h = 1:(rown - 1) + 0.5) + axis(side = 3, + at = 1:coln, + tick = FALSE, + labels = sprintf("%02d", 1:coln), + cex = 0.75) + axis(side = 2, + at = 1:rown, + tick = FALSE, + labels = sprintf("%02d", 1:rown), + cex = 0.75, + las = 2) + allwells <- expand.grid(1:coln, 1:rown) + .drawCircles(x = allwells[ , 1], + y = allwells[ , 2], + r = 0.4, + border = "gray30") + wcol <- myPal(500)[as.numeric(cut(c(vals, arng), breaks = 500))] + wcol <- wcol[1:(length(vals))] + .drawCircles(x = coli, + y = rowi, + r = 0.4, + border = "gray30", + col = wcol, + lwd = 1 + 3*outside) + invisible(apply(badwlls, + 1, + function(x) { + lines(x = c(x[2] - 0.5, x[2] + 0.5), + y = c(x[1] - 0.5, x[1] + 0.5)) + lines(x = c(x[2] - 0.5, x[2] + 0.5), + y = c(x[1] + 0.5, x[1] - 0.5)) + })) + .drawCircles(x = coli, + y = rowi, + r = 0.2, + border = "gray30", + col = "white") + text(x = coli, + y = rowi, + label = wllt, + font = 2, + col = "black", + cex = 0.65) + + lgnd <- try(plot.new(), silent = TRUE) + if (is(lgnd, "try-error")) { + par(mar = rep(0, 4), family = "mono", new = FALSE) + plot.new() + warning("Could not add the legend. Please adjust device size. See", + " ?tcplPlotPlate for more information.") + } else { + par(mar = c(2, 0, 2, 6) + 0.1, family = "mono") + plot.window(xlim = c(0, 1), + ylim = arng, + xaxs = "i", + yaxs = "i") + rect(0, + seq(arng[1], arng[2], length.out = 101)[-101], + 1, + seq(arng[1], arng[2], length.out = 101)[-1], + col = myPal(100), + border = myPal(100)) + apts <- quantile(arng, probs = seq(0, 1, length.out = 10)) + axis(side = 4, + at = apts, + las = 2, + cex = 0.5, + labels = sprintf("%5.1f", apts)) + axis(side = 4, + at = range(vals, na.rm = TRUE), + labels = c("", ""), + lwd = 0, + lwd.ticks = 2, + tck = -0.5) + axis(side = 4, + at = range(vals, na.rm = TRUE), + labels = c("", ""), + lwd = 0, + lwd.ticks = 2, + tck = 0.5) + } + +} + #------------------------------------------------------------------------------- \ No newline at end of file diff --git a/R/plotFit.R b/R/plotFit.R index 08c9c8b..a89fb9c 100644 --- a/R/plotFit.R +++ b/R/plotFit.R @@ -1,496 +1,502 @@ -#------------------------------------------------------------------------------- -# plotFit: Create plot of the dose-response with associated models -#------------------------------------------------------------------------------- - -#' @importFrom graphics par layout plot rect abline curve axis axTicks points -#' @importFrom graphics plot.window text - -.plotFit <- function(resp, logc, pars) { - - ###--------------------------- Draw Left Panel ----------------------------### - - layout(mat = matrix(1:2, nrow = 1), widths = c(4, 5.5), heights = 3.5) - on.exit(layout(1)) - - opar <- par()[c("pty", "mar", "family")] - on.exit(par(opar), add = TRUE) - par(pty = "s", - mar = c(4, 4.5, 2, 3) + 0.1, - family = "mono") - - ## Round all numeric values in 'pars' to 99 digits - nind <- which(sapply(pars, is.numeric)) - pars[nind] <- lapply(pars[nind], round, digits = 99) - - ylab <- NULL - if (pars$resp_unit == "percent_activity") { - #y0 <- c(-50, 150) - ylab <- "Percent Activity" - } - if (pars$resp_unit == "log2_fold_induction") { - #y0 <- c(-1, 4) - ylab <- "Log2(Fold Induction)" - } - if (pars$resp_unit == "log10_fold_induction") { - #y0 <- c(-0.1, 2) - ylab <- "Log10(Fold Induction)" - } - if (is.null(ylab)) { - ylab <- pars$resp_unit - #y0 <- c(-50, 150) - } - if(pars$bmad != 0){ - y0 <- c(signif(-10*pars$bmad,2), signif(20*pars$bmad,2)) - }else{ - if ("coff" %in% names(pars)) { - y0 <- c(signif(-5*pars$coff,2), signif(10*pars$coff,2)) - }else{ - y0 <- c(-0.1, 2) - } - } - - fmax <- suppressWarnings(with(pars, 1.05*max(hill_tp, gnls_tp, na.rm = TRUE))) - if (is.infinite(fmax)) fmax <- NA_real_ - view <- fmax/diff(range(resp)) - hbrk <- pars$resp_max > y0[2] - lbrk <- pars$resp_min < y0[1] - brk <- with(pars, view < 0.5 & (hbrk | lbrk)) - pad <- if (hbrk & lbrk) 0.1 else 0.2 - - if (!is.na(brk) & brk) { - yrng <- (fmax - y0[1])/(1 - hbrk*pad - lbrk*pad) - ylim <- c(y0[1] - pad*yrng*lbrk, fmax + pad*yrng*hbrk) - md <- resp < fmax & resp > ylim[1] - if (all(md)) { - brk <- FALSE - } else { - hi <- resp > fmax - if (!any(hi)) hbrk <- FALSE - lo <- resp < ylim[1] - if (!any(lo)) lbrk <- FALSE - } - if (!any(lbrk, hbrk)) brk <- FALSE - } else { - if (is.na(brk)) { - brk <- if(hbrk | lbrk) TRUE else FALSE - if (brk) { - yrng <- diff(y0)/(1 - hbrk*pad - lbrk*pad) - ylim <- c(y0[1] - pad*yrng*lbrk, y0[2] + pad*yrng*hbrk) - md <- resp < ylim[2] & resp > ylim[1] - if (all(md)) { - brk <- FALSE - } else { - hi <- resp > ylim[2] - if (!any(hi)) hbrk <- FALSE - lo <- resp < ylim[1] - if (!any(lo)) lbrk <- FALSE - } - } else { - ylim <- y0 - md <- rep(TRUE, length(resp)) - } - } else { - ylim <- with(pars, c(min(y0[1], 1.2*resp_min), max(y0[2], 1.2*resp_max))) - md <- rep(TRUE, length(resp)) - } - } - - p <- list(ylim = ylim, - xlim = range(logc), - cex.lab = 1.2, - cex.axis = 1.2, - font.lab = 2, - col = "black", - cex = 2, - xlab = expression(bold(paste("Concentration (",mu,"M)"))), - ylab = ylab, - main = "", - bty = "n", - xaxt = "n", - yaxt = "n", - type = "n") - - do.call(what = plot, args = c(resp[md] ~ logc[md], p), quote = TRUE) - - rect(xleft = par()$usr[1], - xright = par()$usr[2], - ybottom = -3 * pars$bmad, - ytop = 3 * pars$bmad, - border = NA, - col = "gray70", - density = 15, - angle = 45) - - if ("coff" %in% names(pars)) abline(h = pars$coff, lwd = 1.5, col = "gray70") - - if (is.null(pars$modl)) pars$modl <- "none" - if (is.na(pars$modl)) pars$modl <- "none" - - if (!is.na(pars$cnst) & pars$cnst) { - - abline(h = 0, - lwd = 4, - col = "darkorange", - lty = ifelse(pars$modl == "cnst", "solid", "dashed")) - - } - - if (!is.na(pars$hill) & pars$hill) { - - hill.eq <- function(x) with(pars, hill_tp/(1 + 10^((hill_ga - x)*hill_gw))) - curve(hill.eq, - from = pars$logc_min, - to = pars$logc_max, - add = T, - n = 1e4, - lwd = 4, - col = "tomato3", - lty = ifelse(pars$modl == "hill", "solid", "dashed")) - abline(v = pars$hill_ga, - lwd = 2.5, - lty = ifelse(pars$modl == "hill", "solid", "dashed"), - col = "tomato3") - - } - - if (!is.na(pars$gnls) & pars$gnls) { - - gnls.eq <- function(x) { - with(pars, { - h1 <- (1/(1 + 10^((gnls_ga - x)*gnls_gw))) - h2 <- (1/(1 + 10^((x - gnls_la)*gnls_lw))) - gnls_tp*h1*h2 - }) - } - curve(gnls.eq, - from = pars$logc_min, - to = pars$logc_max, - add = T, - n = 1e4, - lwd = 4, - col = "dodgerblue2", - lty = ifelse(pars$modl == "gnls", "solid", "dashed")) - abline(v = pars$gnls_ga, - lwd = 2.5, - lty = ifelse(pars$modl == "gnls", "solid", "dashed"), - col = "dodgerblue2") - - } - - axis(side = 1, - at = axTicks(side = 1), - labels = signif(10^axTicks(side = 1), digits = 1), - font = 1, - lwd = 2, - cex.axis = 1.2, - col = "gray35") - axis(side = 2, - at = axTicks(side = 2), - labels = axTicks(side = 2), - font = 1, - lwd = 2, - cex.axis = 1.2, - col = "gray35") - - # points(x = pars$emax_conc, - # y = pars$emax, - # pch = 22, - # cex = 2, - # col = "gray35", - # lwd = 1, - # bg = "yellow2") - - points(resp[md] ~ logc[md], cex = 1.5, lwd = 2.5, col = "gray30") - - if (brk) { - - if (hbrk) { - - hrng <- unique(range(resp[hi])) - if (length(hrng) != 1) { - hlim <- with(pars, c(resp_max - diff(hrng)/pad, resp_max)) - } else { - hlim <- with(pars, c(resp_max - (hrng - y0[2])/pad, resp_max)) - } - - par(new = TRUE) - plot.window(xlim = par()$usr[1:2], ylim = hlim) - points(resp[hi] ~ logc[hi], cex = 0.5, lwd = 2.5, col = "gray60") - - axis(side = 4, - at = hrng, - labels = signif(hrng, 2), - font = 1, - lwd = 2, - cex.axis = 0.5, - col = "gray60") - - } - - if (lbrk) { - - lrng <- unique(range(resp[lo])) - if (length(lrng) != 1) { - llim <- with(pars, c(resp_min, resp_min + diff(lrng)/pad)) - } else { - llim <- with(pars, c(resp_min, resp_min + (y0[1] - lrng)/pad)) - } - - par(new = TRUE) - plot.window(xlim = par()$usr[1:2], ylim = llim) - points(resp[lo] ~ logc[lo], cex = 0.5, lwd = 2.5, col = "gray60") - - axis(side = 4, - at = lrng, - labels = signif(lrng, 2), - font = 1, - lwd = 2, - cex.axis = 0.5, - col = "gray60") - - } - - } - - ###--------------------- Prepare Text for Right Panel ---------------------### - - spaces <- function(x) paste(rep(" ", x), collapse = "") - - itxt <- with(pars, { - paste0("ASSAY: ", aenm, "\n\n", - "NAME: ", chnm, "\n", - "CHID: ", chid, spaces(8 - nchar(chid)), - "CASRN: ", casn, "\n", # spaces(16-nchar(casn)),"AGBY: ",agby,"\n", - "SPID(S): ", spid, "\n", - "M4ID: ", m4id, " ", ifelse(brk, "BRK", ""), "\n\n" - ) - }) - - if (!is.na(pars$hill) & pars$hill) { - - if (pars$hcov) { - hsds <- with(pars, signif(c(hill_tp_sd, hill_ga_sd, hill_gw_sd), 3)) - hsds[is.na(hsds)] <- NaN - } else { - hsds <- rep(NA, 3) - } - - hprs <- with(pars, signif(c(hill_tp, hill_ga, hill_gw), 3)) - - htxt1 <- paste("HILL MODEL (in red):\n tp", - "ga", - "gw\n", - sep = spaces(7)) - - htxt2 <- paste0(c("val: ", "sd: "), - c(paste(sapply(hprs, - function(x) { - paste0(x, spaces(9 - nchar(x))) - }), - collapse = ""), - paste(sapply(hsds, - function(x) { - paste0(x, spaces(9 - nchar(x))) - }), - collapse = "")), - collapse = "\n") - - htxt <- paste0(htxt1, htxt2, "\n\n") - - } else { - - if (is.na(pars$hill)) { - htxt <- "HILL MODEL: Not applicable.\n\n" - } else { - htxt <- "HILL MODEL: Failed to converge.\n\n" - } - - } - - if (!is.na(pars$gnls) & pars$gnls) { - - if (pars$gcov) { - gsds <- with(pars, - signif(c(gnls_tp_sd, - gnls_ga_sd, - gnls_gw_sd, - gnls_la_sd, - gnls_lw_sd), - 3) - ) - gsds[is.na(gsds)] <- NaN - } else { - gsds <- rep(NA, 5) - } - - gprs <- with(pars, - signif(c(gnls_tp, gnls_ga, gnls_gw, gnls_la, gnls_lw), 3)) - - gtxt1 <- paste("GAIN-LOSS MODEL (in blue):\n tp", - "ga", - "gw", - "la", - "lw\n", - sep = spaces(7)) - - gtxt2 <- paste0(c("val: ", "sd: "), - c(paste(sapply(gprs, - function(x) { - paste0(x, spaces(9 - nchar(x))) - }), - collapse = ""), - paste(sapply(gsds, - function(x) { - paste0(x, spaces(9 - nchar(x))) - }), - collapse = "")), - collapse = "\n") - - gtxt <- paste0(gtxt1, gtxt2, "\n\n") - - } else { - - if (is.na(pars$hill)) { - gtxt <- "GAIN-LOSS MODEL: Not applicable.\n\n" - } else { - gtxt <- "GAIN-LOSS MODEL: Failed to converge.\n\n" - } - - } - - aics <- with(pars, round(c(cnst_aic, hill_aic, gnls_aic), 2)) - prob <- with(pars, round(c(cnst_prob, hill_prob, gnls_prob), 2)) - rmse <- with(pars, round(c(cnst_rmse, hill_rmse, gnls_rmse), 2)) - models <- c("CNST", "HILL", "GNLS") - - atxt <- paste0(spaces(6), - models[1], - spaces(8), - models[2], - spaces(8), - models[3], - "\n", - paste0("AIC: ", - aics[1], - spaces(12 - nchar(aics[1])), - aics[2], - spaces(12 - nchar(aics[2])), - aics[3]), - "\n", - paste0("PROB: ", - prob[1], - spaces(12 - nchar(prob[1])), - prob[2], - spaces(12 - nchar(prob[2])), - prob[3]), - "\n", - paste0("RMSE: ", - rmse[1], - spaces(12 - nchar(rmse[1])), - rmse[2], - spaces(12 - nchar(rmse[2])), - rmse[3]), - "\n\n") - - pars$max_mean <- signif(pars$max_mean, 3) - pars$max_med <- signif(pars$max_med, 3) - - ntxt <- paste0("MAX_MEAN: ", pars$max_mean, - spaces(10 - nchar(pars$max_mean)), - "MAX_MED: ", pars$max_med, - spaces(10 - nchar(pars$max_med)), - "BMAD: ", signif(pars$bmad, 3), - "\n\n") - - if (!is.null(pars$hitc)) { - - pars$coff <- signif(pars$coff, 3) - ctxt <- paste0("COFF: ", pars$coff, spaces(7 - nchar(pars$coff)), - "HIT-CALL: ", pars$hitc, spaces(5 - nchar(pars$hitc)), - "FITC: ", pars$fitc, spaces(5 - nchar(pars$fitc)), - "ACTP: ", round(pars$actp, 2), - "\n\n") - - } else { - - ctxt <- NULL - - } - - if (!is.null(pars$flgo)) { - - ftxt <- paste0("FLAGS:\n", ifelse(is.na(pars$flgo), "", pars$flgo)) - - } else { - - ftxt <- NULL - - } - - plot_txt1 <- paste0(itxt, htxt, gtxt, atxt, ntxt, ctxt, ftxt) - - if (pars$modl != "none") { - nlines <- sum(7, - length(gregexpr("\n", htxt)[[1]]), - length(gregexpr("\n", gtxt)[[1]])) - winner <- with(pars, which(c("cnst", "hill", "gnls") == pars$modl)) - if (length(winner) > 1) winner <- winner[1] - - plot_txt2 <- paste0(paste(rep("\n", nlines), collapse = ""), - spaces(6 + 12*(winner - 1)), - models[winner], - "\n", - spaces(6 + 12*(winner - 1)), - aics[winner], - "\n", - spaces(6 + 12*(winner - 1)), - prob[winner], - "\n", - spaces(6 + 12*(winner - 1)), - rmse[winner]) - - } else { - - plot_txt2 <- NULL - - } - - - ###--------------------------- Draw Right Panel ---------------------------### - - par(pty = "m", - family = "mono", - mar = rep(2,4) + 0.1) - - plot(0, - type = "n", - bty = "n", - xaxt = "n", - yaxt = "n", - ylab = "", - xlab = "", - xlim = c(0, 16), - ylim = c(0, 16)) - - suppressWarnings( - text(y = 15, - x = 1, - labels = plot_txt1, - adj = c(0, 1), - font = 2, - cex = 1) - ) - - suppressWarnings( - text(y = 15, - x = 1, - labels = plot_txt2, - adj = c(0, 1), - font = 2, - cex = 1, - col = "red") - ) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# plotFit: Create plot of the dose-response with associated models +#------------------------------------------------------------------------------- + +#' @importFrom graphics par layout plot rect abline curve axis axTicks points +#' @importFrom graphics plot.window text + +.plotFit <- function(resp, logc, pars) { + + ###--------------------------- Draw Left Panel ----------------------------### + + layout(mat = matrix(1:2, nrow = 1), widths = c(4, 5.5), heights = 3.5) + on.exit(layout(1)) + + opar <- par()[c("pty", "mar", "family")] + on.exit(par(opar), add = TRUE) + par(pty = "s", + mar = c(4, 4.5, 2, 3) + 0.1, + family = "mono") + + ## Round all numeric values in 'pars' to 99 digits + nind <- which(sapply(pars, is.numeric)) + pars[nind] <- lapply(pars[nind], round, digits = 99) + + ylab <- NULL + if (pars$resp_unit == "percent_activity") { + #y0 <- c(-50, 150) + ylab <- "Percent Activity" + } + if (pars$resp_unit == "log2_fold_induction") { + #y0 <- c(-1, 4) + ylab <- "Log2(Fold Induction)" + } + if (pars$resp_unit == "log10_fold_induction") { + #y0 <- c(-0.1, 2) + ylab <- "Log10(Fold Induction)" + } + if (is.null(ylab)) { + ylab <- pars$resp_unit + #y0 <- c(-50, 150) + } + if(pars$bmad != 0){ + y0 <- c(signif(-10*pars$bmad,2), signif(20*pars$bmad,2)) + }else{ + if ("coff" %in% names(pars)) { + y0 <- c(signif(-5*pars$coff,2), signif(10*pars$coff,2)) + }else{ + y0 <- c(-0.1, 2) + } + } + + fmax <- suppressWarnings(with(pars, 1.05*max(hill_tp, gnls_tp, na.rm = TRUE))) + if (is.infinite(fmax)) fmax <- NA_real_ + view <- fmax/diff(range(resp)) + hbrk <- pars$resp_max > y0[2] + lbrk <- pars$resp_min < y0[1] + brk <- with(pars, view < 0.5 & (hbrk | lbrk)) + pad <- if (hbrk & lbrk) 0.1 else 0.2 + + if (!is.na(brk) & brk) { + yrng <- (fmax - y0[1])/(1 - hbrk*pad - lbrk*pad) + ylim <- c(y0[1] - pad*yrng*lbrk, fmax + pad*yrng*hbrk) + md <- resp < fmax & resp > ylim[1] + if (all(md)) { + brk <- FALSE + } else { + hi <- resp > fmax + if (!any(hi)) hbrk <- FALSE + lo <- resp < ylim[1] + if (!any(lo)) lbrk <- FALSE + } + if (!any(lbrk, hbrk)) brk <- FALSE + } else { + if (is.na(brk)) { + brk <- if(hbrk | lbrk) TRUE else FALSE + if (brk) { + yrng <- diff(y0)/(1 - hbrk*pad - lbrk*pad) + ylim <- c(y0[1] - pad*yrng*lbrk, y0[2] + pad*yrng*hbrk) + md <- resp < ylim[2] & resp > ylim[1] + if (all(md)) { + brk <- FALSE + } else { + hi <- resp > ylim[2] + if (!any(hi)) hbrk <- FALSE + lo <- resp < ylim[1] + if (!any(lo)) lbrk <- FALSE + } + } else { + ylim <- y0 + md <- rep(TRUE, length(resp)) + } + } else { + ylim <- with(pars, c(min(y0[1], 1.2*resp_min), max(y0[2], 1.2*resp_max))) + md <- rep(TRUE, length(resp)) + } + } + + p <- list(ylim = ylim, + xlim = range(logc), + cex.lab = 1.2, + cex.axis = 1.2, + font.lab = 2, + col = "black", + cex = 2, + xlab = expression(bold(paste("Concentration (",mu,"M)"))), + ylab = ylab, + main = "", + bty = "n", + xaxt = "n", + yaxt = "n", + type = "n") + + do.call(what = plot, args = c(resp[md] ~ logc[md], p), quote = TRUE) + + rect(xleft = par()$usr[1], + xright = par()$usr[2], + ybottom = -3 * pars$bmad, + ytop = 3 * pars$bmad, + border = NA, + col = "gray70", + density = 15, + angle = 45) + + if ("coff" %in% names(pars)) abline(h = pars$coff, lwd = 1.5, col = "gray70") + + if (is.null(pars$modl)) pars$modl <- "none" + if (is.na(pars$modl)) pars$modl <- "none" + + if (!is.na(pars$cnst) & pars$cnst) { + + abline(h = 0, + lwd = 4, + col = "darkorange", + lty = ifelse(pars$modl == "cnst", "solid", "dashed")) + + } + + if (!is.na(pars$hill) & pars$hill) { + + hill.eq <- function(x) with(pars, hill_tp/(1 + 10^((hill_ga - x)*hill_gw))) + curve(hill.eq, + from = pars$logc_min, + to = pars$logc_max, + add = T, + n = 1e4, + lwd = 4, + col = "tomato3", + lty = ifelse(pars$modl == "hill", "solid", "dashed")) + abline(v = pars$hill_ga, + lwd = 2.5, + lty = ifelse(pars$modl == "hill", "solid", "dashed"), + col = "tomato3") + + } + + if (!is.na(pars$gnls) & pars$gnls) { + + gnls.eq <- function(x) { + with(pars, { + h1 <- (1/(1 + 10^((gnls_ga - x)*gnls_gw))) + h2 <- (1/(1 + 10^((x - gnls_la)*gnls_lw))) + gnls_tp*h1*h2 + }) + } + curve(gnls.eq, + from = pars$logc_min, + to = pars$logc_max, + add = T, + n = 1e4, + lwd = 4, + col = "dodgerblue2", + lty = ifelse(pars$modl == "gnls", "solid", "dashed")) + abline(v = pars$gnls_ga, + lwd = 2.5, + lty = ifelse(pars$modl == "gnls", "solid", "dashed"), + col = "dodgerblue2") + + } + + axis(side = 1, + at = axTicks(side = 1), + labels = signif(10^axTicks(side = 1), digits = 1), + font = 1, + lwd = 2, + cex.axis = 1.2, + col = "gray35") + axis(side = 2, + at = axTicks(side = 2), + labels = axTicks(side = 2), + font = 1, + lwd = 2, + cex.axis = 1.2, + col = "gray35") + + # points(x = pars$emax_conc, + # y = pars$emax, + # pch = 22, + # cex = 2, + # col = "gray35", + # lwd = 1, + # bg = "yellow2") + + points(resp[md] ~ logc[md], cex = 1.5, lwd = 2.5, col = "gray30") + + if (brk) { + + if (hbrk) { + + hrng <- unique(range(resp[hi])) + if (length(hrng) != 1) { + hlim <- with(pars, c(resp_max - diff(hrng)/pad, resp_max)) + } else { + hlim <- with(pars, c(resp_max - (hrng - y0[2])/pad, resp_max)) + } + + par(new = TRUE) + plot.window(xlim = par()$usr[1:2], ylim = hlim) + points(resp[hi] ~ logc[hi], cex = 0.5, lwd = 2.5, col = "gray60") + + axis(side = 4, + at = hrng, + labels = signif(hrng, 2), + font = 1, + lwd = 2, + cex.axis = 0.5, + col = "gray60") + + } + + if (lbrk) { + + lrng <- unique(range(resp[lo])) + if (length(lrng) != 1) { + llim <- with(pars, c(resp_min, resp_min + diff(lrng)/pad)) + } else { + llim <- with(pars, c(resp_min, resp_min + (y0[1] - lrng)/pad)) + } + + par(new = TRUE) + plot.window(xlim = par()$usr[1:2], ylim = llim) + points(resp[lo] ~ logc[lo], cex = 0.5, lwd = 2.5, col = "gray60") + + axis(side = 4, + at = lrng, + labels = signif(lrng, 2), + font = 1, + lwd = 2, + cex.axis = 0.5, + col = "gray60") + + } + + } + + ###--------------------- Prepare Text for Right Panel ---------------------### + + spaces <- function(x) paste(rep(" ", x), collapse = "") + + itxt <- with(pars, { + paste0("ASSAY: ", aenm, "\n\n", + "NAME: ", chnm, "\n", + "CHID: ", chid, spaces(8 - ifelse(is.na(chid), 2, nchar(chid))), + "CASRN: ", casn, "\n", + "SPID(S): ", spid, "\n", + "M4ID: ", m4id, " ", ifelse(brk, "BRK", ""), "\n\n" + ) + }) + + if (!is.na(pars$hill) & pars$hill) { + + if (pars$hcov) { + hsds <- with(pars, signif(c(hill_tp_sd, hill_ga_sd, hill_gw_sd), 3)) + hsds[is.na(hsds)] <- "NaN" + } else { + hsds <- rep("NA", 3) + } + + hprs <- with(pars, signif(c(hill_tp, hill_ga, hill_gw), 3)) + + htxt1 <- paste("HILL MODEL (in red):\n tp", + "ga", + "gw\n", + sep = spaces(7)) + + htxt2 <- paste0(c("val: ", "sd: "), + c(paste(sapply(hprs, + function(x) { + paste0(x, spaces(9 - nchar(x))) + }), + collapse = ""), + paste(sapply(hsds, + function(x) { + paste0(x, spaces(9 - nchar(x))) + }), + collapse = "")), + collapse = "\n") + + htxt <- paste0(htxt1, htxt2, "\n\n") + + } else { + + if (is.na(pars$hill)) { + htxt <- "HILL MODEL: Not applicable.\n\n" + } else { + htxt <- "HILL MODEL: Failed to converge.\n\n" + } + + } + + if (!is.na(pars$gnls) & pars$gnls) { + + if (pars$gcov) { + gsds <- with(pars, + signif(c(gnls_tp_sd, + gnls_ga_sd, + gnls_gw_sd, + gnls_la_sd, + gnls_lw_sd), + 3) + ) + gsds[is.na(gsds)] <- "NaN" + } else { + gsds <- rep("NA", 5) + } + + gprs <- with(pars, + signif(c(gnls_tp, gnls_ga, gnls_gw, gnls_la, gnls_lw), 3)) + + gtxt1 <- paste("GAIN-LOSS MODEL (in blue):\n tp", + "ga", + "gw", + "la", + "lw\n", + sep = spaces(7)) + + gtxt2 <- paste0(c("val: ", "sd: "), + c(paste(sapply(gprs, + function(x) { + paste0(x, spaces(9 - nchar(x))) + }), + collapse = ""), + paste(sapply(gsds, + function(x) { + paste0(x, spaces(9 - nchar(x))) + }), + collapse = "")), + collapse = "\n") + + gtxt <- paste0(gtxt1, gtxt2, "\n\n") + + } else { + + if (is.na(pars$hill)) { + gtxt <- "GAIN-LOSS MODEL: Not applicable.\n\n" + } else { + gtxt <- "GAIN-LOSS MODEL: Failed to converge.\n\n" + } + + } + + cvals <- function(x) { + x <- as.character(x) + x[is.na(x)] <- "NA" + x + } + + aics <- cvals(with(pars, round(c(cnst_aic, hill_aic, gnls_aic), 2))) + prob <- cvals(with(pars, round(c(cnst_prob, hill_prob, gnls_prob), 2))) + rmse <- cvals(with(pars, round(c(cnst_rmse, hill_rmse, gnls_rmse), 2))) + models <- c("CNST", "HILL", "GNLS") + + atxt <- paste0(spaces(6), + models[1], + spaces(8), + models[2], + spaces(8), + models[3], + "\n", + paste0("AIC: ", + aics[1], + spaces(12 - nchar(aics[1])), + aics[2], + spaces(12 - nchar(aics[2])), + aics[3]), + "\n", + paste0("PROB: ", + prob[1], + spaces(12 - nchar(prob[1])), + prob[2], + spaces(12 - nchar(prob[2])), + prob[3]), + "\n", + paste0("RMSE: ", + rmse[1], + spaces(12 - nchar(rmse[1])), + rmse[2], + spaces(12 - nchar(rmse[2])), + rmse[3]), + "\n\n") + + pars$max_mean <- signif(pars$max_mean, 3) + pars$max_med <- signif(pars$max_med, 3) + + ntxt <- paste0("MAX_MEAN: ", pars$max_mean, + spaces(10 - nchar(pars$max_mean)), + "MAX_MED: ", pars$max_med, + spaces(10 - nchar(pars$max_med)), + "BMAD: ", signif(pars$bmad, 3), + "\n\n") + + if (!is.null(pars$hitc)) { + + pars$coff <- signif(pars$coff, 3) + ctxt <- paste0("COFF: ", pars$coff, spaces(7 - nchar(pars$coff)), + "HIT-CALL: ", pars$hitc, spaces(5 - nchar(pars$hitc)), + "FITC: ", pars$fitc, spaces(5 - nchar(pars$fitc)), + "ACTP: ", round(pars$actp, 2), + "\n\n") + + } else { + + ctxt <- NULL + + } + + if (!is.null(pars$flgo)) { + + ftxt <- paste0("FLAGS:\n", ifelse(is.na(pars$flgo), "", pars$flgo)) + + } else { + + ftxt <- NULL + + } + + plot_txt1 <- paste0(itxt, htxt, gtxt, atxt, ntxt, ctxt, ftxt) + + if (pars$modl != "none") { + nlines <- sum(7, + length(gregexpr("\n", htxt)[[1]]), + length(gregexpr("\n", gtxt)[[1]])) + winner <- with(pars, which(c("cnst", "hill", "gnls") == pars$modl)) + if (length(winner) > 1) winner <- winner[1] + + plot_txt2 <- paste0(paste(rep("\n", nlines), collapse = ""), + spaces(6 + 12*(winner - 1)), + models[winner], + "\n", + spaces(6 + 12*(winner - 1)), + aics[winner], + "\n", + spaces(6 + 12*(winner - 1)), + prob[winner], + "\n", + spaces(6 + 12*(winner - 1)), + rmse[winner]) + + } else { + + plot_txt2 <- NULL + + } + + + ###--------------------------- Draw Right Panel ---------------------------### + + par(pty = "m", + family = "mono", + mar = rep(2,4) + 0.1) + + plot(0, + type = "n", + bty = "n", + xaxt = "n", + yaxt = "n", + ylab = "", + xlab = "", + xlim = c(0, 16), + ylim = c(0, 16)) + + suppressWarnings( + text(y = 15, + x = 1, + labels = plot_txt1, + adj = c(0, 1), + font = 2, + cex = 1) + ) + + suppressWarnings( + text(y = 15, + x = 1, + labels = plot_txt2, + adj = c(0, 1), + font = 2, + cex = 1, + col = "red") + ) + +} + +#------------------------------------------------------------------------------- diff --git a/R/prepField.R b/R/prepField.R index 8f186b9..2e7be6f 100644 --- a/R/prepField.R +++ b/R/prepField.R @@ -1,36 +1,36 @@ -#------------------------------------------------------------------------------- -# prepField: Paste appropriate table name to field name -#------------------------------------------------------------------------------- - -#' @title Paste appropriate table name to field name -#' -#' @description Paste appropriate table name to field name -#' -#' @param fld Character, the table fields -#' @param tbl Character, the possible tables -#' @param db Character, the database containing the tables -#' -#' @details -#' The function loops through the given tables, and for each field i it assigns -#' the last table containing i to i. ORDER OF FLD MATTERS!! -#' -#' @import data.table - -.prepField <- function(fld, tbl, db) { - - tbl_flds <- lapply(tbl, tcplListFlds, db = db) - pre <- rep(NA_character_, length(fld)) - - for (i in seq_along(tbl)) { - - pre[fld %in% tbl_flds[[i]]] <- tbl[i] - - } - - if (any(is.na(pre))) stop("Not all given fields available in query.") - - paste(pre, fld, sep = ".") - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# prepField: Paste appropriate table name to field name +#------------------------------------------------------------------------------- + +#' @title Paste appropriate table name to field name +#' +#' @description Paste appropriate table name to field name +#' +#' @param fld Character, the table fields +#' @param tbl Character, the possible tables +#' @param db Character, the database containing the tables +#' +#' @details +#' The function loops through the given tables, and for each field i it assigns +#' the last table containing i to i. ORDER OF FLD MATTERS!! +#' +#' @import data.table + +.prepField <- function(fld, tbl, db) { + + tbl_flds <- lapply(tbl, tcplListFlds, db = db) + pre <- rep(NA_character_, length(fld)) + + for (i in seq_along(tbl)) { + + pre[fld %in% tbl_flds[[i]]] <- tbl[i] + + } + + if (any(is.na(pre))) stop("Not all given fields available in query.") + + paste(pre, fld, sep = ".") + +} + +#------------------------------------------------------------------------------- diff --git a/R/query_funcs.R b/R/query_funcs.R index 9214afb..748d6a3 100644 --- a/R/query_funcs.R +++ b/R/query_funcs.R @@ -1,33 +1,33 @@ -#' @name Query functions -#' @rdname query_funcs -#' @title Wrappers for sending queries and fetching results -#' -#' @description -#' These functions send a query to the given database, and are the access point -#' for all tcpl functions that query or update the tcpl database. -#' -#' @param query Character of length 1, the query string -#' @inheritParams tcplConf -#' -#' @details -#' Currently, the tcpl package only supports the "MySQL" and "SQLite" database -#' drivers. -#' -#' \code{tcplQuery} returns a data.table object with the query results. -#' \code{tcplSendQuery} sends a query, but does not fetch any results, and -#' returns 'TRUE' or the error message given by the database. -#' -#' @examples -#' -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' tcplQuery("SELECT 'Hello World';") -#' tcplQuery("SELECT * FROM assay;") -#' -#' ## Reset configuration -#' options(conf_store) -#' +#' @name Query functions +#' @rdname query_funcs +#' @title Wrappers for sending queries and fetching results +#' +#' @description +#' These functions send a query to the given database, and are the access point +#' for all tcpl functions that query or update the tcpl database. +#' +#' @param query Character of length 1, the query string +#' @inheritParams tcplConf +#' +#' @details +#' Currently, the tcpl package only supports the "MySQL" and "SQLite" database +#' drivers. +#' +#' \code{tcplQuery} returns a data.table object with the query results. +#' \code{tcplSendQuery} sends a query, but does not fetch any results, and +#' returns 'TRUE' or the error message given by the database. +#' +#' @examples +#' +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' tcplQuery("SELECT 'Hello World';") +#' tcplQuery("SELECT * FROM assay;") +#' +#' ## Reset configuration +#' options(conf_store) +#' NULL \ No newline at end of file diff --git a/R/registerMthd.R b/R/registerMthd.R index 80698c6..ed61434 100644 --- a/R/registerMthd.R +++ b/R/registerMthd.R @@ -1,51 +1,49 @@ -#------------------------------------------------------------------------------- -# registerMthd: Add new analysis method -#------------------------------------------------------------------------------- - -#' @title Add a new analysis method -#' -#' @description -#' \code{registerMthd} registers a new analysis method to the tcpl -#' databases. -#' -#' @param lvl Integer of length 1, the level for the analysis method -#' @param mthd Character, the name of the method -#' @param desc Character, same length as mthd, the method description -#' @param nddr Integer, 0 or 1, 1 if the method requires loading the dose- -#' response data -#' @param type Character of length 1, the data type, "sc" or "mc" -#' -#' @details -#' 'mthd' must match a corresponding function name in the functions that load -#' the methods, ie. \code{mc2_mthds}. 'nddr' only applies to level 6 -#' methods. -#' -#' @import data.table - -registerMthd <- function(lvl, mthd, desc, nddr = 0L, type) { - - if (length(mthd) != length(desc)) { - stop("length of mthd must equal length of desc.") - } - - if (length(lvl) > 1) stop("'lvl' must be an integer of length 1.") - if (!type %in% c("mc", "sc")) stop("Invalid 'type' value.") - if (type == "mc" & !lvl %in% c(2, 3, 5, 6)) stop("Invalid 'lvl' value.") - if (type == "sc" & !lvl %in% 1:2) stop("Invalid 'lvl' value.") - - mb <- paste(Sys.info()[c("login", "user", "effective_user")], collapse = ".") - - dat <- data.table(modified_by = rep(mb, length(mthd))) - dat[ , - c(paste0(type, lvl, "_mthd"), "desc") := list(mthd, desc), - with = FALSE] - - if (lvl == 6L) dat[ , "nddr" := nddr, with = FALSE] - - tcplAppend(dat = dat, - tbl = paste0(type, lvl, "_methods"), - db = getOption("TCPL_DB")) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# registerMthd: Add new analysis method +#------------------------------------------------------------------------------- + +#' @title Add a new analysis method +#' +#' @description +#' \code{registerMthd} registers a new analysis method to the tcpl +#' databases. +#' +#' @param lvl Integer of length 1, the level for the analysis method +#' @param mthd Character, the name of the method +#' @param desc Character, same length as mthd, the method description +#' @param nddr Integer, 0 or 1, 1 if the method requires loading the dose- +#' response data +#' @param type Character of length 1, the data type, "sc" or "mc" +#' +#' @details +#' 'mthd' must match a corresponding function name in the functions that load +#' the methods, ie. \code{mc2_mthds}. 'nddr' only applies to level 6 +#' methods. +#' +#' @import data.table + +registerMthd <- function(lvl, mthd, desc, nddr = 0L, type) { + + if (length(mthd) != length(desc)) { + stop("length of mthd must equal length of desc.") + } + + if (length(lvl) > 1) stop("'lvl' must be an integer of length 1.") + if (!type %in% c("mc", "sc")) stop("Invalid 'type' value.") + if (type == "mc" & !lvl %in% c(2, 3, 5, 6)) stop("Invalid 'lvl' value.") + if (type == "sc" & !lvl %in% 1:2) stop("Invalid 'lvl' value.") + + mb <- paste(Sys.info()[c("login", "user", "effective_user")], collapse = ".") + + dat <- data.table(modified_by = rep(mb, length(mthd))) + dat[ , (c(paste0(type, lvl, "_mthd"), "desc")) := list(mthd, desc)] + + if (lvl == 6L) dat[ , ("nddr") := nddr] + + tcplAppend(dat = dat, + tbl = paste0(type, lvl, "_methods"), + db = getOption("TCPL_DB")) + +} + +#------------------------------------------------------------------------------- diff --git a/R/rgstr_funcs.R b/R/rgstr_funcs.R index 5194925..6597995 100644 --- a/R/rgstr_funcs.R +++ b/R/rgstr_funcs.R @@ -1,73 +1,75 @@ -#' @name Register/update annotation -#' @rdname rgstr_funcs -#' @title Functions for registering & updating annotation information -#' -#' @description -#' These functions are used to register and update the chemical and assay -#' annotation information. -#' -#' @param what Character of length 1, the name of the ID to register or update -#' @param flds Named list, the other fields and their values -#' @param id Integer, the ID value(s) to update -#' -#' -#' @details -#' These functions are used to populate the tcpl database with the necessary -#' annotation information to complete the processing. As shown in the package -#' vignette, the package requires some information about the samples and assays -#' before data can be loaded into the tcpl database. -#' -#' Depending on what is being registered, different information is required. -#' The following table lists the fields that can be registered/updated by these -#' functions, and the minimal fields required for registering a new ID. (The -#' database table affected is in parentheses.) -#' -#' \itemize{ -#' \item asid (assay_source): assay_source_name -#' \item aid (assay): asid, assay_name, assay_footprint -#' \item acid (assay_component): aid, assay_component_name -#' \item aeid (assay_component_endpoint): acid, assay_component_endpoint_name, -#' normalized_data_type -#' \item acsn (assay_component_map): acid, acsn -#' \item spid (sample): spid, chid -#' \item chid (chemical): chid, casn -#' \item clib (chemical_library): chid, clib -#' } -#' -#' Note: The functions accept the abbreviated forms of the names, ie. "aenm" -#' rather than the full "assay_component_endpoint_name." More information about -#' the registration process and all of the fields is available in the vignette. -#' -#' @examples -#' -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## Load current ASID information -#' tcplLoadAsid() -#' -#' ## Register a new assay source -#' tcplRegister(what = "asid", flds = list(asnm = "example_asid")) -#' -#' ## Show the newly registered ASID -#' tcplLoadAsid(add.fld = "assay_source_desc") -#' -#' ## Notice that the newly created ASID does not have an assay_source_desc. -#' ## The field could have been defined during the registration process, but -#' ## can also be updated using tcplUpdate -#' i1 <- tcplLoadAsid()[asnm == "example_asid", asid] -#' tcplUpdate(what = "asid", -#' id = i1, -#' flds = list(assay_source_desc = "example asid description")) -#' tcplLoadAsid(add.fld = "assay_source_desc") -#' -#' ## Remove the created ASID. Note: Manually deleting primary keys can cause -#' ## serious database problems and should not generally be done. -#' tcplSendQuery(paste0("DELETE FROM assay_source WHERE asid = ", i1, ";")) -#' -#' ## Reset configuration -#' options(conf_store) -#' +#' @name Register/update annotation +#' @rdname rgstr_funcs +#' @title Functions for registering & updating annotation information +#' +#' @description +#' These functions are used to register and update the chemical and assay +#' annotation information. +#' +#' @param what Character of length 1, the name of the ID to register or update +#' @param flds Named list, the other fields and their values +#' @param id Integer, the ID value(s) to update +#' +#' +#' @details +#' These functions are used to populate the tcpl database with the necessary +#' annotation information to complete the processing. As shown in the package +#' vignette, the package requires some information about the samples and assays +#' before data can be loaded into the tcpl database. +#' +#' Depending on what is being registered, different information is required. +#' The following table lists the fields that can be registered/updated by these +#' functions, and the minimal fields required for registering a new ID. (The +#' database table affected is in parentheses.) +#' +#' \itemize{ +#' \item asid (assay_source): assay_source_name +#' \item aid (assay): asid, assay_name, assay_footprint +#' \item acid (assay_component): aid, assay_component_name +#' \item aeid (assay_component_endpoint): acid, assay_component_endpoint_name, +#' normalized_data_type +#' \item acsn (assay_component_map): acid, acsn +#' \item spid (sample): spid, chid +#' \item chid (chemical): chid, casn +#' \item clib (chemical_library): chid, clib +#' } +#' +#' Note: The functions accept the abbreviated forms of the names, ie. "aenm" +#' rather than the full "assay_component_endpoint_name." More information about +#' the registration process and all of the fields is available in the vignette. +#' +#' @examples +#' +#' \dontrun{ +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## Load current ASID information +#' tcplLoadAsid() +#' +#' ## Register a new assay source +#' tcplRegister(what = "asid", flds = list(asnm = "example_asid")) +#' +#' ## Show the newly registered ASID +#' tcplLoadAsid(add.fld = "assay_source_desc") +#' +#' ## Notice that the newly created ASID does not have an assay_source_desc. +#' ## The field could have been defined during the registration process, but +#' ## can also be updated using tcplUpdate +#' i1 <- tcplLoadAsid()[asnm == "example_asid", asid] +#' tcplUpdate(what = "asid", +#' id = i1, +#' flds = list(assay_source_desc = "example asid description")) +#' tcplLoadAsid(add.fld = "assay_source_desc") +#' +#' ## Remove the created ASID. Note: Manually deleting primary keys can cause +#' ## serious database problems and should not generally be done. +#' tcplSendQuery(paste0("DELETE FROM assay_source WHERE asid = ", i1, ";")) +#' +#' ## Reset configuration +#' options(conf_store) +#' } +#' NULL \ No newline at end of file diff --git a/R/sc1.R b/R/sc1.R index f006d2d..a905284 100644 --- a/R/sc1.R +++ b/R/sc1.R @@ -1,164 +1,164 @@ -#------------------------------------------------------------------------------- -# sc1: Perform level 1 single-concentration processing -#------------------------------------------------------------------------------- - -#' @template proclvl -#' @templateVar LVL 1 -#' @templateVar type sc -#' -#' @param ac Integer of length 1, assay component id (acid) for processing. -#' @param wr Logical, whether the processed data should be written to the tcpl -#' database -#' -#' @details -#' Level 1 single-concentration processing includes mapping assay component -#' to assay endpoint, duplicating the data when the assay component has -#' multiple assay endpoints, and any normalization of the data. Data -#' normalization based on methods listed in sc1_aeid and sc1_methods tables. -#' -#' @seealso \code{\link{Method functions}}, \code{\link{SC1_Methods}} -#' -#' @import data.table - -sc1 <- function(ac, wr = FALSE) { - - ## Variable binding to pass R CMD Check - wllq <- conc <- logc <- acid <- aeid <- mthd <- ordr <- nassays <- NULL - mthd <- aeid <- pval <- bval <- resp <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - ## Check the ac input - if (length(ac) > 1) { - warning("ac must be of length 1. Level 1 processing incomplete; no ", - "updates\n made to the sc1 table for ACIDS ", - paste(ac, collapse = ", "), ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - stime <- Sys.time() - - ## Load level 0 data - dat <- tcplLoadData(lvl = 0L, type = "sc", fld = "acid", val = ac) - - ## Check if any level 0 data was loaded - if (nrow(dat) == 0) { - warning("No level 0 data for ACID", ac, ". Level 1 processing incomplete;", - " no updates\n made to the sc1 table for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Loaded L0 ACID", ac, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") - - stime <- Sys.time() - - ## Remove data with well quality of 0 - dat <- dat[wllq == 1] - - ## Force all concentrations to 1 significant figure - dat[ , conc := signif(conc, 1)] - - ## Add column for log10 concentration - dat[ , logc := log10(conc)] - - ## Load aeid mapping information. - aeid_info <- tcplLoadAeid("acid", ac)[ , list(acid, aeid)] - setkey(aeid_info, acid) - - ## Check for acids for aeids - if (nrow(aeid_info) == 0) { - warning("No assay endpoint listed for ACID", ac, ". Level 1 processing ", - "incomplete; no\n updates made to the sc1 table for ACID", - ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ## Merge dat with aeid_info to duplicate data for every aeid - setkey(dat, acid) - dat <- aeid_info[dat, allow.cartesian = TRUE] - setkey(dat, aeid) - - ## Load normalization methods - ms <- tcplMthdLoad(lvl = 1L, id = dat[ , unique(aeid)], type = "sc") - ms <- ms[ , list(aeid, mthd, ordr)] - - ## Check for aeids for methods - if (!all(dat[ , unique(aeid)] %in% ms[ , aeid])) { - miss_aeid <- dat[ , unique(aeid)[!unique(aeid) %in% ms[ , aeid]]] - warning("AEIDS(S) ", paste(miss_aeid, collapse = ", "), " (mapped to ACID", - ac, ") do not have aeid\n methods listed in the sc1_aeid table. ", - "Level 1 processing incomplete; no updates\n made to the sc1 ", - "table for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ## Load the functions to generate normalization expressions - mthd_funcs <- sc1_mthds() - - ## Reshape ms - ms <- setkey(ms, ordr) - ms <- ms[ , lapply(.SD, list), by = list(mthd, ordr)] - ms[ , nassays := unlist(lapply(aeid, length))] - - ## Initialize the bval, pval, and resp columns - dat[ , c('bval', 'pval', 'resp') := NA_real_] - - ## Apply the normalization methods - exprs <- lapply(1:nrow(ms), - function(x) { - do.call(mthd_funcs[[ms[x, mthd]]], - list(aeids = ms[ , aeid][[x]])) - }) - fenv <- environment() - invisible(rapply(exprs, eval, envir = fenv)) - - ## Check for infinite pval or bval values - if (dat[ , lw(is.infinite(pval))] > 0 | dat[ , lw(is.infinite(bval))] > 0) { - in_aeid <- dat[is.infinite(pval) | is.infinite(bval), unique(aeid)] - warning("AEID(S) ", paste(in_aeid, collapse = ", "), " (mapped to ACID", - ac, ") contain infinite values in the bval or pval column. Level ", - "3 processing incomplete; no updates\n made to the mc3 table ", - "for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ## Check for NA response values - if (dat[ , lw(is.na(resp))] > 0) { - na_aeid <- dat[lw(is.na(resp)) > 0, unique(aeid)] - warning("AEID(S) ", paste(na_aeid, collapse = ", "), " (mapped to ACID", - ac, ") contain NA in the response column. Level 1 processing ", - "incomplete; no updates\n made to the sc1 table for ACID", ac, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Processed L1 ACID", ac, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - - res <- TRUE - - outcols <- c("s0id", "acid", "aeid", "logc", "bval", "pval", "resp") - dat <- dat[ , .SD, .SDcols = outcols] - - ## Load into sc1 table -- else return results - if (wr) { - stime <- Sys.time() - tcplWriteData(dat = dat, lvl = 1L, type = "sc") - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Wrote L1 ACID", ac, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - } else { - res <- c(res, list(dat)) - } - - return(res) - -} -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# sc1: Perform level 1 single-concentration processing +#------------------------------------------------------------------------------- + +#' @template proclvl +#' @templateVar LVL 1 +#' @templateVar type sc +#' +#' @param ac Integer of length 1, assay component id (acid) for processing. +#' @param wr Logical, whether the processed data should be written to the tcpl +#' database +#' +#' @details +#' Level 1 single-concentration processing includes mapping assay component +#' to assay endpoint, duplicating the data when the assay component has +#' multiple assay endpoints, and any normalization of the data. Data +#' normalization based on methods listed in sc1_aeid and sc1_methods tables. +#' +#' @seealso \code{\link{Method functions}}, \code{\link{SC1_Methods}} +#' +#' @import data.table + +sc1 <- function(ac, wr = FALSE) { + + ## Variable binding to pass R CMD Check + wllq <- conc <- logc <- acid <- aeid <- mthd <- ordr <- nassays <- NULL + mthd <- aeid <- pval <- bval <- resp <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + ## Check the ac input + if (length(ac) > 1) { + warning("ac must be of length 1. Level 1 processing incomplete; no ", + "updates\n made to the sc1 table for ACIDS ", + paste(ac, collapse = ", "), ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + stime <- Sys.time() + + ## Load level 0 data + dat <- tcplLoadData(lvl = 0L, type = "sc", fld = "acid", val = ac) + + ## Check if any level 0 data was loaded + if (nrow(dat) == 0) { + warning("No level 0 data for ACID", ac, ". Level 1 processing incomplete;", + " no updates\n made to the sc1 table for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Loaded L0 ACID", ac, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") + + stime <- Sys.time() + + ## Remove data with well quality of 0 + dat <- dat[wllq == 1] + + ## Force all concentrations to 1 significant figure + dat[ , conc := signif(conc, 1)] + + ## Add column for log10 concentration + dat[ , logc := log10(conc)] + + ## Load aeid mapping information. + aeid_info <- tcplLoadAeid("acid", ac)[ , list(acid, aeid)] + setkey(aeid_info, acid) + + ## Check for acids for aeids + if (nrow(aeid_info) == 0) { + warning("No assay endpoint listed for ACID", ac, ". Level 1 processing ", + "incomplete; no\n updates made to the sc1 table for ACID", + ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ## Merge dat with aeid_info to duplicate data for every aeid + setkey(dat, acid) + dat <- aeid_info[dat, allow.cartesian = TRUE] + setkey(dat, aeid) + + ## Load normalization methods + ms <- tcplMthdLoad(lvl = 1L, id = dat[ , unique(aeid)], type = "sc") + ms <- ms[ , list(aeid, mthd, ordr)] + + ## Check for aeids for methods + if (!all(dat[ , unique(aeid)] %in% ms[ , aeid])) { + miss_aeid <- dat[ , unique(aeid)[!unique(aeid) %in% ms[ , aeid]]] + warning("AEIDS(S) ", paste(miss_aeid, collapse = ", "), " (mapped to ACID", + ac, ") do not have aeid\n methods listed in the sc1_aeid table. ", + "Level 1 processing incomplete; no updates\n made to the sc1 ", + "table for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ## Load the functions to generate normalization expressions + mthd_funcs <- sc1_mthds() + + ## Reshape ms + ms <- setkey(ms, ordr) + ms <- ms[ , lapply(.SD, list), by = list(mthd, ordr)] + ms[ , nassays := unlist(lapply(aeid, length))] + + ## Initialize the bval, pval, and resp columns + dat[ , c('bval', 'pval', 'resp') := NA_real_] + + ## Apply the normalization methods + exprs <- lapply(1:nrow(ms), + function(x) { + do.call(mthd_funcs[[ms[x, mthd]]], + list(aeids = ms[ , aeid][[x]])) + }) + fenv <- environment() + invisible(rapply(exprs, eval, envir = fenv)) + + ## Check for infinite pval or bval values + if (dat[ , lw(is.infinite(pval))] > 0 | dat[ , lw(is.infinite(bval))] > 0) { + in_aeid <- dat[is.infinite(pval) | is.infinite(bval), unique(aeid)] + warning("AEID(S) ", paste(in_aeid, collapse = ", "), " (mapped to ACID", + ac, ") contain infinite values in the bval or pval column. Level ", + "3 processing incomplete; no updates\n made to the mc3 table ", + "for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ## Check for NA response values + if (dat[ , lw(is.na(resp))] > 0) { + na_aeid <- dat[lw(is.na(resp)) > 0, unique(aeid)] + warning("AEID(S) ", paste(na_aeid, collapse = ", "), " (mapped to ACID", + ac, ") contain NA in the response column. Level 1 processing ", + "incomplete; no updates\n made to the sc1 table for ACID", ac, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Processed L1 ACID", ac, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + + res <- TRUE + + outcols <- c("s0id", "acid", "aeid", "logc", "bval", "pval", "resp") + dat <- dat[ , .SD, .SDcols = outcols] + + ## Load into sc1 table -- else return results + if (wr) { + stime <- Sys.time() + tcplWriteData(dat = dat, lvl = 1L, type = "sc") + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Wrote L1 ACID", ac, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + } else { + res <- c(res, list(dat)) + } + + return(res) + +} +#------------------------------------------------------------------------------- diff --git a/R/sc1_mthds.R b/R/sc1_mthds.R index 3076ae3..d035dee 100644 --- a/R/sc1_mthds.R +++ b/R/sc1_mthds.R @@ -1,249 +1,249 @@ -#------------------------------------------------------------------------------- -# sc1_mthds: Load list of sc1 method functions -#------------------------------------------------------------------------------- - -#' @name SC1_Methods -#' @title List of level 1 single-concentration normalization functions -#' -#' @description -#' \code{sc1_mthds} returns a list of functions to be used during level 1 -#' single-concentration processing. -#' -#' @return A list functions -#' -#' @seealso \code{\link{sc1}}, \code{\link{Method functions}} to query what -#' methods get applied to each acid -#' -#' @details -#' The functions contained in the list returned by \code{sc1_mthds} return -#' a list of expressions to be executed in the \code{sc2} (not exported) -#' function environment. The functions are described here for reference -#' purposes, The \code{sc1_mthds} function is not exported, nor is it -#' intended for use. -#' -#' All available methods are described in the Available Methods section, listed -#' by the function/method name. -#' -#' @section Available Methods: -#' -#' The methods are broken into three types, based on what fields they define. -#' Different methods are used to define "bval" (the baseline value), "pval" -#' (the positive control value), and "resp" (the final response value). -#' -#' Although it does not say so specifically in each description, all methods -#' are applied by acid. -#' -#' More information about the level 3 single-concentration processing is -#' available in the package vignette, "Pipeline_Overview." -#' -#' \subsection{bval Methods}{ -#' \describe{ -#' \item{bval.apid.nwlls.med}{Calculate bval as the median of rval for -#' wells with wllt equal to "n," by apid.} -#' \item{bval.apid.twlls.med}{Calculate bval as the median of rval for -#' wells with wllt equal to "t," by apid.} -#' \item{bval.apid.tn.med}{Calculate bval as the median of rval for wells -#' with wllt equal to "t" or "n," by apid.} -#' } -#' } -#' -#' \subsection{pval Methods}{ -#' \describe{ -#' \item{pval.apid.pwlls.med}{Calculate pval as the median of rval for -#' wells with wllt equal to "p," by apid.} -#' \item{pval.apid.mwlls.med}{Calculate pval as the median of rval for -#' wells with wllt equal to "m," by apid.} -#' \item{pval.apid.medpcbyconc.max}{First calculate the median of rval for -#' wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then -#' calculate pval as the maximum of the calculated medians, by apid.} -#' \item{pval.apid.medpcbyconc.min}{First calculate the median of rval for -#' wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then -#' calculate pval as the minimum of the calculated medians, by apid.} -#' \item{pval.apid.medncbyconc.min}{First calculate the median of rval for -#' wells with wllt equal to "m" or "o," by wllt, conc, and apid. Then -#' calculate pval as the minimum of the calculated medians, by apid.} -#' \item{pval.zero}{Define pval as 0.} -#' } -#' } -#' -#' \subsection{resp Methods}{ -#' \describe{ -#' \item{resp.pc}{Calculate resp as \eqn{\frac{\mathit{rval} - -#' \mathit{bval}}{\mathit{pval} - \mathit{bval}}100}{(rval - bval)/(pval -#' - bval)*100}.} -#' \item{resp.fc}{Calculate resp as \eqn{\mathit{rval}/\mathit{bval}}{ -#' rval/bval}.} -#' \item{resp.logfc}{Calculate resp as \eqn{\mathit{rval} - \mathit{bval}}{ -#' rval - bval}.} -#' \item{resp.log2}{Take the logarithm of resp with base 2.} -#' \item{resp.multneg1}{Multiply resp by -1.} -#' \item{none}{Do no normalization; make resp equal to rval.} -#' } -#' } -#' -#' @note -#' This function is not exported and is not intended to be used by the user. - - -sc1_mthds <- function() { - - list( - - bval.apid.nwlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(rval[wllt == "n"], na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - bval.apid.twlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(rval[wllt == "t"], na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - bval.apid.tn.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - bval := median(rval[wllt %in% c("t", "n")], - na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - pval.apid.pwlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - pval := median(rval[wllt == "p"], na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - pval.apid.or.aeid.pwlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - pval := median(rval[wllt == "p"], na.rm = TRUE), - by = list(aeid, apid)]) - e2 <- bquote(dat[J(.(aeids)), - temp := median(pval, - na.rm = TRUE), - by = list(aeid)]) - e3 <- bquote(dat[aeid %in% .(aeids) & (is.na(pval) | is.infinite(pval)), - pval := temp, - by = list(aeid)]) - e4 <- bquote(dat[ , temp := NULL]) - list(e1,e2,e3,e4) - - }, - - pval.apid.mwlls.med = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - pval := median(rval[wllt == "m"], na.rm = TRUE), - by = list(aeid, apid)]) - list(e1) - - }, - - pval.apid.medpcbyconc.max = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(rval[wllt %in% c("c", "p")], - na.rm = TRUE), - by = list(aeid, apid, wllt, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := max(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.medpcbyconc.min = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(rval[wllt %in% c("c", "p")], - na.rm = TRUE), - by = list(aeid, apid, wllt, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := min(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.apid.medncbyconc.min = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), - temp := median(rval[wllt %in% c("m","o")], - na.rm = TRUE), - by = list(aeid, apid, wllt, conc)]) - e2 <- bquote(dat[J(.(aeids)), - pval := min(temp, na.rm = TRUE), - by = list(aeid, apid)]) - e3 <- bquote(dat[ , temp := NULL]) - list(e1, e2, e3) - - }, - - pval.zero = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), pval := 0]) - list(e1) - - }, - - resp.pc = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := (rval - bval)/(pval - bval)*100]) - list(e1) - - }, - - resp.fc = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := rval/bval]) - list(e1) - - }, - - resp.logfc = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := rval - bval]) - list(e1) - - }, - - resp.log2 = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := log2(resp)]) - list(e1) - - }, - - none = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := rval]) - list(e1) - - }, - - resp.multneg1 = function(aeids) { - - e1 <- bquote(dat[J(.(aeids)), resp := resp * -1]) - list(e1) - - } - - ) -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# sc1_mthds: Load list of sc1 method functions +#------------------------------------------------------------------------------- + +#' @name SC1_Methods +#' @title List of level 1 single-concentration normalization functions +#' +#' @description +#' \code{sc1_mthds} returns a list of functions to be used during level 1 +#' single-concentration processing. +#' +#' @return A list functions +#' +#' @seealso \code{\link{sc1}}, \code{\link{Method functions}} to query what +#' methods get applied to each acid +#' +#' @details +#' The functions contained in the list returned by \code{sc1_mthds} return +#' a list of expressions to be executed in the \code{sc2} (not exported) +#' function environment. The functions are described here for reference +#' purposes, The \code{sc1_mthds} function is not exported, nor is it +#' intended for use. +#' +#' All available methods are described in the Available Methods section, listed +#' by the function/method name. +#' +#' @section Available Methods: +#' +#' The methods are broken into three types, based on what fields they define. +#' Different methods are used to define "bval" (the baseline value), "pval" +#' (the positive control value), and "resp" (the final response value). +#' +#' Although it does not say so specifically in each description, all methods +#' are applied by acid. +#' +#' More information about the level 3 single-concentration processing is +#' available in the package vignette, "Pipeline_Overview." +#' +#' \subsection{bval Methods}{ +#' \describe{ +#' \item{bval.apid.nwlls.med}{Calculate bval as the median of rval for +#' wells with wllt equal to "n," by apid.} +#' \item{bval.apid.twlls.med}{Calculate bval as the median of rval for +#' wells with wllt equal to "t," by apid.} +#' \item{bval.apid.tn.med}{Calculate bval as the median of rval for wells +#' with wllt equal to "t" or "n," by apid.} +#' } +#' } +#' +#' \subsection{pval Methods}{ +#' \describe{ +#' \item{pval.apid.pwlls.med}{Calculate pval as the median of rval for +#' wells with wllt equal to "p," by apid.} +#' \item{pval.apid.mwlls.med}{Calculate pval as the median of rval for +#' wells with wllt equal to "m," by apid.} +#' \item{pval.apid.medpcbyconc.max}{First calculate the median of rval for +#' wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then +#' calculate pval as the maximum of the calculated medians, by apid.} +#' \item{pval.apid.medpcbyconc.min}{First calculate the median of rval for +#' wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then +#' calculate pval as the minimum of the calculated medians, by apid.} +#' \item{pval.apid.medncbyconc.min}{First calculate the median of rval for +#' wells with wllt equal to "m" or "o," by wllt, conc, and apid. Then +#' calculate pval as the minimum of the calculated medians, by apid.} +#' \item{pval.zero}{Define pval as 0.} +#' } +#' } +#' +#' \subsection{resp Methods}{ +#' \describe{ +#' \item{resp.pc}{Calculate resp as \eqn{\frac{\mathit{rval} - +#' \mathit{bval}}{\mathit{pval} - \mathit{bval}}100}{(rval - bval)/(pval +#' - bval)*100}.} +#' \item{resp.fc}{Calculate resp as \eqn{\mathit{rval}/\mathit{bval}}{ +#' rval/bval}.} +#' \item{resp.logfc}{Calculate resp as \eqn{\mathit{rval} - \mathit{bval}}{ +#' rval - bval}.} +#' \item{resp.log2}{Take the logarithm of resp with base 2.} +#' \item{resp.multneg1}{Multiply resp by -1.} +#' \item{none}{Do no normalization; make resp equal to rval.} +#' } +#' } +#' +#' @note +#' This function is not exported and is not intended to be used by the user. + + +sc1_mthds <- function() { + + list( + + bval.apid.nwlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(rval[wllt == "n"], na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + bval.apid.twlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(rval[wllt == "t"], na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + bval.apid.tn.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + bval := median(rval[wllt %in% c("t", "n")], + na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + pval.apid.pwlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + pval := median(rval[wllt == "p"], na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + pval.apid.or.aeid.pwlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + pval := median(rval[wllt == "p"], na.rm = TRUE), + by = list(aeid, apid)]) + e2 <- bquote(dat[J(.(aeids)), + temp := median(pval, + na.rm = TRUE), + by = list(aeid)]) + e3 <- bquote(dat[aeid %in% .(aeids) & (is.na(pval) | is.infinite(pval)), + pval := temp, + by = list(aeid)]) + e4 <- bquote(dat[ , temp := NULL]) + list(e1,e2,e3,e4) + + }, + + pval.apid.mwlls.med = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + pval := median(rval[wllt == "m"], na.rm = TRUE), + by = list(aeid, apid)]) + list(e1) + + }, + + pval.apid.medpcbyconc.max = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(rval[wllt %in% c("c", "p")], + na.rm = TRUE), + by = list(aeid, apid, wllt, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := max(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.medpcbyconc.min = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(rval[wllt %in% c("c", "p")], + na.rm = TRUE), + by = list(aeid, apid, wllt, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := min(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.apid.medncbyconc.min = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), + temp := median(rval[wllt %in% c("m","o")], + na.rm = TRUE), + by = list(aeid, apid, wllt, conc)]) + e2 <- bquote(dat[J(.(aeids)), + pval := min(temp, na.rm = TRUE), + by = list(aeid, apid)]) + e3 <- bquote(dat[ , temp := NULL]) + list(e1, e2, e3) + + }, + + pval.zero = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), pval := 0]) + list(e1) + + }, + + resp.pc = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := (rval - bval)/(pval - bval)*100]) + list(e1) + + }, + + resp.fc = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := rval/bval]) + list(e1) + + }, + + resp.logfc = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := rval - bval]) + list(e1) + + }, + + resp.log2 = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := log2(resp)]) + list(e1) + + }, + + none = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := rval]) + list(e1) + + }, + + resp.multneg1 = function(aeids) { + + e1 <- bquote(dat[J(.(aeids)), resp := resp * -1]) + list(e1) + + } + + ) +} + +#------------------------------------------------------------------------------- diff --git a/R/sc2.R b/R/sc2.R index aa45192..4122dba 100644 --- a/R/sc2.R +++ b/R/sc2.R @@ -1,115 +1,115 @@ -#------------------------------------------------------------------------------- -# sc2: Perform level 2 single-concentration processing -#------------------------------------------------------------------------------- - -#' @template proclvl -#' @templateVar LVL 2 -#' @templateVar type sc -#' -#' @param ae Integer of length 1, assay endpoint id (aeid) for processing. -#' @param wr Logical, whether the processed data should be written to the tcpl -#' database -#' -#' @details -#' Level 2 single-concentration processing defines the bmad value, and uses the -#' activity cutoff methods from sc2_aeid and sc2_methods to make an activity -#' call. -#' -#' @seealso \code{\link{Method functions}}, \code{\link{SC2_Methods}} -#' -#' @import data.table -#' @importFrom stats mad median - -sc2 <- function(ae, wr = FALSE) { - - ## Variable-binding to pass R CMD Check - bmad <- resp <- wllt <- tmp <- spid <- logc <- hitc <- max_med <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - ## Check the ae input - if (length(ae) > 1) { - warning("ae must be of length 1. Level 2 processing incomplete; no ", - "updates\n made to the sc2 table for AEIDS ", - paste(ae, collapse = ", "), ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - stime <- Sys.time() - - ## Load level 1 data - dat <- tcplLoadData(lvl = 1L, type = "sc", fld = "aeid", val = ae) - - ## Check if any level 1 data was loaded - if (nrow(dat) == 0) { - warning("No level 1 data for AEID", ae, ". Level 2 processing incomplete;", - " no updates\n made to the sc2 table for AEID", ae, ".") - if(wr) return(FALSE) else return(list(FALSE, NULL)) - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Loaded L1 AEID", ae, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") - - stime <- Sys.time() - - ## Calculate bmad - dat[ , bmad := mad(resp[wllt == "t"])] - - ## Collapse by spid - dat[ , tmp := median(resp), by = list(spid, wllt, logc)] - dat[ , c("tmpi", "max_med") := list(.GRP, max(tmp)), by = spid] - - ## Initialize coff vector - coff <- 0 - - ## Load cutoff functions - mthd_funcs <- sc2_mthds() - - ## Load cutoff methods - ms <- tcplMthdLoad(lvl = 2L, id = ae, type = "sc") - if (nrow(ms) == 0) { - warning("No level 5 methods for AEID", ae, " -- cutoff will be 0.") - } - - ## Apply cutoff methods - exprs <- lapply(mthd_funcs[ms$mthd], do.call, args = list()) - fenv <- environment() - invisible(rapply(exprs, eval, envir = fenv)) - - ## Determine final cutoff - dat[ , coff := max(coff)] - - ## Determine hit-call - dat[ , hitc := as.integer(max_med >= coff)] - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Processed L2 AEID", ae, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - - res <- TRUE - - outcols <- c("s0id", "s1id", "spid", "aeid", "max_med", - "bmad", "coff", "hitc", "tmpi") - dat <- dat[ , .SD, .SDcols = outcols] - - ## Load into sc2 table -- else return results - if (wr) { - stime <- Sys.time() - tcplWriteData(dat = dat, lvl = 2L, type = "sc") - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Wrote L2 AEID", ae, " (", nrow(dat), - " rows; ", ttime, ")\n", sep = "") - } else { - res <- c(res, list(dat)) - } - - return(res) - -} -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# sc2: Perform level 2 single-concentration processing +#------------------------------------------------------------------------------- + +#' @template proclvl +#' @templateVar LVL 2 +#' @templateVar type sc +#' +#' @param ae Integer of length 1, assay endpoint id (aeid) for processing. +#' @param wr Logical, whether the processed data should be written to the tcpl +#' database +#' +#' @details +#' Level 2 single-concentration processing defines the bmad value, and uses the +#' activity cutoff methods from sc2_aeid and sc2_methods to make an activity +#' call. +#' +#' @seealso \code{\link{Method functions}}, \code{\link{SC2_Methods}} +#' +#' @import data.table +#' @importFrom stats mad median + +sc2 <- function(ae, wr = FALSE) { + + ## Variable-binding to pass R CMD Check + bmad <- resp <- wllt <- tmp <- spid <- logc <- hitc <- max_med <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + ## Check the ae input + if (length(ae) > 1) { + warning("ae must be of length 1. Level 2 processing incomplete; no ", + "updates\n made to the sc2 table for AEIDS ", + paste(ae, collapse = ", "), ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + stime <- Sys.time() + + ## Load level 1 data + dat <- tcplLoadData(lvl = 1L, type = "sc", fld = "aeid", val = ae) + + ## Check if any level 1 data was loaded + if (nrow(dat) == 0) { + warning("No level 1 data for AEID", ae, ". Level 2 processing incomplete;", + " no updates\n made to the sc2 table for AEID", ae, ".") + if(wr) return(FALSE) else return(list(FALSE, NULL)) + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Loaded L1 AEID", ae, " (", nrow(dat), " rows; ", ttime,")\n", sep = "") + + stime <- Sys.time() + + ## Calculate bmad + dat[ , bmad := mad(resp[wllt == "t"])] + + ## Collapse by spid + dat[ , tmp := median(resp), by = list(spid, wllt, logc)] + dat[ , c("tmpi", "max_med") := list(.GRP, max(tmp)), by = spid] + + ## Initialize coff vector + coff <- 0 + + ## Load cutoff functions + mthd_funcs <- sc2_mthds() + + ## Load cutoff methods + ms <- tcplMthdLoad(lvl = 2L, id = ae, type = "sc") + if (nrow(ms) == 0) { + warning("No level 5 methods for AEID", ae, " -- cutoff will be 0.") + } + + ## Apply cutoff methods + exprs <- lapply(mthd_funcs[ms$mthd], do.call, args = list()) + fenv <- environment() + invisible(rapply(exprs, eval, envir = fenv)) + + ## Determine final cutoff + dat[ , coff := max(coff)] + + ## Determine hit-call + dat[ , hitc := as.integer(max_med >= coff)] + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Processed L2 AEID", ae, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + + res <- TRUE + + outcols <- c("s0id", "s1id", "spid", "aeid", "max_med", + "bmad", "coff", "hitc", "tmpi") + dat <- dat[ , .SD, .SDcols = outcols] + + ## Load into sc2 table -- else return results + if (wr) { + stime <- Sys.time() + tcplWriteData(dat = dat, lvl = 2L, type = "sc") + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Wrote L2 AEID", ae, " (", nrow(dat), + " rows; ", ttime, ")\n", sep = "") + } else { + res <- c(res, list(dat)) + } + + return(res) + +} +#------------------------------------------------------------------------------- diff --git a/R/sc2_mthds.R b/R/sc2_mthds.R index fa342a3..001b74e 100644 --- a/R/sc2_mthds.R +++ b/R/sc2_mthds.R @@ -1,125 +1,125 @@ -#------------------------------------------------------------------------------- -# sc2_mthds: Load list of sc2 method functions -#------------------------------------------------------------------------------- - -#' @name SC2_Methods -#' @title List of level 2 single-concentration hit-call functions -#' -#' @description -#' \code{sc2_mthds} returns a list of functions to be used during level 2 -#' single-concentration processing. -#' -#' @return A list functions -#' -#' @seealso \code{\link{sc2}}, \code{\link{Method functions}} to query what -#' methods get applied to each acid -#' -#' @details -#' The functions contained in the list returned by \code{sc2_mthds} return -#' a list of expressions to be executed in the \code{sc2} (not exported) -#' function environment. The functions are described here for reference -#' purposes, The \code{sc2_mthds} function is not exported, nor is it -#' intended for use. -#' -#' All available methods are described in the Available Methods section, listed -#' by the function/method name. -#' -#' @section Available Methods: -#' -#' More information about the level 2 single-concentration processing is -#' available in the package vignette, "Pipeline_Overview." -#' -#' \describe{ -#' \item{bmad3}{Add a cutoff value of 3*bmad.} -#' \item{pc20}{Add a cutoff value of 20.} -#' \item{log2_1.2}{Add a cutoff value of log2(1.2).} -#' \item{log10_1.2}{Add a cutoff value of log10(1.2).} -#' \item{bmad5}{Add a cutoff value of 5*bmad.} -#' \item{bmad6}{Add a cutoff value of 6*bmad.} -#' \item{bmad10}{Add a cutoff value of 10*bmad.} -#' \item{pc30orbmad3}{Add a cutoff value of either 30 or 3*bmad, whichever -#' is less.} -#' } -#' -#' @note -#' This function is not exported and is not intended to be used by the user. - - -sc2_mthds <- function() { - - list( - - bmad3 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*3])) - list(e1) - - }, - - pc20 = function() { - - e1 <- bquote(coff <- c(coff, 20)) - list(e1) - - }, - - log2_1.2 = function() { - - e1 <- bquote(coff <- c(coff, log2(1.2))) - list(e1) - - }, - - log10_1.2 = function() { - - e1 <- bquote(coff <- c(coff, log10(1.2))) - list(e1) - - }, - - bmad5 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*5])) - list(e1) - - }, - - bmad6 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*6])) - list(e1) - - }, - - bmad10 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*10])) - list(e1) - - }, - - pc30orbmad3 = function() { - - e1 <- bquote(coff <- c(coff, dat[ , min(30, unique(bmad)*3)])) - list(e1) - - }, - - pc0.88 = function() { - - e1 <- bquote(coff <- c(coff, 20)) - list(e1) - - }, - - log2_1.5 = function() { - - e1 <- bquote(coff <- c(coff, log2(1.5))) - list(e1) - - } - - ) -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# sc2_mthds: Load list of sc2 method functions +#------------------------------------------------------------------------------- + +#' @name SC2_Methods +#' @title List of level 2 single-concentration hit-call functions +#' +#' @description +#' \code{sc2_mthds} returns a list of functions to be used during level 2 +#' single-concentration processing. +#' +#' @return A list functions +#' +#' @seealso \code{\link{sc2}}, \code{\link{Method functions}} to query what +#' methods get applied to each acid +#' +#' @details +#' The functions contained in the list returned by \code{sc2_mthds} return +#' a list of expressions to be executed in the \code{sc2} (not exported) +#' function environment. The functions are described here for reference +#' purposes, The \code{sc2_mthds} function is not exported, nor is it +#' intended for use. +#' +#' All available methods are described in the Available Methods section, listed +#' by the function/method name. +#' +#' @section Available Methods: +#' +#' More information about the level 2 single-concentration processing is +#' available in the package vignette, "Pipeline_Overview." +#' +#' \describe{ +#' \item{bmad3}{Add a cutoff value of 3*bmad.} +#' \item{pc20}{Add a cutoff value of 20.} +#' \item{log2_1.2}{Add a cutoff value of log2(1.2).} +#' \item{log10_1.2}{Add a cutoff value of log10(1.2).} +#' \item{bmad5}{Add a cutoff value of 5*bmad.} +#' \item{bmad6}{Add a cutoff value of 6*bmad.} +#' \item{bmad10}{Add a cutoff value of 10*bmad.} +#' \item{pc30orbmad3}{Add a cutoff value of either 30 or 3*bmad, whichever +#' is less.} +#' } +#' +#' @note +#' This function is not exported and is not intended to be used by the user. + + +sc2_mthds <- function() { + + list( + + bmad3 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*3])) + list(e1) + + }, + + pc20 = function() { + + e1 <- bquote(coff <- c(coff, 20)) + list(e1) + + }, + + log2_1.2 = function() { + + e1 <- bquote(coff <- c(coff, log2(1.2))) + list(e1) + + }, + + log10_1.2 = function() { + + e1 <- bquote(coff <- c(coff, log10(1.2))) + list(e1) + + }, + + bmad5 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*5])) + list(e1) + + }, + + bmad6 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*6])) + list(e1) + + }, + + bmad10 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , unique(bmad)*10])) + list(e1) + + }, + + pc30orbmad3 = function() { + + e1 <- bquote(coff <- c(coff, dat[ , min(30, unique(bmad)*3)])) + list(e1) + + }, + + pc0.88 = function() { + + e1 <- bquote(coff <- c(coff, 20)) + list(e1) + + }, + + log2_1.5 = function() { + + e1 <- bquote(coff <- c(coff, log2(1.5))) + list(e1) + + } + + ) +} + +#------------------------------------------------------------------------------- diff --git a/R/sink.reset.R b/R/sink.reset.R index 04490e8..9a85c28 100644 --- a/R/sink.reset.R +++ b/R/sink.reset.R @@ -1,27 +1,27 @@ -#------------------------------------------------------------------------------- -# sink.reset: Reset all sink connections, returning all output to console -#------------------------------------------------------------------------------- - -#' @title Reset all sinks -#' -#' @description -#' \code{sink.reset} resets all sinks and returns all output to the console. -#' -#' @details -#' \code{sink.reset} identifies all sinks with \code{sink.number} then returns -#' all output and messages back to the console. -#' -#' @family tcpl abbreviations -#' @seealso \code{\link{sink}}, \code{\link{sink.number}} -#' @export - -sink.reset <- function() { - - for (i in seq_len(sink.number())) { - sink(NULL) - sink(NULL, type = "message") - } - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# sink.reset: Reset all sink connections, returning all output to console +#------------------------------------------------------------------------------- + +#' @title Reset all sinks +#' +#' @description +#' \code{sink.reset} resets all sinks and returns all output to the console. +#' +#' @details +#' \code{sink.reset} identifies all sinks with \code{sink.number} then returns +#' all output and messages back to the console. +#' +#' @family tcpl abbreviations +#' @seealso \code{\link{sink}}, \code{\link{sink.number}} +#' @export + +sink.reset <- function() { + + for (i in seq_len(sink.number())) { + sink(NULL) + sink(NULL, type = "message") + } + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplAICProb.R b/R/tcplAICProb.R index 7882af1..20294a4 100644 --- a/R/tcplAICProb.R +++ b/R/tcplAICProb.R @@ -1,58 +1,58 @@ -#------------------------------------------------------------------------------- -# tcplAICProb: Calculate the AIC probabilities -#------------------------------------------------------------------------------- - -#' @title Calculate the AIC probabilities -#' -#' @description -#' \code{tcplAICProb} Calculates the probability that the model best represents -#' the data based on the AIC value for each model. -#' -#' @param \dots Numeric vectors of AIC values -#' -#' @details -#' The function takes vectors of AIC values. Each vector represents the model -#' AIC values for multiple observation sets. Each vector must contain the same -#' number and order of observation sets. The calculation assumes every possible -#' model is accounted for, and the results should be interpreted accordingly. -#' -#' @examples -#' ## Returns the probability for each model, given models with AIC values -#' ## ranging from 80 to 100 -#' tcplAICProb(80, 85, 90, 95, 100) -#' -#' ## Also works for vectors -#' m1 <- c(95, 195, 300) ## model 1 for three different observations -#' m2 <- c(100, 200, 295) ## model 2 for three different observations -#' tcplAICProb(m1, m2) -#' -#' @return A vector of probability values for each model given, as a list. -#' -#' @seealso \code{\link{tcplFit}}, \code{\link{AIC}} for more information -#' about AIC values. -#' -#' @export - - -tcplAICProb <- function(...) { - - ### Calculate the AIC probabilities for the given models - - aics <- list(...) - - lens <- sapply(aics, length) - if (abs(max(lens) - min(lens)) > 0) stop("All inputs must be same length.") - - maic <- pmin(..., na.rm = TRUE) - - di <- lapply(aics, function(x) x - maic) - l <- lapply(di, function(x) exp(-x/2)) - - lsum <- apply(do.call(cbind, l), 1, sum, na.rm = TRUE) - prob <- lapply(l, function(x) x/lsum) - - prob - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplAICProb: Calculate the AIC probabilities +#------------------------------------------------------------------------------- + +#' @title Calculate the AIC probabilities +#' +#' @description +#' \code{tcplAICProb} Calculates the probability that the model best represents +#' the data based on the AIC value for each model. +#' +#' @param \dots Numeric vectors of AIC values +#' +#' @details +#' The function takes vectors of AIC values. Each vector represents the model +#' AIC values for multiple observation sets. Each vector must contain the same +#' number and order of observation sets. The calculation assumes every possible +#' model is accounted for, and the results should be interpreted accordingly. +#' +#' @examples +#' ## Returns the probability for each model, given models with AIC values +#' ## ranging from 80 to 100 +#' tcplAICProb(80, 85, 90, 95, 100) +#' +#' ## Also works for vectors +#' m1 <- c(95, 195, 300) ## model 1 for three different observations +#' m2 <- c(100, 200, 295) ## model 2 for three different observations +#' tcplAICProb(m1, m2) +#' +#' @return A vector of probability values for each model given, as a list. +#' +#' @seealso \code{\link{tcplFit}}, \code{\link{AIC}} for more information +#' about AIC values. +#' +#' @export + + +tcplAICProb <- function(...) { + + ### Calculate the AIC probabilities for the given models + + aics <- list(...) + + lens <- sapply(aics, length) + if (abs(max(lens) - min(lens)) > 0) stop("All inputs must be same length.") + + maic <- pmin(..., na.rm = TRUE) + + di <- lapply(aics, function(x) x - maic) + l <- lapply(di, function(x) exp(-x/2)) + + lsum <- apply(do.call(cbind, l), 1, sum, na.rm = TRUE) + prob <- lapply(l, function(x) x/lsum) + + prob + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplAddModel.R b/R/tcplAddModel.R index e2ceee4..ab057d0 100644 --- a/R/tcplAddModel.R +++ b/R/tcplAddModel.R @@ -1,79 +1,79 @@ -#' @title Draw a tcpl Model onto an exisiting plot -#' -#' @description -#' \code{tcplAddModel} draws a a line for one of the tcpl Models (see -#' \code{\link{Models}} for more information) onto an existing plot. -#' -#' @param pars List of parameters from level 4 or 5 output -#' @param modl Character of length 1, the model to plot: 'cnst,' 'hill,' or -#' 'gnls' -#' @param adj Numeric of length 1, an adjustment factor, see details for more -#' information -#' @param \dots Additional arguments passed to \code{curve} -#' -#' @details -#' \code{tcplAddModel} draws the model line assuming the x-axis represents log -#' base 10 concentration. -#' -#' If \code{modl} is NULL, the function checks \code{pars$modl} and will return -#' an error if \code{pars$modl} is also NULL. -#' -#' \code{adj} is intended to scale the models, so that models with different -#' response units can be visualized on a single plot. The recommended value for -#' \code{adl} is \code{1/(3*bmad)} for level 4 data and \code{1/coff} for level -#' 5 data. If \code{adj} is NULL the function will check \code{pars$adj} and -#' set \code{adj} to 1 if \code{pars$adj} is also NULL. -#' -#' @examples -#' ## Create some dummy data to plot -#' logc <- 1:10 -#' r1 <- sapply(logc, tcplHillVal, ga = 5, tp = 50, gw = 0.5) -#' r2 <- log2(sapply(logc, tcplHillVal, ga = 4, tp = 30, gw = 0.5)) -#' p1 <- tcplFit(logc = logc, resp = r1, bmad = 10) -#' p2 <- tcplFit(logc = logc, resp = r2, bmad = log2(1.5)) -#' -#' ## In the dummy data above, the two plots are on very different scales -#' plot(r1 ~ logc, pch = 16, ylab = "raw response") -#' tcplAddModel(pars = p1, modl = "hill") -#' points(r2 ~ logc) -#' tcplAddModel(pars = p2, modl = "hill", lty = "dashed") -#' -#' ## To visualize the two curves on the same plot for comparison, we can -#' ## scale the values to the bmad, such that a scaled response of 1 will equal -#' ## the bmad for each curve. -#' plot(r1/10 ~ logc, pch = 16, ylab = "scaled response") -#' tcplAddModel(pars = p1, modl = "hill", adj = 1/10) -#' points(r2/log2(5) ~ logc) -#' tcplAddModel(pars = p2, modl = "hill", adj = 1/log2(5), lty = "dashed") -#' -#' @seealso \code{\link{Models}}, \code{\link{tcplPlotFits}} -#' -#' @importFrom graphics curve -#' @export - -tcplAddModel <- function(pars, modl = NULL, adj = NULL, ...) { - - if (is.null(modl)) modl <- pars$modl - if (is.null(modl)) stop("'modl' is not defined.") - if (!is.null(adj)) pars$adj <- adj - if (is.null(pars$adj)) pars$adj <- 1 - - cnst <- function(x) 0*x - hill <- function(x) with(pars, hill_tp*adj/(1 + 10^((hill_ga - x)*hill_gw))) - gnls <- function(x) { - with(pars, { - h1 <- (1/(1 + 10^((gnls_ga - x)*gnls_gw))) - h2 <- (1/(1 + 10^((x - gnls_la)*gnls_lw))) - gnls_tp*adj*h1*h2 - }) - } - - do.call(curve, - list(as.name(modl), - add = TRUE, - from = pars$logc_min, - to = pars$logc_max, - n = 1e4, - ...)) - +#' @title Draw a tcpl Model onto an exisiting plot +#' +#' @description +#' \code{tcplAddModel} draws a a line for one of the tcpl Models (see +#' \code{\link{Models}} for more information) onto an existing plot. +#' +#' @param pars List of parameters from level 4 or 5 output +#' @param modl Character of length 1, the model to plot: 'cnst,' 'hill,' or +#' 'gnls' +#' @param adj Numeric of length 1, an adjustment factor, see details for more +#' information +#' @param \dots Additional arguments passed to \code{curve} +#' +#' @details +#' \code{tcplAddModel} draws the model line assuming the x-axis represents log +#' base 10 concentration. +#' +#' If \code{modl} is NULL, the function checks \code{pars$modl} and will return +#' an error if \code{pars$modl} is also NULL. +#' +#' \code{adj} is intended to scale the models, so that models with different +#' response units can be visualized on a single plot. The recommended value for +#' \code{adl} is \code{1/(3*bmad)} for level 4 data and \code{1/coff} for level +#' 5 data. If \code{adj} is NULL the function will check \code{pars$adj} and +#' set \code{adj} to 1 if \code{pars$adj} is also NULL. +#' +#' @examples +#' ## Create some dummy data to plot +#' logc <- 1:10 +#' r1 <- sapply(logc, tcplHillVal, ga = 5, tp = 50, gw = 0.5) +#' r2 <- log2(sapply(logc, tcplHillVal, ga = 4, tp = 30, gw = 0.5)) +#' p1 <- tcplFit(logc = logc, resp = r1, bmad = 10) +#' p2 <- tcplFit(logc = logc, resp = r2, bmad = log2(1.5)) +#' +#' ## In the dummy data above, the two plots are on very different scales +#' plot(r1 ~ logc, pch = 16, ylab = "raw response") +#' tcplAddModel(pars = p1, modl = "hill") +#' points(r2 ~ logc) +#' tcplAddModel(pars = p2, modl = "hill", lty = "dashed") +#' +#' ## To visualize the two curves on the same plot for comparison, we can +#' ## scale the values to the bmad, such that a scaled response of 1 will equal +#' ## the bmad for each curve. +#' plot(r1/10 ~ logc, pch = 16, ylab = "scaled response") +#' tcplAddModel(pars = p1, modl = "hill", adj = 1/10) +#' points(r2/log2(5) ~ logc) +#' tcplAddModel(pars = p2, modl = "hill", adj = 1/log2(5), lty = "dashed") +#' +#' @seealso \code{\link{Models}}, \code{\link{tcplPlotFits}} +#' +#' @importFrom graphics curve +#' @export + +tcplAddModel <- function(pars, modl = NULL, adj = NULL, ...) { + + if (is.null(modl)) modl <- pars$modl + if (is.null(modl)) stop("'modl' is not defined.") + if (!is.null(adj)) pars$adj <- adj + if (is.null(pars$adj)) pars$adj <- 1 + + cnst <- function(x) 0*x + hill <- function(x) with(pars, hill_tp*adj/(1 + 10^((hill_ga - x)*hill_gw))) + gnls <- function(x) { + with(pars, { + h1 <- (1/(1 + 10^((gnls_ga - x)*gnls_gw))) + h2 <- (1/(1 + 10^((x - gnls_la)*gnls_lw))) + gnls_tp*adj*h1*h2 + }) + } + + do.call(curve, + list(as.name(modl), + add = TRUE, + from = pars$logc_min, + to = pars$logc_max, + n = 1e4, + ...)) + } \ No newline at end of file diff --git a/R/tcplAppend.R b/R/tcplAppend.R index 4f20f5d..eeea24a 100644 --- a/R/tcplAppend.R +++ b/R/tcplAppend.R @@ -1,104 +1,103 @@ -#------------------------------------------------------------------------------- -# tcplAppend: Append rows to a table -#------------------------------------------------------------------------------- - -#' @title Append rows to a table -#' -#' @description -#' \code{tcplAppend} takes a data.table (dat) and appends the data.table into -#' a database table. -#' -#' @param dat data.table, the data to append to a table -#' @param tbl Character of length 1, the table to append to -#' @param db Character of length 1, the database containing \code{tbl} -#' -#' @note -#' This function is not exported and not intended to be used by the user. -#' -#' @import DBI -#' @importFrom RSQLite SQLite -#' @importMethodsFrom RSQLite dbConnect dbRemoveTable dbExistsTable -#' @importMethodsFrom RSQLite dbSendQuery dbDisconnect dbWriteTable -#' @import data.table -#' @importFrom RMySQL MySQL -#' @importMethodsFrom RMySQL dbConnect dbWriteTable dbDisconnect - -tcplAppend <- function(dat, tbl, db) { - - ## Variable-binding to pass R CMD Check - created_date <- modified_date <- NULL - - db_pars <- NULL - - if (getOption("TCPL_DRVR") == "SQLite") { - - tbl_flds <- tcplListFlds(tbl, db) - if ("created_date" %in% tbl_flds) dat[ , created_date := Sys.time()] - if ("modified_date" %in% tbl_flds) dat[ , modified_date := Sys.time()] - - db_pars <- list(drv = SQLite(), - dbname = db) - - dbcon <- do.call(dbConnect, db_pars) - - tempTbl <- "temp_table" - if (dbExistsTable(dbcon, tempTbl)) dbRemoveTable(dbcon, tempTbl) - dbWriteTable(conn = dbcon, - name = tempTbl, - value = dat, - row.names = FALSE, - append = FALSE) - - # Add any columns to input data.frame that are in target table, then merge - tmp_flds <- names(dat) - status <- dbSendQuery(dbcon, - paste("INSERT INTO", tbl, - "(", paste(tmp_flds, collapse = ","), ")", - "SELECT", - paste(tmp_flds, collapse = ","), - "FROM", - tempTbl)) - # Remove temporary table - dbRemoveTable(dbcon, tempTbl) - - dbDisconnect(dbcon) - - } - - if (getOption("TCPL_DRVR") == "MySQL") { - - if (any(is.na(options()[c("TCPL_USER", "TCPL_HOST", "TCPL_PASS")]))) { - stop("Must configure TCPL_USER, TCPL_HOST, and TCPL_PASS options. See ", - "?tcplConf for more details.") - } - - db_pars <- list(drv = RMySQL::MySQL(), - user = getOption("TCPL_USER"), - password = getOption("TCPL_PASS"), - host = getOption("TCPL_HOST"), - dbname = db) - - dbcon <- do.call(dbConnect, db_pars) - - dbWriteTable(conn = dbcon, - name = tbl, - value = dat, - row.names = FALSE, - append = TRUE) - - dbDisconnect(dbcon) - - return(TRUE) - - } - - if (is.null(db_pars)) { - - stop(getOption("TCPL_DRVR"), " is not a supported database system. See ", - "?tcplConf for more details.") - - } - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplAppend: Append rows to a table +#------------------------------------------------------------------------------- + +#' @title Append rows to a table +#' +#' @description +#' \code{tcplAppend} takes a data.table (dat) and appends the data.table into +#' a database table. +#' +#' @param dat data.table, the data to append to a table +#' @param tbl Character of length 1, the table to append to +#' @param db Character of length 1, the database containing \code{tbl} +#' +#' @note +#' This function is not exported and not intended to be used by the user. +#' +#' @import DBI +#' @importFrom RSQLite SQLite +#' @import data.table +#' @importFrom RMySQL MySQL + +tcplAppend <- function(dat, tbl, db) { + + ## Variable-binding to pass R CMD Check + created_date <- modified_date <- NULL + + db_pars <- NULL + + if (getOption("TCPL_DRVR") == "SQLite") { + + tbl_flds <- tcplListFlds(tbl, db) + if ("created_date" %in% tbl_flds) dat[ , created_date := Sys.time()] + if ("modified_date" %in% tbl_flds) dat[ , modified_date := Sys.time()] + + db_pars <- list(drv = SQLite(), + dbname = db) + + dbcon <- do.call(dbConnect, db_pars) + + tempTbl <- "temp_table" + if (dbExistsTable(dbcon, tempTbl)) dbRemoveTable(dbcon, tempTbl) + dbWriteTable(conn = dbcon, + name = tempTbl, + value = dat, + row.names = FALSE, + append = FALSE) + + # Add any columns to input data.frame that are in target table, then merge + tmp_flds <- names(dat) + status <- dbSendQuery(dbcon, + paste("INSERT INTO", tbl, + "(", paste(tmp_flds, collapse = ","), ")", + "SELECT", + paste(tmp_flds, collapse = ","), + "FROM", + tempTbl)) + dbClearResult(status) + + # Remove temporary table + dbRemoveTable(dbcon, tempTbl) + + dbDisconnect(dbcon) + + } + + if (getOption("TCPL_DRVR") == "MySQL") { + + if (any(is.na(options()[c("TCPL_USER", "TCPL_HOST", "TCPL_PASS")]))) { + stop("Must configure TCPL_USER, TCPL_HOST, and TCPL_PASS options. See ", + "?tcplConf for more details.") + } + + db_pars <- list(drv = RMySQL::MySQL(), + user = getOption("TCPL_USER"), + password = getOption("TCPL_PASS"), + host = getOption("TCPL_HOST"), + dbname = db) + + dbcon <- do.call(dbConnect, db_pars) + + dbWriteTable(conn = dbcon, + name = tbl, + value = dat, + row.names = FALSE, + append = TRUE) + + dbDisconnect(dbcon) + + return(TRUE) + + } + + if (is.null(db_pars)) { + + stop(getOption("TCPL_DRVR"), " is not a supported database system. See ", + "?tcplConf for more details.") + + } + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplCascade.R b/R/tcplCascade.R index 76f0d94..1d5b0b3 100644 --- a/R/tcplCascade.R +++ b/R/tcplCascade.R @@ -1,78 +1,78 @@ -#------------------------------------------------------------------------------- -# tcplCascade: Do a cascading delete on tcpl screening data -#------------------------------------------------------------------------------- - -#' @title Do a cascading delete on tcpl screening data -#' -#' @description -#' \code{tcplCascade} deletes the data for the given id(s) starting at -#' the processing level given. The delete will cascade through all subsequent -#' tables. -#' -#' @param lvl Integer of length 1, the first level to delete from -#' @param type Character of length 1, the data type, "sc" or "mc" -#' @param id Integer, the id(s) to delete. See details for more information. -#' -#' @details -#' The data type can be either 'mc' for mutliple concentration data, or 'sc' -#' for single concentration data. Multiple concentration data will be loaded -#' into the level tables, whereas the single concentration will be loaded into -#' the single tables. -#' -#' If lvl is less than 3, id is interpreted as acid(s) and if lvl is greater -#' than or equal to 3, id is interpreted as aeid(s). -#' -#' @note -#' This function is not exported and not intended to be used by the user. -#' -#' @import data.table -#' @importFrom methods is - -tcplCascade <- function(lvl, type, id) { - - stime <- Sys.time() - - if (length(lvl) > 1) { - stop("Invalid lvl input - must be an integer of length 1.") - } - - db <- getOption("TCPL_DB") - - if (type == "mc") { - - if (lvl == 0) tcplDelete(tbl = "mc0", fld = "acid", val = id, db = db) - if (lvl <= 1) tcplDelete(tbl = "mc1", fld = "acid", val = id, db = db) - if (lvl <= 2) tcplDelete(tbl = "mc2", fld = "acid", val = id, db = db) - if (lvl < 3) { - id <- suppressWarnings(try(tcplLoadAeid("acid", id)$aeid, silent = TRUE)) - } - if (is(id, "try-error")) return(TRUE) - if (lvl <= 3) tcplDelete(tbl = "mc3", fld = "aeid", val = id, db = db) - if (lvl <= 4) tcplDelete(tbl = "mc4", fld = "aeid", val = id, db = db) - if (lvl <= 4) tcplDelete(tbl = "mc4_agg", fld = "aeid", val = id, db = db) - if (lvl <= 5) tcplDelete(tbl = "mc5", fld = "aeid", val = id, db = db) - if (lvl <= 6) tcplDelete(tbl = "mc6", fld = "aeid", val = id, db = db) - - } - - if (type == "sc") { - - if (lvl == 0) tcplDelete(tbl = "sc0", fld = "acid", val = id, db = db) - if (lvl < 1) { - id <- suppressWarnings(try(tcplLoadAeid("acid", id)$aeid, silent = TRUE)) - } - if (is(id, "try-error")) return(TRUE) - if (lvl <= 1) tcplDelete(tbl = "sc1", fld = "aeid", val = id, db = db) - if (lvl <= 2) tcplDelete(tbl = "sc2", fld = "aeid", val = id, db = db) - if (lvl <= 2) tcplDelete(tbl = "sc2_agg", fld = "aeid", val = id, db = db) - - } - - ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("Completed delete cascade for ", length(id), " ids (", ttime, - ")\n", sep = "") - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplCascade: Do a cascading delete on tcpl screening data +#------------------------------------------------------------------------------- + +#' @title Do a cascading delete on tcpl screening data +#' +#' @description +#' \code{tcplCascade} deletes the data for the given id(s) starting at +#' the processing level given. The delete will cascade through all subsequent +#' tables. +#' +#' @param lvl Integer of length 1, the first level to delete from +#' @param type Character of length 1, the data type, "sc" or "mc" +#' @param id Integer, the id(s) to delete. See details for more information. +#' +#' @details +#' The data type can be either 'mc' for mutliple concentration data, or 'sc' +#' for single concentration data. Multiple concentration data will be loaded +#' into the level tables, whereas the single concentration will be loaded into +#' the single tables. +#' +#' If lvl is less than 3, id is interpreted as acid(s) and if lvl is greater +#' than or equal to 3, id is interpreted as aeid(s). +#' +#' @note +#' This function is not exported and not intended to be used by the user. +#' +#' @import data.table +#' @importFrom methods is + +tcplCascade <- function(lvl, type, id) { + + stime <- Sys.time() + + if (length(lvl) > 1) { + stop("Invalid lvl input - must be an integer of length 1.") + } + + db <- getOption("TCPL_DB") + + if (type == "mc") { + + if (lvl == 0) tcplDelete(tbl = "mc0", fld = "acid", val = id, db = db) + if (lvl <= 1) tcplDelete(tbl = "mc1", fld = "acid", val = id, db = db) + if (lvl <= 2) tcplDelete(tbl = "mc2", fld = "acid", val = id, db = db) + if (lvl < 3) { + id <- suppressWarnings(try(tcplLoadAeid("acid", id)$aeid, silent = TRUE)) + } + if (is(id, "try-error")) return(TRUE) + if (lvl <= 3) tcplDelete(tbl = "mc3", fld = "aeid", val = id, db = db) + if (lvl <= 4) tcplDelete(tbl = "mc4", fld = "aeid", val = id, db = db) + if (lvl <= 4) tcplDelete(tbl = "mc4_agg", fld = "aeid", val = id, db = db) + if (lvl <= 5) tcplDelete(tbl = "mc5", fld = "aeid", val = id, db = db) + if (lvl <= 6) tcplDelete(tbl = "mc6", fld = "aeid", val = id, db = db) + + } + + if (type == "sc") { + + if (lvl == 0) tcplDelete(tbl = "sc0", fld = "acid", val = id, db = db) + if (lvl < 1) { + id <- suppressWarnings(try(tcplLoadAeid("acid", id)$aeid, silent = TRUE)) + } + if (is(id, "try-error")) return(TRUE) + if (lvl <= 1) tcplDelete(tbl = "sc1", fld = "aeid", val = id, db = db) + if (lvl <= 2) tcplDelete(tbl = "sc2", fld = "aeid", val = id, db = db) + if (lvl <= 2) tcplDelete(tbl = "sc2_agg", fld = "aeid", val = id, db = db) + + } + + ttime <- round(difftime(Sys.time(), stime, units = "sec"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("Completed delete cascade for ", length(id), " ids (", ttime, + ")\n", sep = "") + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplCode2CASN.R b/R/tcplCode2CASN.R index 1bb9f7c..5b70f43 100644 --- a/R/tcplCode2CASN.R +++ b/R/tcplCode2CASN.R @@ -1,61 +1,61 @@ -#------------------------------------------------------------------------------- -# tcplCode2CASN: Convert chemical code to CAS Registry Number -#------------------------------------------------------------------------------- - -#' @title Convert chemical code to CAS Registry Number -#' -#' @description -#' \code{tcplCode2CASN} takes a code and converts it CAS Registry Number. -#' -#' @param code Character of length 1, a chemical code -#' -#' @details -#' The function checks for the validity of the CAS Registry Number. Also, -#' the ToxCast data includes chemcials for which there is no CASRN. The -#' convention for these chemicals is to give them a CASRN as NOCAS_chid; the -#' code for these compounds is CNOCASchid. The function handles the NOCAS -#' compounds as they are stored in the database, as shown in the exmaple below. -#' -#' @examples -#' tcplCode2CASN("C80057") -#' tcplCode2CASN("C09812420") ## Invalid CASRN will give a warning -#' tcplCode2CASN("CNOCAS0015") ## The underscore is reinserted for NOCAS codes -#' -#' @return A CAS Registry Number. -#' -#' @export - -tcplCode2CASN <- function(code) { - - if (length(code) > 1) { - code <- code[1] - warning("length of 'code' greater than 1, only the first element used.") - } - - code <- sub("C", "", code) - - if (grepl("NOCAS", code)) { - - code <- sub("NOCAS", "NOCAS_", code) - return(code) - - } - - if (!grepl("[a-z]|[A-Z]", code)) { - - code <- as.numeric(sapply(code, strsplit, "")[[1]]) - clen <- length(code) - test <- sum((clen - 1):1 * code[1:(clen - 1)]) %% 10 == code[clen] - code <- paste(paste(code[1:(clen - 3)], collapse = ""), - paste(code[(clen - 2):(clen - 1)], collapse = ""), - code[clen], - sep = "-") - if (test) return(code) - } - - warning("'code' does not appear to have a valid CAS Registry Number.") - code - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplCode2CASN: Convert chemical code to CAS Registry Number +#------------------------------------------------------------------------------- + +#' @title Convert chemical code to CAS Registry Number +#' +#' @description +#' \code{tcplCode2CASN} takes a code and converts it CAS Registry Number. +#' +#' @param code Character of length 1, a chemical code +#' +#' @details +#' The function checks for the validity of the CAS Registry Number. Also, +#' the ToxCast data includes chemcials for which there is no CASRN. The +#' convention for these chemicals is to give them a CASRN as NOCAS_chid; the +#' code for these compounds is CNOCASchid. The function handles the NOCAS +#' compounds as they are stored in the database, as shown in the exmaple below. +#' +#' @examples +#' tcplCode2CASN("C80057") +#' tcplCode2CASN("C09812420") ## Invalid CASRN will give a warning +#' tcplCode2CASN("CNOCAS0015") ## The underscore is reinserted for NOCAS codes +#' +#' @return A CAS Registry Number. +#' +#' @export + +tcplCode2CASN <- function(code) { + + if (length(code) > 1) { + code <- code[1] + warning("length of 'code' greater than 1, only the first element used.") + } + + code <- sub("C", "", code) + + if (grepl("NOCAS", code)) { + + code <- sub("NOCAS", "NOCAS_", code) + return(code) + + } + + if (!grepl("[a-z]|[A-Z]", code)) { + + code <- as.numeric(sapply(code, strsplit, "")[[1]]) + clen <- length(code) + test <- sum((clen - 1):1 * code[1:(clen - 1)]) %% 10 == code[clen] + code <- paste(paste(code[1:(clen - 3)], collapse = ""), + paste(code[(clen - 2):(clen - 1)], collapse = ""), + code[clen], + sep = "-") + if (test) return(code) + } + + warning("'code' does not appear to have a valid CAS Registry Number.") + code + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplConf.R b/R/tcplConf.R index ff3a574..00acfe3 100644 --- a/R/tcplConf.R +++ b/R/tcplConf.R @@ -1,55 +1,55 @@ -#------------------------------------------------------------------------------- -# tcplConf: Configure the tcpl options -#------------------------------------------------------------------------------- - -#' @rdname config_funcs -#' @export - -tcplConf <- function (drvr = NULL, user = NULL, pass = NULL, host = NULL, - db = NULL) { - - check <- function(x) length(x) == 1 && is.character(x) - setop <- function(x) { - xn <- deparse(substitute(x)) - if (is.na(x)) x <- NA_character_ - if (check(x)) { - p <- list(x) - names(p) <- paste0("TCPL_", toupper(xn)) - do.call(what = options, p) - } else { - warning("Invalid '", xn, ",' no changes made to TCPL_", toupper(xn)) - } - } - - if (!is.null(user)) setop(user) - if (!is.null(pass)) setop(pass) - if (!is.null(host)) setop(host) - if (!is.null(db)) setop(db) - - if (!is.null(drvr)) { - - if (!drvr %in% c("SQLite", "MySQL")) { - stop(drvr, " is not a supported database driver. Must be 'SQLite' or ", - "'MySQL.'") - } - - if (drvr == "SQLite") { - options("TCPL_DRVR" = "SQLite") - } - - if (drvr == "MySQL") { - options("TCPL_DRVR" = "MySQL") - mxp <- tcplQuery("SHOW VARIABLES LIKE 'max_allowed_packet'")$Value - mxp <- as.numeric(mxp) - if (mxp < 1073741824) { - warning("The 'max_allowed_packet' MySQL server setting is set to ", - mxp, " bytes. It is recommended that you increase it to ", - "1073741824 bytes to ensure larger queries run without error.") - } - } - - } - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplConf: Configure the tcpl options +#------------------------------------------------------------------------------- + +#' @rdname config_funcs +#' @export + +tcplConf <- function (drvr = NULL, user = NULL, pass = NULL, host = NULL, + db = NULL) { + + check <- function(x) length(x) == 1 && is.character(x) + setop <- function(x) { + xn <- deparse(substitute(x)) + if (is.na(x)) x <- NA_character_ + if (check(x)) { + p <- list(x) + names(p) <- paste0("TCPL_", toupper(xn)) + do.call(what = options, p) + } else { + warning("Invalid '", xn, ",' no changes made to TCPL_", toupper(xn)) + } + } + + if (!is.null(user)) setop(user) + if (!is.null(pass)) setop(pass) + if (!is.null(host)) setop(host) + if (!is.null(db)) setop(db) + + if (!is.null(drvr)) { + + if (!drvr %in% c("SQLite", "MySQL")) { + stop(drvr, " is not a supported database driver. Must be 'SQLite' or ", + "'MySQL.'") + } + + if (drvr == "SQLite") { + options("TCPL_DRVR" = "SQLite") + } + + if (drvr == "MySQL") { + options("TCPL_DRVR" = "MySQL") + mxp <- tcplQuery("SHOW VARIABLES LIKE 'max_allowed_packet'")$Value + mxp <- as.numeric(mxp) + if (mxp < 1073741824) { + warning("The 'max_allowed_packet' MySQL server setting is set to ", + mxp, " bytes. It is recommended that you increase it to ", + "1073741824 bytes to ensure larger queries run without error.") + } + } + + } + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplConfDefault.R b/R/tcplConfDefault.R index a631425..40c3204 100644 --- a/R/tcplConfDefault.R +++ b/R/tcplConfDefault.R @@ -1,15 +1,15 @@ -#------------------------------------------------------------------------------- -# tcplConfDefault: Generate default config file -#------------------------------------------------------------------------------- - -#' @rdname config_funcs -#' @export - -tcplConfDefault <- function () { - - sqlite <- file.path(system.file(package = "tcpl"), "sql", "tcpldb.sqlite") - tcplConf(db = sqlite, user = NA, host = NA, drvr = "SQLite") - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplConfDefault: Generate default config file +#------------------------------------------------------------------------------- + +#' @rdname config_funcs +#' @export + +tcplConfDefault <- function () { + + sqlite <- file.path(system.file(package = "tcpl"), "sql", "tcpldb.sqlite") + tcplConf(db = sqlite, user = NA, host = NA, drvr = "SQLite") + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplConfList.R b/R/tcplConfList.R index 0c65ce4..80d9f51 100644 --- a/R/tcplConfList.R +++ b/R/tcplConfList.R @@ -1,16 +1,16 @@ -#------------------------------------------------------------------------------- -# tcplConfList: -#------------------------------------------------------------------------------- - -#' @rdname config_funcs -#' @export - -tcplConfList <- function(show.pass = FALSE) { - - opts <- list("TCPL_DB", "TCPL_USER", "TCPL_HOST", "TCPL_DRVR") - if (show.pass) opts <- c(opts, "TCPL_PASS") - do.call(options, opts) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplConfList: +#------------------------------------------------------------------------------- + +#' @rdname config_funcs +#' @export + +tcplConfList <- function(show.pass = FALSE) { + + opts <- list("TCPL_DB", "TCPL_USER", "TCPL_HOST", "TCPL_DRVR") + if (show.pass) opts <- c(opts, "TCPL_PASS") + do.call(options, opts) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplConfLoad.R b/R/tcplConfLoad.R index 3f56b68..98eb789 100644 --- a/R/tcplConfLoad.R +++ b/R/tcplConfLoad.R @@ -1,19 +1,27 @@ -#------------------------------------------------------------------------------- -# tcplConfLoad: Load the current configuration file -#------------------------------------------------------------------------------- - -#' @rdname config_funcs -#' @export - -tcplConfLoad <- function () { - - ## Variable-binding to pass R CMD Check - DRVR <- USER <- PASS <- HOST <- DB <- NULL - - source(file.path(system.file(package = "tcpl"), "TCPL.config"), local = TRUE) - - tcplConf(DRVR, USER, PASS, HOST, DB) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplConfLoad: Load the current configuration file +#------------------------------------------------------------------------------- + +#' @rdname config_funcs +#' +#' @param list.new Logical of length 1, should the new settings be printed? +#' +#' @export + +tcplConfLoad <- function (list.new = TRUE) { + + stopifnot(is.logical(list.new) && length(list.new) == 1) + + conf_file <- .getConfFile() + + ## Variable-binding to pass R CMD Check + DRVR <- USER <- PASS <- HOST <- DB <- NULL + + source(conf_file, local = TRUE) + + tcplConf(DRVR, USER, PASS, HOST, DB) + tcplConfList() + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplConfReset.R b/R/tcplConfReset.R index 400072b..9fe68f7 100644 --- a/R/tcplConfReset.R +++ b/R/tcplConfReset.R @@ -1,30 +1,32 @@ -#------------------------------------------------------------------------------- -# tcplConfReset: Generate default config file -#------------------------------------------------------------------------------- - -#' @rdname config_funcs -#' @export - -tcplConfReset <- function () { - - cat("###################################################################", - "", - "## Detailed information about this file available in the help file for", - "## tcplConf (?tcplConf).", - "", - "DRVR <- \"SQLite\"", - "HOST <- NA_character_", - "USER <- NA_character_", - "PASS <- NA_character_", - "DB <- file.path(system.file(package = \"tcpl\"),", - " \"sql\",", - " \"tcpldb.sqlite\")", - "", - "###################################################################", - sep = "\n", - file = file.path(system.file(package = "tcpl"), "TCPL.config"), - append = FALSE) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplConfReset: Generate default config file +#------------------------------------------------------------------------------- + +#' @rdname config_funcs +#' @export + +tcplConfReset <- function () { + + conf_file <- .getConfFile() + + cat("###################################################################", + "", + "## Detailed information about this file available in the help file for", + "## tcplConf (?tcplConf).", + "", + "DRVR <- \"SQLite\"", + "HOST <- NA_character_", + "USER <- NA_character_", + "PASS <- NA_character_", + "DB <- file.path(system.file(package = \"tcpl\"),", + " \"sql\",", + " \"tcpldb.sqlite\")", + "", + "###################################################################", + sep = "\n", + file = file.path(conf_file), + append = FALSE) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplConfSave.R b/R/tcplConfSave.R index 29112d5..be1e9e3 100644 --- a/R/tcplConfSave.R +++ b/R/tcplConfSave.R @@ -1,50 +1,52 @@ -#------------------------------------------------------------------------------- -# tcplConfSave: Save current tcpl settings to config file -#------------------------------------------------------------------------------- - -#' @rdname config_funcs -#' @export - -tcplConfSave <- function () { - - if(any(sapply(tcplConfList(), is.null))) { - stop("One of the tcpl settings is NULL. Saving the configuration file ", - "with a NULL setting\nwill keep the package from loading in future ", - "sessions.") - } - - drvr <- getOption("TCPL_DRVR") - if (!drvr %in% c("SQLite", "MySQL")) { - stop(drvr, " is not a supported database driver. Must be 'SQLite' or ", - "'MySQL'.") - } - drvr <- shQuote(drvr) - - host <- getOption("TCPL_HOST") - host <- if(is.na(host)) host else shQuote(host) - user <- getOption("TCPL_USER") - user <- if(is.na(user)) user else shQuote(user) - pass <- getOption("TCPL_PASS") - pass <- if(is.na(pass)) pass else shQuote(pass) - db <- getOption("TCPL_DB") - db <- if(is.na(db)) db else shQuote(db) - - cat("###################################################################\n", - "\n", - "## Detailed information about this file available in the help file for", - "## tcplConf (?tcplConf).\n", - "\n", - "DRVR <-", drvr, "\n", - "HOST <-", host, "\n", - "USER <-", user, "\n", - "PASS <-", pass, "\n", - "DB <-", db, "\n", - "\n", - "###################################################################\n", - sep = " ", - file = file.path(system.file(package = "tcpl"), "TCPL.config"), - append = FALSE) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplConfSave: Save current tcpl settings to config file +#------------------------------------------------------------------------------- + +#' @rdname config_funcs +#' @export + +tcplConfSave <- function () { + + conf_file <- .getConfFile() + + if(any(sapply(tcplConfList(), is.null))) { + stop("One of the tcpl settings is NULL. Saving the configuration file ", + "with a NULL setting\nwill keep the package from loading in future ", + "sessions.") + } + + drvr <- getOption("TCPL_DRVR") + if (!drvr %in% c("SQLite", "MySQL")) { + stop(drvr, " is not a supported database driver. Must be 'SQLite' or ", + "'MySQL'.") + } + drvr <- shQuote(drvr) + + host <- getOption("TCPL_HOST") + host <- if(is.na(host)) host else shQuote(host) + user <- getOption("TCPL_USER") + user <- if(is.na(user)) user else shQuote(user) + pass <- getOption("TCPL_PASS") + pass <- if(is.na(pass)) pass else shQuote(pass) + db <- getOption("TCPL_DB") + db <- if(is.na(db)) db else shQuote(db) + + cat("###################################################################\n", + "\n", + "## Detailed information about this file available in the help file for", + "## tcplConf (?tcplConf).\n", + "\n", + "DRVR <-", drvr, "\n", + "HOST <-", host, "\n", + "USER <-", user, "\n", + "PASS <-", pass, "\n", + "DB <-", db, "\n", + "\n", + "###################################################################\n", + sep = " ", + file = file.path(conf_file), + append = FALSE) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplCytoPt.R b/R/tcplCytoPt.R index e76f337..6719375 100644 --- a/R/tcplCytoPt.R +++ b/R/tcplCytoPt.R @@ -1,170 +1,170 @@ -#------------------------------------------------------------------------------- -# tcplCytoPt: Calculate the cytotoxicity point based on the "burst assays" -#------------------------------------------------------------------------------- - -#' @title Calculate the cytotoxicity point based on the "burst" endpoints -#' -#' @description -#' \code{tcplCytoPt} calculates the cytotoxicity point and average cytotoxicity -#' distribution based on the acitivty in the "burst" assay endpoints. -#' -#' @param chid Integer, chemical ID values to subset on -#' @param aeid Integer, assay endpoint ID values to override the "burst assay" -#' definitions -#' @param flag Integer, mc6_mthd_id values to be passed to -#' \code{\link{tcplSubsetChid}} -#' @param min.test Integer or Boolean, the number of tested assay endpoints -#' required for a cheimcal to be used in calculating the "global MAD." -#' @param default.pt Numeric of length 1, the default cytotoxicity point value -#' -#' @details -#' \code{tcplCytoPt} provides estimates for chemical-specific cytotoxicity -#' distributions (more information available in the vignette.) Before -#' calculating the cytotoxicity distributions, the level 5 data is subsetted -#' by the \code{\link{tcplSubsetChid}} function. -#' -#' The 'chid' parameter specifies a subset of chemicals to use in the -#' calculations, given by chemical ID (chid). The 'aeid' parameter specifies -#' which assays to use in calculating the cytotoxicity point and distribution. -#' By default \code{tcplCytoPt} will use all available chemicals and the -#' assay endpoints defined by the 'burst_assay' field in the -#' "assay_component_endpoint" table. The examples show how to identify the -#' "burst" endpoints. -#' -#' \code{tcplCytoPt} returns the cytotoxicity point (the AC50 values of the -#' active "burst" endpoints), the corresponding MAD, and the global MAD (median -#' of the calculated MAD values). Not every chemical must be tested in every -#' "burst" endpoint. The 'min.test' parameter allows the user to specify a -#' minimum number of tested assay endpoints as a requirement for MAD values to -#' be included in the global MAD calculation. For example, suppose the user -#' supplies 10 "burst" assays. The user can choose to require a chemical to be -#' tested in at least 5 of those assays for it's MAD value to be included in -#' the global MAD calculation. Having chemicals with many less "burst" endpoints -#' tested may inflate or deflate the global MAD calculation. By default (values -#' of \code{TRUE} or \code{NULL}), \code{tcplCytoPt} requires a chemical to be -#' tested in at least 80\% of the given "burst" assays. The user can also -#' provide 'min.test' values of \code{FALSE} (indicating to include all MAD -#' values), or a number (indicating a specific number of endpoints). -#' -#' Chemicals without at least 2 active "burst" assays do not have a MAD value, -#' and the cytotoxicity point is defined by the 'default.pt' parameter. The -#' default value for 'default.pt' is 3. -#' -#' The resulting data.table has the following fields: -#' \enumerate{ -#' \item "chid" -- The chemical ID. -#' \item "code" -- The chemcial code. -#' \item "chnm" -- The chemical name. -#' \item "casn" -- The chemical CASRN. -#' \item "med" -- The median of the "burst" endpoint log(AC50) ("modl_ga" in -#' the level 5 output) values. -#' \item "mad" -- The MAD of the "burst" endpoint log(AC50) values. -#' \item "ntst" -- The number of "burst" endpoints tested. -#' \item "nhit" -- The number of acive "burst" endpoints. -#' \item "use_global_mad" -- TRUE/FALSE, whether the mad value was used in the -#' global MAD calculation. -#' \item "global_mad" -- The median of the "mad" values where "use_global_mad" -#' is TRUE. -#' \item "cyto_pt" -- The cytotoxicity point, or the value in "med" when -#' "nhit" is at least 2. -#' \item "cyto_pt_um" -- \eqn{10^\mathit{cyto\_pt}}{10^cyto_pt} -#' \item "lower_bnd_um" -- \eqn{10^{\mathit{cyto\_pt} - 3\mathit{global\_mad}}}{10^(cyto_pt - 3*global_mad)} -#' } -#' -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## Load the "burst" endpoints -- none are defined in the example dataset -#' tcplLoadAeid(fld = "burst_assay", val = 1) -#' -#' ## Calculate the cytotoxicity distributions using both example endpoints -#' tcplCytoPt(aeid = 1:2) -#' -#' ## The above example does not calculate a global MAD, because no chemical -#' ## hit both endpoints. (This makes sense, because both endpoints are -#' ## derived from one component, where one endpoint is acitivity in the -#' ## up direction, and the other is acitivty in the down direction.) -#' ## Note, the cyto_pt is also 3 for all chemicals, because the function -#' ## requires at least two endpoints to calculate a cytotoxicity point. If -#' ## the user wishes to use one assay, this function is not necessary. -#' -#' ## Changing 'default.pt' will change cyto_pt in the resulting data.table -#' tcplCytoPt(aeid = 1:2, default.pt = 6) -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @return A data.table with the cytotoxicity distribution for each chemical. -#' The definition of the field names are listed under "details." -#' -#' @import data.table -#' @export - -tcplCytoPt <- function(chid = NULL, aeid = NULL, flag = TRUE, - min.test = TRUE, default.pt = 3) { - - ## Variable-binding to pass R CMD Check - modl_ga <- hitc <- code <- chnm <- casn <- use_global_mad <- nhit <- NULL - ntst <- global_mad <- cyto_pt <- med <- cyto_pt_um <- lower_bnd_um <- NULL - - if (!is.null(aeid) & !is.vector(aeid)) { - stop("'aeid' must be NULL or a vector.") - } - - if (!is.null(chid) & !is.vector(chid)) { - stop("'chid' must be NULL or a vector.") - } - - mt_type <- (is.numeric(min.test) | is.null(min.test) | is.logical(min.test)) - if (!(length(min.test) == 1 & mt_type)) { - stop("Invalid 'min.test' input. See details.") - } - - if (is.null(aeid)) { - ae <- suppressWarnings(tcplLoadAeid("burst_assay", 1)$aeid) - } else { - ae <- aeid - } - - if (length(ae) == 0) stop("No burst assays defined.") - - if (is.null(min.test)) { - min.test <- TRUE - warning("'min.test' input was NULL and interpreted as TRUE.") - } - - if (min.test) { - mtst <- if (is.logical(min.test)) floor(0.8 * length(ae)) else min.test - } else { - mtst <- 0 - } - - zdat <- tcplLoadData(lvl = 5L, fld = "aeid", val = ae, type = "mc") - zdat <- tcplPrepOtpt(dat = zdat) - - if (!is.null(chid)) {ch <- chid; zdat <- zdat[chid %in% ch]} - - zdat <- tcplSubsetChid(dat = zdat, flag = flag) - - zdst <- zdat[ , - list(med = median(modl_ga[hitc == 1]), - mad = mad(modl_ga[hitc == 1]), - ntst = .N, - nhit = lw(hitc == 1)), - by = list(chid, code, chnm, casn)] - zdst[ , use_global_mad := nhit > 1 & ntst > mtst] - zdst[ , global_mad := median(mad[use_global_mad])] - zdst[ , cyto_pt := med] - zdst[nhit < 2, cyto_pt := default.pt] - zdst[ , cyto_pt_um := 10^cyto_pt] - zdst[ , lower_bnd_um := 10^(cyto_pt - 3*global_mad)] - - zdst[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplCytoPt: Calculate the cytotoxicity point based on the "burst assays" +#------------------------------------------------------------------------------- + +#' @title Calculate the cytotoxicity point based on the "burst" endpoints +#' +#' @description +#' \code{tcplCytoPt} calculates the cytotoxicity point and average cytotoxicity +#' distribution based on the acitivty in the "burst" assay endpoints. +#' +#' @param chid Integer, chemical ID values to subset on +#' @param aeid Integer, assay endpoint ID values to override the "burst assay" +#' definitions +#' @param flag Integer, mc6_mthd_id values to be passed to +#' \code{\link{tcplSubsetChid}} +#' @param min.test Integer or Boolean, the number of tested assay endpoints +#' required for a cheimcal to be used in calculating the "global MAD." +#' @param default.pt Numeric of length 1, the default cytotoxicity point value +#' +#' @details +#' \code{tcplCytoPt} provides estimates for chemical-specific cytotoxicity +#' distributions (more information available in the vignette.) Before +#' calculating the cytotoxicity distributions, the level 5 data is subsetted +#' by the \code{\link{tcplSubsetChid}} function. +#' +#' The 'chid' parameter specifies a subset of chemicals to use in the +#' calculations, given by chemical ID (chid). The 'aeid' parameter specifies +#' which assays to use in calculating the cytotoxicity point and distribution. +#' By default \code{tcplCytoPt} will use all available chemicals and the +#' assay endpoints defined by the 'burst_assay' field in the +#' "assay_component_endpoint" table. The examples show how to identify the +#' "burst" endpoints. +#' +#' \code{tcplCytoPt} returns the cytotoxicity point (the AC50 values of the +#' active "burst" endpoints), the corresponding MAD, and the global MAD (median +#' of the calculated MAD values). Not every chemical must be tested in every +#' "burst" endpoint. The 'min.test' parameter allows the user to specify a +#' minimum number of tested assay endpoints as a requirement for MAD values to +#' be included in the global MAD calculation. For example, suppose the user +#' supplies 10 "burst" assays. The user can choose to require a chemical to be +#' tested in at least 5 of those assays for it's MAD value to be included in +#' the global MAD calculation. Having chemicals with many less "burst" endpoints +#' tested may inflate or deflate the global MAD calculation. By default (values +#' of \code{TRUE} or \code{NULL}), \code{tcplCytoPt} requires a chemical to be +#' tested in at least 80\% of the given "burst" assays. The user can also +#' provide 'min.test' values of \code{FALSE} (indicating to include all MAD +#' values), or a number (indicating a specific number of endpoints). +#' +#' Chemicals without at least 2 active "burst" assays do not have a MAD value, +#' and the cytotoxicity point is defined by the 'default.pt' parameter. The +#' default value for 'default.pt' is 3. +#' +#' The resulting data.table has the following fields: +#' \enumerate{ +#' \item "chid" -- The chemical ID. +#' \item "code" -- The chemcial code. +#' \item "chnm" -- The chemical name. +#' \item "casn" -- The chemical CASRN. +#' \item "med" -- The median of the "burst" endpoint log(AC50) ("modl_ga" in +#' the level 5 output) values. +#' \item "mad" -- The MAD of the "burst" endpoint log(AC50) values. +#' \item "ntst" -- The number of "burst" endpoints tested. +#' \item "nhit" -- The number of acive "burst" endpoints. +#' \item "use_global_mad" -- TRUE/FALSE, whether the mad value was used in the +#' global MAD calculation. +#' \item "global_mad" -- The median of the "mad" values where "use_global_mad" +#' is TRUE. +#' \item "cyto_pt" -- The cytotoxicity point, or the value in "med" when +#' "nhit" is at least 2. +#' \item "cyto_pt_um" -- \eqn{10^\mathit{cyto\_pt}}{10^cyto_pt} +#' \item "lower_bnd_um" -- \eqn{10^{\mathit{cyto\_pt} - 3\mathit{global\_mad}}}{10^(cyto_pt - 3*global_mad)} +#' } +#' +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## Load the "burst" endpoints -- none are defined in the example dataset +#' tcplLoadAeid(fld = "burst_assay", val = 1) +#' +#' ## Calculate the cytotoxicity distributions using both example endpoints +#' tcplCytoPt(aeid = 1:2) +#' +#' ## The above example does not calculate a global MAD, because no chemical +#' ## hit both endpoints. (This makes sense, because both endpoints are +#' ## derived from one component, where one endpoint is acitivity in the +#' ## up direction, and the other is acitivty in the down direction.) +#' ## Note, the cyto_pt is also 3 for all chemicals, because the function +#' ## requires at least two endpoints to calculate a cytotoxicity point. If +#' ## the user wishes to use one assay, this function is not necessary. +#' +#' ## Changing 'default.pt' will change cyto_pt in the resulting data.table +#' tcplCytoPt(aeid = 1:2, default.pt = 6) +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @return A data.table with the cytotoxicity distribution for each chemical. +#' The definition of the field names are listed under "details." +#' +#' @import data.table +#' @export + +tcplCytoPt <- function(chid = NULL, aeid = NULL, flag = TRUE, + min.test = TRUE, default.pt = 3) { + + ## Variable-binding to pass R CMD Check + modl_ga <- hitc <- code <- chnm <- casn <- use_global_mad <- nhit <- NULL + ntst <- global_mad <- cyto_pt <- med <- cyto_pt_um <- lower_bnd_um <- NULL + + if (!is.null(aeid) & !is.vector(aeid)) { + stop("'aeid' must be NULL or a vector.") + } + + if (!is.null(chid) & !is.vector(chid)) { + stop("'chid' must be NULL or a vector.") + } + + mt_type <- (is.numeric(min.test) | is.null(min.test) | is.logical(min.test)) + if (!(length(min.test) == 1 & mt_type)) { + stop("Invalid 'min.test' input. See details.") + } + + if (is.null(aeid)) { + ae <- suppressWarnings(tcplLoadAeid("burst_assay", 1)$aeid) + } else { + ae <- aeid + } + + if (length(ae) == 0) stop("No burst assays defined.") + + if (is.null(min.test)) { + min.test <- TRUE + warning("'min.test' input was NULL and interpreted as TRUE.") + } + + if (min.test) { + mtst <- if (is.logical(min.test)) floor(0.8 * length(ae)) else min.test + } else { + mtst <- 0 + } + + zdat <- tcplLoadData(lvl = 5L, fld = "aeid", val = ae, type = "mc") + zdat <- tcplPrepOtpt(dat = zdat) + + if (!is.null(chid)) {ch <- chid; zdat <- zdat[chid %in% ch]} + + zdat <- tcplSubsetChid(dat = zdat, flag = flag) + + zdst <- zdat[ , + list(med = median(modl_ga[hitc == 1]), + mad = mad(modl_ga[hitc == 1]), + ntst = .N, + nhit = lw(hitc == 1)), + by = list(chid, code, chnm, casn)] + zdst[ , use_global_mad := nhit > 1 & ntst > mtst] + zdst[ , global_mad := median(mad[use_global_mad])] + zdst[ , cyto_pt := med] + zdst[nhit < 2, cyto_pt := default.pt] + zdst[ , cyto_pt_um := 10^cyto_pt] + zdst[ , lower_bnd_um := 10^(cyto_pt - 3*global_mad)] + + zdst[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplDelete.R b/R/tcplDelete.R index e8a69a4..8fc5ea5 100644 --- a/R/tcplDelete.R +++ b/R/tcplDelete.R @@ -1,44 +1,44 @@ -#------------------------------------------------------------------------------- -# tcplDelete: Delete rows from tcpl databases -#------------------------------------------------------------------------------- - -#' @title Delete rows from tcpl databases -#' -#' @description -#' \code{tcplDelete} deletes rows from the given table and database. -#' -#' @param tbl Character, length 1, the table to delete from -#' @param fld Character, the field(s) to query on -#' @param val List, vectors of values for each field to query on. Must be in -#' the same order as 'fld'. -#' @param db Character, the database containing the table -#' -#' @note -#' This function is not exported and not intended to be used by the user. -#' -#' @seealso \code{\link{tcplSendQuery}} -#' -#' @import data.table - -tcplDelete <- function(tbl, fld, val, db) { - - # Check for valid inputs - if (length(tbl) != 1 | class(tbl) != "character") { - stop("The input 'tbl' must be a character of length one.") - } - - qformat <- paste("DELETE FROM", tbl, "WHERE") - - qformat <- paste0(qformat, " ", paste(fld, "IN (%s)", collapse = " AND ")) - qformat <- paste0(qformat, ";") - - if (!is.list(val)) val <- list(val) - val <- lapply(val, function(x) paste0("\"", x, "\"", collapse = ",")) - - qstring <- do.call(sprintf, args = c(qformat, val)) - - tcplSendQuery(query = qstring, db = db) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplDelete: Delete rows from tcpl databases +#------------------------------------------------------------------------------- + +#' @title Delete rows from tcpl databases +#' +#' @description +#' \code{tcplDelete} deletes rows from the given table and database. +#' +#' @param tbl Character, length 1, the table to delete from +#' @param fld Character, the field(s) to query on +#' @param val List, vectors of values for each field to query on. Must be in +#' the same order as 'fld'. +#' @param db Character, the database containing the table +#' +#' @note +#' This function is not exported and not intended to be used by the user. +#' +#' @seealso \code{\link{tcplSendQuery}} +#' +#' @import data.table + +tcplDelete <- function(tbl, fld, val, db) { + + # Check for valid inputs + if (length(tbl) != 1 | class(tbl) != "character") { + stop("The input 'tbl' must be a character of length one.") + } + + qformat <- paste("DELETE FROM", tbl, "WHERE") + + qformat <- paste0(qformat, " ", paste(fld, "IN (%s)", collapse = " AND ")) + qformat <- paste0(qformat, ";") + + if (!is.list(val)) val <- list(val) + val <- lapply(val, function(x) paste0("\"", x, "\"", collapse = ",")) + + qstring <- do.call(sprintf, args = c(qformat, val)) + + tcplSendQuery(query = qstring, db = db) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplFit.R b/R/tcplFit.R index faac423..f37b0b9 100644 --- a/R/tcplFit.R +++ b/R/tcplFit.R @@ -1,416 +1,416 @@ -#------------------------------------------------------------------------------- -# tcplFit: Fit the data -#------------------------------------------------------------------------------- - -#' @title Fit the data with the constant, hill, and gain-loss models -#' -#' @description -#' \code{tcplFit} fits the constant, hill, and gain-loss models to the given data -#' and returns some summary statistics and the fit parameters in a list. -#' -#' @param logc Numeric, log concentration values -#' @param resp Numeric, normalized response values -#' @param bmad Numeric, the baseline median absolute deviation for the entire -#' assay -#' @param force.fit Logical, TRUE indicates to attempt fitting every -#' concentration series -#' @param \dots Any other data to be included in list output. -#' -#' @details -#' By default, \code{tcplFit} will only attempt to fit concentration series -#' when at least one median value is greater than 3*bmad. -#' -#' @examples -#' logc <- 1:10 -#' resp <- sapply(1:10, tcplHillVal, ga = 5, tp = 50, gw = 0.5) -#' params <- tcplFit(logc = logc, resp = resp, bmad = 10) -#' plot(resp ~ logc) -#' tcplAddModel(pars = params, modl = "hill") -#' -#' @return List of summary values and fit parameters for the given data. -#' -#' @seealso \code{\link{tcplObjCnst}}, \code{\link{tcplObjHill}}, -#' \code{\link{tcplObjGnls}}, \code{\link{constrOptim}} -#' -#' @importFrom numDeriv hessian -#' @importFrom stats optim constrOptim median mad -#' @importFrom methods is -#' @export - - -tcplFit <- function(logc, resp, bmad, force.fit = FALSE, ...) { - - ## Variable-binding to pass R CMD Check - hill_tp <- hill_ga <- hill_gw <- gnls_ga <- gnls_gw <- gnls_la <- NULL - gnls_lw <- gnls_tp <- hill_tp_sd <- hill_ga_sd <- hill_gw_sd <- NULL - hill_er <- hill_er_sd <- gnls_tp_sd <- gnls_ga_sd <- gnls_gw_sd <- NULL - gnls_la_sd <- gnls_lw_sd <- gnls_er <- gnls_er_sd <- NULL - - fenv <- environment() - - bmad <- min(bmad) - rmns <- tapply(resp, logc, mean) - rmds <- tapply(resp, logc, median) - mmed <- max(rmds) - mmed_conc <- as.numeric(names(which.max(rmds))) - - hprs <- paste0("hill_", c("tp", "ga", "gw", "er")) - hsds <- paste0("hill_", c("tp", "ga", "gw", "er"), "_sd") - gprs <- paste0("gnls_", c("tp", "ga", "gw", "la", "lw", "er")) - gsds <- paste0("gnls_", c("tp", "ga", "gw", "la", "lw", "er"), "_sd") - - resp_max <- max(resp) - resp_min <- min(resp) - logc_med <- median(logc) - logc_min <- min(logc) - logc_max <- max(logc) - - ncnc <- lu(logc) - npts <- length(resp) - nrep <- as.numeric(median(tapply(resp, logc, lu))) # Meidan number replicates - nmed_gtbl <- lw(rmds >= 3 * bmad) # Number of medians above 3 * bmad - - ## Do not fit anything with less than four concentrations of data. - if (length(rmds) >= 4) { - - er_est <- if ((rmad <- mad(resp)) > 0) log(rmad) else log(1e-32) - - ###----------------------- Fit the Constant Model -----------------------### - cfit <- optim(er_est, - tcplObjCnst, - method = "Brent", - lower = er_est - 2, - upper = er_est + 2, - control = list(fnscale = -1, - reltol = 1e-4, - maxit = 500), - resp = resp) - - if (!is(cfit, "try-error")) { - - cnst <- 1L - cnst_er <- cfit$par - caic <- 2 - 2*cfit$value # 2*length(cfit$par) - 2*cfit$value - - ## Calculate the rmse for constant - crme <- sqrt(mean((0 - resp)^2, na.rm = TRUE)) - - } else { - - cnst <- 0L - cnst_er <- NA_real_ - caic <- NA_integer_ - crme <- NA_real_ - - } - - if (lw(rmds >= 3*bmad) > 0 | force.fit) { - - ###------------------------ Fit the Hill Model ------------------------### - ## Starting parameters for the Hill Model - # cind <- (ceiling(length(meds)/2) + 1):length(meds) - h <- c(mmed, # top (tp) - mmed_conc - 1, # logAC50 (ga) - 1.2, # hill coefficient (gw) - er_est) # logSigma (er) - - if (h[1] == 0) h[1] <- 0.1 - - ## Generate the bound matrices to constrain the model. - # tp ga gw er - hUi <- matrix(c( 1, 0, 0, 0, - -1, 0, 0, 0, - 0, 1, 0, 0, - 0, -1, 0, 0, - 0, 0, 1, 0, - 0, 0, -1, 0), - byrow = TRUE, nrow = 6, ncol = 4) - - hbnds <- c(0, -1.2*resp_max, # tp bounds - logc_min - 2, -(logc_max + 0.5), # ga bounds - 0.3, -8) # gw bounds - - hCi <- matrix(hbnds, nrow = 6, ncol = 1) - - ## Optimize the hill model - hfit <- try(constrOptim(h, - tcplObjHill, - ui = hUi, - ci = hCi, - mu = 1e-6, - method = "Nelder-Mead", - control = list(fnscale = -1, - reltol = 1e-10, - maxit = 6000), - lconc = logc, - resp = resp), - silent = TRUE) - - ## Generate some summary statistics - if (!is(hfit, "try-error")) { # Hill model fit the data - - hill <- 1L - haic <- 8 - 2*hfit$value # 2*length(hfit$par) - 2*hfit$value - mapply(assign, - c(hprs), - hfit$par, - MoreArgs = list(envir = fenv)) - - ## Calculate rmse for hill - hill_modl <- hill_tp/(1 + 10^((hill_ga - logc)*hill_gw)) - hrme <- sqrt(mean((hill_modl - resp)^2, na.rm = TRUE)) - - ## Calculate the sd for the hill parameters - hfit$cov <- try(solve(-hessian(tcplObjHill, - hfit$par, - lconc = logc, - resp = resp)), - silent = TRUE) - - if (!is(hfit$cov, "try-error")) { # Could invert hill Hessian - - hcov <- 1L - hdiag_sqrt <- suppressWarnings(sqrt(diag(hfit$cov))) - if (any(is.nan(hdiag_sqrt))) { - mapply(assign, - hsds, - NaN, - MoreArgs = list(envir = fenv)) - } else { - mapply(assign, - hsds, - hdiag_sqrt, - MoreArgs = list(envir = fenv)) - } - - } else { # Could not invert hill Hessian - - hcov <- 0L - mapply(assign, - c(hsds), - NA_real_, - MoreArgs = list(envir = fenv)) - - } - - } else { # Hill model did not fit the data - - hill <- 0L - haic <- NA_real_ - hcov <- NA_integer_ - hrme <- NA_real_ - - mapply(assign, - c(hprs, hsds), - NA_real_, - MoreArgs = list(envir = fenv)) - - } - - ###--------------------- Fit the Gain-Loss Model ----------------------### - ## Starting parameters for the Gain-Loss Model - # cind <- (ceiling(length(meds)/2) + 1):length(meds) - g <- c(mmed, # top (tp) - mmed_conc - 1, # gain logAC50 (ga) - 1.2, # gain hill coefficient (gw) - mmed_conc + 0.1, # loss logAC50 (la) - 5, # loss hill coefficient (lw) - er_est) # logSigma (er) - - if (g[1] == 0) g[1] <- 0.1 - - ## Generate the bound matrices to constrain the model. - # tp ga gw la lw er - gUi <- matrix(c( 1, 0, 0, 0, 0, 0, - -1, 0, 0, 0, 0, 0, - 0, 1, 0, 0, 0, 0, - 0, -1, 0, 0, 0, 0, - 0, 0, 1, 0, 0, 0, - 0, 0, -1 , 0, 0, 0, - 0, 0, 0, 1, 0, 0, - 0, 0, 0, -1, 0, 0, - 0, 0, 0, 0, 1, 0, - 0, 0, 0, 0, -1, 0, - 0, -1, 0, 1, 0, 0), - byrow = TRUE, nrow = 11, ncol = 6) - - gbnds <- c(0, -1.2*resp_max, # tp bounds - logc_min - 2, -(logc_max), # ga bounds - 0.3, -8, # gw bounds - logc_min - 2, -(logc_max + 2), # la bounds - 0.3, -18, # lw bounds - 0.25) # ga < la - - # if (mmed_conc > logc_min) g[7] <- mmed_conc - 0.25 - - gCi <- matrix(gbnds, nrow = 11, ncol = 1) - - ## Optimize the gnls model - gfit <- try(constrOptim(g, - tcplObjGnls, - ui = gUi, - ci = gCi, - mu = 1e-6, - method = "Nelder-Mead", - control = list(fnscale = -1, - reltol = 1e-10, - maxit = 6000), - lconc = logc, - resp = resp), - silent = TRUE) - - ## Generate some summary statistics - if (!is(gfit, "try-error")) { # Gain-loss fit the data - - gnls <- 1L - gaic <- 12 - 2*gfit$value # 2*length(gfit$par) - 2*gfit$value - mapply(assign, - c(gprs), - gfit$par, - MoreArgs = list(envir = fenv)) - - ## Calculate rmse for gnls - gnls_gn <- (1/(1 + 10^((gnls_ga - logc)*gnls_gw))) - gnls_ls <- (1/(1 + 10^((logc - gnls_la)*gnls_lw))) - gnls_modl <- gnls_tp * gnls_gn * gnls_ls - grme <- sqrt(mean((gnls_modl - resp)^2, na.rm = TRUE)) - - ## Calculate the sd for the gnls parameters - gfit$cov <- try(solve(-hessian(tcplObjGnls, - gfit$par, - lconc = logc, - resp = resp)), - silent = TRUE) - - if (!is(gfit$cov, "try-error")) { # Could invert gnls Hessian - - gcov <- 1L - gdiag_sqrt <- suppressWarnings(sqrt(diag(gfit$cov))) - if (any(is.nan(gdiag_sqrt))) { - mapply(assign, - gsds, - NaN, - MoreArgs = list(envir = fenv)) - } else { - mapply(assign, - gsds, - gdiag_sqrt, - MoreArgs = list(envir = fenv)) - } - - } else { # Could not invert gnls Hessian - - gcov <- 0L - mapply(assign, - c(gsds), - NA_real_, - MoreArgs = list(envir = fenv)) - - } - - } else { # Gain-loss did not fit the data - - gnls <- 0L - gaic <- NA_real_ - gcov <- NA_integer_ - grme <- NA_real_ - - mapply(assign, - c(gprs, gsds), - NA_real_, - MoreArgs = list(envir = fenv)) - - } - - } else { # None of the response values fell outside 3*bmad - - hill <- NA_integer_ - haic <- NA_real_ - hcov <- NA_integer_ - hrme <- NA_real_ - gnls <- NA_integer_ - gaic <- NA_real_ - gcov <- NA_integer_ - grme <- NA_real_ - - mapply(assign, - c(hprs, hsds, gprs, gsds), - NA_real_, - MoreArgs = list(envir = fenv)) - - } - - } else { # Data has response data for less than four concentrations. - - cnst <- NA_integer_ - cnst_er <- NA_real_ - caic <- NA_real_ - crme <- NA_real_ - - hill <- NA_integer_ - haic <- NA_real_ - hcov <- NA_integer_ - hrme <- NA_real_ - gnls <- NA_integer_ - gaic <- NA_real_ - gcov <- NA_integer_ - grme <- NA_real_ - - mapply(assign, - c(hprs, hsds, gprs, gsds), - NA_real_, - MoreArgs = list(envir = fenv)) - - } - - out <- list(resp_max = resp_max, - resp_min = resp_min, - max_mean = max(rmns), - max_mean_conc = as.numeric(names(which.max(rmns))), - max_med = mmed, - max_med_conc = mmed_conc, - logc_max = logc_max, - logc_min = logc_min, - cnst = cnst, - hill = hill, - hcov = hcov, - gnls = gnls, - gcov = gcov, - cnst_er = cnst_er, - cnst_aic = caic, - cnst_rmse = crme, - hill_tp = hill_tp, - hill_tp_sd = hill_tp_sd, - hill_ga = hill_ga, - hill_ga_sd = hill_ga_sd, - hill_gw = hill_gw, - hill_gw_sd = hill_gw_sd, - hill_er = hill_er, - hill_er_sd = hill_er_sd, - hill_aic = haic, - hill_rmse = hrme, - gnls_tp = gnls_tp, - gnls_tp_sd = gnls_tp_sd, - gnls_ga = gnls_ga, - gnls_ga_sd = gnls_ga_sd, - gnls_gw = gnls_gw, - gnls_gw_sd = gnls_gw_sd, - gnls_la = gnls_la, - gnls_la_sd = gnls_la_sd, - gnls_lw = gnls_lw, - gnls_lw_sd = gnls_lw_sd, - gnls_er = gnls_er, - gnls_er_sd = gnls_er_sd, - gnls_aic = gaic, - gnls_rmse = grme, - nconc = ncnc, - npts = npts, - nrep = nrep, - nmed_gtbl = nmed_gtbl, - ...) - - out - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplFit: Fit the data +#------------------------------------------------------------------------------- + +#' @title Fit the data with the constant, hill, and gain-loss models +#' +#' @description +#' \code{tcplFit} fits the constant, hill, and gain-loss models to the given data +#' and returns some summary statistics and the fit parameters in a list. +#' +#' @param logc Numeric, log concentration values +#' @param resp Numeric, normalized response values +#' @param bmad Numeric, the baseline median absolute deviation for the entire +#' assay +#' @param force.fit Logical, TRUE indicates to attempt fitting every +#' concentration series +#' @param \dots Any other data to be included in list output. +#' +#' @details +#' By default, \code{tcplFit} will only attempt to fit concentration series +#' when at least one median value is greater than 3*bmad. +#' +#' @examples +#' logc <- 1:10 +#' resp <- sapply(1:10, tcplHillVal, ga = 5, tp = 50, gw = 0.5) +#' params <- tcplFit(logc = logc, resp = resp, bmad = 10) +#' plot(resp ~ logc) +#' tcplAddModel(pars = params, modl = "hill") +#' +#' @return List of summary values and fit parameters for the given data. +#' +#' @seealso \code{\link{tcplObjCnst}}, \code{\link{tcplObjHill}}, +#' \code{\link{tcplObjGnls}}, \code{\link{constrOptim}} +#' +#' @importFrom numDeriv hessian +#' @importFrom stats optim constrOptim median mad +#' @importFrom methods is +#' @export + + +tcplFit <- function(logc, resp, bmad, force.fit = FALSE, ...) { + + ## Variable-binding to pass R CMD Check + hill_tp <- hill_ga <- hill_gw <- gnls_ga <- gnls_gw <- gnls_la <- NULL + gnls_lw <- gnls_tp <- hill_tp_sd <- hill_ga_sd <- hill_gw_sd <- NULL + hill_er <- hill_er_sd <- gnls_tp_sd <- gnls_ga_sd <- gnls_gw_sd <- NULL + gnls_la_sd <- gnls_lw_sd <- gnls_er <- gnls_er_sd <- NULL + + fenv <- environment() + + bmad <- min(bmad) + rmns <- tapply(resp, logc, mean) + rmds <- tapply(resp, logc, median) + mmed <- max(rmds) + mmed_conc <- as.numeric(names(which.max(rmds))) + + hprs <- paste0("hill_", c("tp", "ga", "gw", "er")) + hsds <- paste0("hill_", c("tp", "ga", "gw", "er"), "_sd") + gprs <- paste0("gnls_", c("tp", "ga", "gw", "la", "lw", "er")) + gsds <- paste0("gnls_", c("tp", "ga", "gw", "la", "lw", "er"), "_sd") + + resp_max <- max(resp) + resp_min <- min(resp) + logc_med <- median(logc) + logc_min <- min(logc) + logc_max <- max(logc) + + ncnc <- lu(logc) + npts <- length(resp) + nrep <- as.numeric(median(tapply(resp, logc, lu))) # Meidan number replicates + nmed_gtbl <- lw(rmds >= 3 * bmad) # Number of medians above 3 * bmad + + ## Do not fit anything with less than four concentrations of data. + if (length(rmds) >= 4) { + + er_est <- if ((rmad <- mad(resp)) > 0) log(rmad) else log(1e-32) + + ###----------------------- Fit the Constant Model -----------------------### + cfit <- optim(er_est, + tcplObjCnst, + method = "Brent", + lower = er_est - 2, + upper = er_est + 2, + control = list(fnscale = -1, + reltol = 1e-4, + maxit = 500), + resp = resp) + + if (!is(cfit, "try-error")) { + + cnst <- 1L + cnst_er <- cfit$par + caic <- 2 - 2*cfit$value # 2*length(cfit$par) - 2*cfit$value + + ## Calculate the rmse for constant + crme <- sqrt(mean((0 - resp)^2, na.rm = TRUE)) + + } else { + + cnst <- 0L + cnst_er <- NA_real_ + caic <- NA_integer_ + crme <- NA_real_ + + } + + if (lw(rmds >= 3*bmad) > 0 | force.fit) { + + ###------------------------ Fit the Hill Model ------------------------### + ## Starting parameters for the Hill Model + # cind <- (ceiling(length(meds)/2) + 1):length(meds) + h <- c(mmed, # top (tp) + mmed_conc - 1, # logAC50 (ga) + 1.2, # hill coefficient (gw) + er_est) # logSigma (er) + + if (h[1] == 0) h[1] <- 0.1 + + ## Generate the bound matrices to constrain the model. + # tp ga gw er + hUi <- matrix(c( 1, 0, 0, 0, + -1, 0, 0, 0, + 0, 1, 0, 0, + 0, -1, 0, 0, + 0, 0, 1, 0, + 0, 0, -1, 0), + byrow = TRUE, nrow = 6, ncol = 4) + + hbnds <- c(0, -1.2*resp_max, # tp bounds + logc_min - 2, -(logc_max + 0.5), # ga bounds + 0.3, -8) # gw bounds + + hCi <- matrix(hbnds, nrow = 6, ncol = 1) + + ## Optimize the hill model + hfit <- try(constrOptim(h, + tcplObjHill, + ui = hUi, + ci = hCi, + mu = 1e-6, + method = "Nelder-Mead", + control = list(fnscale = -1, + reltol = 1e-10, + maxit = 6000), + lconc = logc, + resp = resp), + silent = TRUE) + + ## Generate some summary statistics + if (!is(hfit, "try-error")) { # Hill model fit the data + + hill <- 1L + haic <- 8 - 2*hfit$value # 2*length(hfit$par) - 2*hfit$value + mapply(assign, + c(hprs), + hfit$par, + MoreArgs = list(envir = fenv)) + + ## Calculate rmse for hill + hill_modl <- hill_tp/(1 + 10^((hill_ga - logc)*hill_gw)) + hrme <- sqrt(mean((hill_modl - resp)^2, na.rm = TRUE)) + + ## Calculate the sd for the hill parameters + hfit$cov <- try(solve(-hessian(tcplObjHill, + hfit$par, + lconc = logc, + resp = resp)), + silent = TRUE) + + if (!is(hfit$cov, "try-error")) { # Could invert hill Hessian + + hcov <- 1L + hdiag_sqrt <- suppressWarnings(sqrt(diag(hfit$cov))) + if (any(is.nan(hdiag_sqrt))) { + mapply(assign, + hsds, + NaN, + MoreArgs = list(envir = fenv)) + } else { + mapply(assign, + hsds, + hdiag_sqrt, + MoreArgs = list(envir = fenv)) + } + + } else { # Could not invert hill Hessian + + hcov <- 0L + mapply(assign, + c(hsds), + NA_real_, + MoreArgs = list(envir = fenv)) + + } + + } else { # Hill model did not fit the data + + hill <- 0L + haic <- NA_real_ + hcov <- NA_integer_ + hrme <- NA_real_ + + mapply(assign, + c(hprs, hsds), + NA_real_, + MoreArgs = list(envir = fenv)) + + } + + ###--------------------- Fit the Gain-Loss Model ----------------------### + ## Starting parameters for the Gain-Loss Model + # cind <- (ceiling(length(meds)/2) + 1):length(meds) + g <- c(mmed, # top (tp) + mmed_conc - 1, # gain logAC50 (ga) + 1.2, # gain hill coefficient (gw) + mmed_conc + 0.1, # loss logAC50 (la) + 5, # loss hill coefficient (lw) + er_est) # logSigma (er) + + if (g[1] == 0) g[1] <- 0.1 + + ## Generate the bound matrices to constrain the model. + # tp ga gw la lw er + gUi <- matrix(c( 1, 0, 0, 0, 0, 0, + -1, 0, 0, 0, 0, 0, + 0, 1, 0, 0, 0, 0, + 0, -1, 0, 0, 0, 0, + 0, 0, 1, 0, 0, 0, + 0, 0, -1 , 0, 0, 0, + 0, 0, 0, 1, 0, 0, + 0, 0, 0, -1, 0, 0, + 0, 0, 0, 0, 1, 0, + 0, 0, 0, 0, -1, 0, + 0, -1, 0, 1, 0, 0), + byrow = TRUE, nrow = 11, ncol = 6) + + gbnds <- c(0, -1.2*resp_max, # tp bounds + logc_min - 2, -(logc_max), # ga bounds + 0.3, -8, # gw bounds + logc_min - 2, -(logc_max + 2), # la bounds + 0.3, -18, # lw bounds + 0.25) # ga < la + + # if (mmed_conc > logc_min) g[7] <- mmed_conc - 0.25 + + gCi <- matrix(gbnds, nrow = 11, ncol = 1) + + ## Optimize the gnls model + gfit <- try(constrOptim(g, + tcplObjGnls, + ui = gUi, + ci = gCi, + mu = 1e-6, + method = "Nelder-Mead", + control = list(fnscale = -1, + reltol = 1e-10, + maxit = 6000), + lconc = logc, + resp = resp), + silent = TRUE) + + ## Generate some summary statistics + if (!is(gfit, "try-error")) { # Gain-loss fit the data + + gnls <- 1L + gaic <- 12 - 2*gfit$value # 2*length(gfit$par) - 2*gfit$value + mapply(assign, + c(gprs), + gfit$par, + MoreArgs = list(envir = fenv)) + + ## Calculate rmse for gnls + gnls_gn <- (1/(1 + 10^((gnls_ga - logc)*gnls_gw))) + gnls_ls <- (1/(1 + 10^((logc - gnls_la)*gnls_lw))) + gnls_modl <- gnls_tp * gnls_gn * gnls_ls + grme <- sqrt(mean((gnls_modl - resp)^2, na.rm = TRUE)) + + ## Calculate the sd for the gnls parameters + gfit$cov <- try(solve(-hessian(tcplObjGnls, + gfit$par, + lconc = logc, + resp = resp)), + silent = TRUE) + + if (!is(gfit$cov, "try-error")) { # Could invert gnls Hessian + + gcov <- 1L + gdiag_sqrt <- suppressWarnings(sqrt(diag(gfit$cov))) + if (any(is.nan(gdiag_sqrt))) { + mapply(assign, + gsds, + NaN, + MoreArgs = list(envir = fenv)) + } else { + mapply(assign, + gsds, + gdiag_sqrt, + MoreArgs = list(envir = fenv)) + } + + } else { # Could not invert gnls Hessian + + gcov <- 0L + mapply(assign, + c(gsds), + NA_real_, + MoreArgs = list(envir = fenv)) + + } + + } else { # Gain-loss did not fit the data + + gnls <- 0L + gaic <- NA_real_ + gcov <- NA_integer_ + grme <- NA_real_ + + mapply(assign, + c(gprs, gsds), + NA_real_, + MoreArgs = list(envir = fenv)) + + } + + } else { # None of the response values fell outside 3*bmad + + hill <- NA_integer_ + haic <- NA_real_ + hcov <- NA_integer_ + hrme <- NA_real_ + gnls <- NA_integer_ + gaic <- NA_real_ + gcov <- NA_integer_ + grme <- NA_real_ + + mapply(assign, + c(hprs, hsds, gprs, gsds), + NA_real_, + MoreArgs = list(envir = fenv)) + + } + + } else { # Data has response data for less than four concentrations. + + cnst <- NA_integer_ + cnst_er <- NA_real_ + caic <- NA_real_ + crme <- NA_real_ + + hill <- NA_integer_ + haic <- NA_real_ + hcov <- NA_integer_ + hrme <- NA_real_ + gnls <- NA_integer_ + gaic <- NA_real_ + gcov <- NA_integer_ + grme <- NA_real_ + + mapply(assign, + c(hprs, hsds, gprs, gsds), + NA_real_, + MoreArgs = list(envir = fenv)) + + } + + out <- list(resp_max = resp_max, + resp_min = resp_min, + max_mean = max(rmns), + max_mean_conc = as.numeric(names(which.max(rmns))), + max_med = mmed, + max_med_conc = mmed_conc, + logc_max = logc_max, + logc_min = logc_min, + cnst = cnst, + hill = hill, + hcov = hcov, + gnls = gnls, + gcov = gcov, + cnst_er = cnst_er, + cnst_aic = caic, + cnst_rmse = crme, + hill_tp = hill_tp, + hill_tp_sd = hill_tp_sd, + hill_ga = hill_ga, + hill_ga_sd = hill_ga_sd, + hill_gw = hill_gw, + hill_gw_sd = hill_gw_sd, + hill_er = hill_er, + hill_er_sd = hill_er_sd, + hill_aic = haic, + hill_rmse = hrme, + gnls_tp = gnls_tp, + gnls_tp_sd = gnls_tp_sd, + gnls_ga = gnls_ga, + gnls_ga_sd = gnls_ga_sd, + gnls_gw = gnls_gw, + gnls_gw_sd = gnls_gw_sd, + gnls_la = gnls_la, + gnls_la_sd = gnls_la_sd, + gnls_lw = gnls_lw, + gnls_lw_sd = gnls_lw_sd, + gnls_er = gnls_er, + gnls_er_sd = gnls_er_sd, + gnls_aic = gaic, + gnls_rmse = grme, + nconc = ncnc, + npts = npts, + nrep = nrep, + nmed_gtbl = nmed_gtbl, + ...) + + out + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplHillACXX.R b/R/tcplHillACXX.R index 27103de..3e40a0e 100644 --- a/R/tcplHillACXX.R +++ b/R/tcplHillACXX.R @@ -1,15 +1,15 @@ -#------------------------------------------------------------------------------- -# tcplHillACXX: Calculate the concentration for a given activity level -#------------------------------------------------------------------------------- - -#' @rdname hill_utils -#' @export - -tcplHillACXX <- function(XX, tp, ga, gw, bt = 0) { - - y <- tp * XX/100 - ga - log10((tp - bt)/(y - bt) - 1)/gw - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplHillACXX: Calculate the concentration for a given activity level +#------------------------------------------------------------------------------- + +#' @rdname hill_utils +#' @export + +tcplHillACXX <- function(XX, tp, ga, gw, bt = 0) { + + y <- tp * XX/100 + ga - log10((tp - bt)/(y - bt) - 1)/gw + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplHillConc.R b/R/tcplHillConc.R index 11d1197..4698340 100644 --- a/R/tcplHillConc.R +++ b/R/tcplHillConc.R @@ -1,14 +1,14 @@ -#------------------------------------------------------------------------------- -# tcplHillConc: Calculate the concentration for a given value -#------------------------------------------------------------------------------- - -#' @rdname hill_utils -#' @export - -tcplHillConc <- function(val, tp, ga, gw, bt = 0) { - - ga - log10((tp - bt)/(val - bt) - 1)/gw - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplHillConc: Calculate the concentration for a given value +#------------------------------------------------------------------------------- + +#' @rdname hill_utils +#' @export + +tcplHillConc <- function(val, tp, ga, gw, bt = 0) { + + ga - log10((tp - bt)/(val - bt) - 1)/gw + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplHillVal.R b/R/tcplHillVal.R index db06ce9..5e52961 100644 --- a/R/tcplHillVal.R +++ b/R/tcplHillVal.R @@ -1,14 +1,14 @@ -#------------------------------------------------------------------------------- -# tcplHillVal: Calculate the value for a given concentration -#------------------------------------------------------------------------------- - -#' @rdname hill_utils -#' @export - -tcplHillVal <- function(logc, tp, ga, gw, bt = 0) { - - bt + (tp - bt)/(1 + 10^((ga - logc)*gw)) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplHillVal: Calculate the value for a given concentration +#------------------------------------------------------------------------------- + +#' @rdname hill_utils +#' @export + +tcplHillVal <- function(logc, tp, ga, gw, bt = 0) { + + bt + (tp - bt)/(1 + 10^((ga - logc)*gw)) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplListFlds.R b/R/tcplListFlds.R index 02ec01a..6fe942f 100644 --- a/R/tcplListFlds.R +++ b/R/tcplListFlds.R @@ -1,66 +1,66 @@ -#------------------------------------------------------------------------------- -# tcplListFlds: Load the column/field names from the given table and database -#------------------------------------------------------------------------------- - -#' @title Load the field names for a table -#' @description -#' \code{tcplListFlds} loads the column names for the given table and database. -#' -#' @param tbl Character of length 1, the tcpl database table -#' @param db Character of length 1, the tcpl database -#' -#' @details -#' This function can be particularly useful in defining the 'fld' param in the -#' tcplLoad- functions. -#' -#' @examples -#' ## Gives the fields in the mc1 table -#' tcplListFlds("mc1") -#' -#' @return A string of field names for the given table. -#' -#' @import data.table -#' @export - - -tcplListFlds <- function(tbl, db = getOption("TCPL_DB")) { - - ## Variable-binding to pass R CMD Check - name <- COLUMN_NAME <- NULL - - if (length(tbl) > 1 | length(db) > 1) { - stop("tbl and db must both be of length 1.") - } - - if (getOption("TCPL_DRVR") == "SQLite") { - - qformat <- "PRAGMA table_info(%s);" - qstring <- sprintf(qformat, tbl) - return(tcplQuery(qstring, db)[ , name]) - - } - - if (getOption("TCPL_DRVR") == "MySQL") { - - qformat <- - " - SELECT - `COLUMN_NAME` - FROM - `INFORMATION_SCHEMA`.`COLUMNS` - WHERE - `TABLE_SCHEMA` = '%s' - AND - `TABLE_NAME` = '%s'; - " - - return(tcplQuery(sprintf(qformat, db, tbl), db)[ , COLUMN_NAME]) - - } - - stop(getOption("TCPL_DRVR"), " is not a supported database system. See ", - "?tcplConf for more details.") - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplListFlds: Load the column/field names from the given table and database +#------------------------------------------------------------------------------- + +#' @title Load the field names for a table +#' @description +#' \code{tcplListFlds} loads the column names for the given table and database. +#' +#' @param tbl Character of length 1, the tcpl database table +#' @param db Character of length 1, the tcpl database +#' +#' @details +#' This function can be particularly useful in defining the 'fld' param in the +#' tcplLoad- functions. +#' +#' @examples +#' ## Gives the fields in the mc1 table +#' tcplListFlds("mc1") +#' +#' @return A string of field names for the given table. +#' +#' @import data.table +#' @export + + +tcplListFlds <- function(tbl, db = getOption("TCPL_DB")) { + + ## Variable-binding to pass R CMD Check + name <- COLUMN_NAME <- NULL + + if (length(tbl) > 1 | length(db) > 1) { + stop("tbl and db must both be of length 1.") + } + + if (getOption("TCPL_DRVR") == "SQLite") { + + qformat <- "PRAGMA table_info(%s);" + qstring <- sprintf(qformat, tbl) + return(tcplQuery(qstring, db)[ , name]) + + } + + if (getOption("TCPL_DRVR") == "MySQL") { + + qformat <- + " + SELECT + `COLUMN_NAME` + FROM + `INFORMATION_SCHEMA`.`COLUMNS` + WHERE + `TABLE_SCHEMA` = '%s' + AND + `TABLE_NAME` = '%s'; + " + + return(tcplQuery(sprintf(qformat, db, tbl), db)[ , COLUMN_NAME]) + + } + + stop(getOption("TCPL_DRVR"), " is not a supported database system. See ", + "?tcplConf for more details.") + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplLoadAcid.R b/R/tcplLoadAcid.R index 141780d..f492fb7 100644 --- a/R/tcplLoadAcid.R +++ b/R/tcplLoadAcid.R @@ -1,26 +1,26 @@ -#------------------------------------------------------------------------------- -# tcplLoadAcid: Load assay component id and name for the given fields -#------------------------------------------------------------------------------- - -#' @rdname assay_funcs -#' @import data.table -#' @export - -tcplLoadAcid <- function(fld = NULL, val = NULL, add.fld = NULL) { - - out <- c("assay_component.acid", - "assay_component.assay_component_name") - - qstring <- .buildAssayQ(out = out, - tblo = c(1, 2, 4, 6, 3), - fld = fld, - val = val, - add.fld = add.fld) - - dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - - dat[] - -} - +#------------------------------------------------------------------------------- +# tcplLoadAcid: Load assay component id and name for the given fields +#------------------------------------------------------------------------------- + +#' @rdname assay_funcs +#' @import data.table +#' @export + +tcplLoadAcid <- function(fld = NULL, val = NULL, add.fld = NULL) { + + out <- c("assay_component.acid", + "assay_component.assay_component_name") + + qstring <- .buildAssayQ(out = out, + tblo = c(1, 2, 4, 6, 3), + fld = fld, + val = val, + add.fld = add.fld) + + dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + + dat[] + +} + #------------------------------------------------------------------------------- \ No newline at end of file diff --git a/R/tcplLoadAeid.R b/R/tcplLoadAeid.R index 5b62c36..33845f5 100644 --- a/R/tcplLoadAeid.R +++ b/R/tcplLoadAeid.R @@ -1,26 +1,26 @@ -#------------------------------------------------------------------------------- -# tcplLoadAeid: Load assay endpoint id and name for the given fields -#------------------------------------------------------------------------------- - -#' @rdname assay_funcs -#' @import data.table -#' @export - -tcplLoadAeid <- function(fld = NULL, val = NULL, add.fld = NULL) { - - out <- c("assay_component_endpoint.aeid", - "assay_component_endpoint.assay_component_endpoint_name") - - qstring <- .buildAssayQ(out = out, - tblo = c(1, 2, 4, 3, 6), - fld = fld, - val = val, - add.fld = add.fld) - - dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplLoadAeid: Load assay endpoint id and name for the given fields +#------------------------------------------------------------------------------- + +#' @rdname assay_funcs +#' @import data.table +#' @export + +tcplLoadAeid <- function(fld = NULL, val = NULL, add.fld = NULL) { + + out <- c("assay_component_endpoint.aeid", + "assay_component_endpoint.assay_component_endpoint_name") + + qstring <- .buildAssayQ(out = out, + tblo = c(1, 2, 4, 3, 6), + fld = fld, + val = val, + add.fld = add.fld) + + dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplLoadAid.R b/R/tcplLoadAid.R index 1a601c7..a463998 100644 --- a/R/tcplLoadAid.R +++ b/R/tcplLoadAid.R @@ -1,26 +1,26 @@ -#------------------------------------------------------------------------------- -# tcplLoadAid: Load assay id and name for the given fields -#------------------------------------------------------------------------------- - -#' @rdname assay_funcs -#' @import data.table -#' @export - -tcplLoadAid <- function(fld = NULL, val = NULL, add.fld = NULL) { - - out <- c("assay.aid", - "assay.assay_name") - - qstring <- .buildAssayQ(out = out, - tblo = c(6, 1, 4, 3, 2), - fld = fld, - val = val, - add.fld = add.fld) - - dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - - dat[] - -} - +#------------------------------------------------------------------------------- +# tcplLoadAid: Load assay id and name for the given fields +#------------------------------------------------------------------------------- + +#' @rdname assay_funcs +#' @import data.table +#' @export + +tcplLoadAid <- function(fld = NULL, val = NULL, add.fld = NULL) { + + out <- c("assay.aid", + "assay.assay_name") + + qstring <- .buildAssayQ(out = out, + tblo = c(6, 1, 4, 3, 2), + fld = fld, + val = val, + add.fld = add.fld) + + dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + + dat[] + +} + #------------------------------------------------------------------------------- \ No newline at end of file diff --git a/R/tcplLoadAsid.R b/R/tcplLoadAsid.R index 7699496..9401ff0 100644 --- a/R/tcplLoadAsid.R +++ b/R/tcplLoadAsid.R @@ -1,26 +1,26 @@ -#------------------------------------------------------------------------------- -# tcplLoadAsid: Load assay source id and name for the given fields -#------------------------------------------------------------------------------- - -#' @rdname assay_funcs -#' @import data.table -#' @export - -tcplLoadAsid <- function(fld = NULL, val = NULL, add.fld = NULL) { - - out <- c("assay_source.asid", - "assay_source.assay_source_name") - - qstring <- .buildAssayQ(out = out, - tblo = c(6, 4:1), - fld = fld, - val = val, - add.fld = add.fld) - - dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - - dat[] - -} - +#------------------------------------------------------------------------------- +# tcplLoadAsid: Load assay source id and name for the given fields +#------------------------------------------------------------------------------- + +#' @rdname assay_funcs +#' @import data.table +#' @export + +tcplLoadAsid <- function(fld = NULL, val = NULL, add.fld = NULL) { + + out <- c("assay_source.asid", + "assay_source.assay_source_name") + + qstring <- .buildAssayQ(out = out, + tblo = c(6, 4:1), + fld = fld, + val = val, + add.fld = add.fld) + + dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + + dat[] + +} + #------------------------------------------------------------------------------- \ No newline at end of file diff --git a/R/tcplLoadChem.R b/R/tcplLoadChem.R index 24ad2a2..2441eb5 100644 --- a/R/tcplLoadChem.R +++ b/R/tcplLoadChem.R @@ -1,91 +1,91 @@ -#------------------------------------------------------------------------------- -# tcplLoadChem: Load sample/chemical information -#------------------------------------------------------------------------------- - -#' @title Load sample/chemical information -#' -#' @description -#' \code{tcplLoadChem} queries the tcpl database and returns the chemcial -#' information for the given field and values. -#' -#' @param field Character of length 1, the field to query on -#' @param val Vector of values to subset on -#' @param exact Logical, should chemical names be considered exact? -#' @param include.spid Logical, should spid be included? -#' -#' @details -#' The 'field' parameter is named differently from the 'fld' parameter seen -#' in other functions because it only takes one input. -#' -#' The functionality of the 'exact' parameter cannot be demonstrated within -#' the SQLite environment. However, in the MySQL environment the user should -#' be able to give parital chemcial name strings, to find chemicals with -#' similar names. For example, setting 'val' to "phenol" when 'field' is "chnm" -#' and 'exact' is \code{FALSE} might pull up the chemicals "Bisphenol A" and -#' "4-Butylphenol". More technically, setting 'exact' to \code{FALSE} passes -#' the string in 'val' to an RLIKE statement within the MySQL query. -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## Passing no parameters gives all of the registered chemicals with their -#' ## sample IDs -#' tcplLoadChem() -#' -#' ## Or the user can exclude spid and get a unique list of chemicals -#' tcplLoadChem(include.spid = FALSE) -#' -#' ## Other examples: -#' tcplLoadChem(field = "chnm", val = "Bisphenol A") -#' tcplLoadChem(field = "chid", val = 1:5) -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @return A data.table with the chemical information for the given parameters -#' -#' @import data.table -#' @export - -tcplLoadChem <- function(field = NULL, val = NULL, exact = TRUE, - include.spid = TRUE) { - - ## Variable-binding to pass R CMD Check - code <- casn <- chid <- chnm <- NULL - - if (!is.null(field)) { - vfield <- c("chid", "spid", "chnm", "casn", "code") - if (!field %in% vfield) stop("Invalid 'field' value.") - } - - if (getOption("TCPL_DRVR") == "SQLite") { - if (!exact) warning("The exact = FALSE option is not supported in SQLite.") - exact <- TRUE - } - - qstring <- .ChemQ(field = field, val = val, exact = exact) - - dat <- tcplQuery(query = qstring) - - if (nrow(dat) == 0) { - warning("The given ", field,"(s) are not in the tcpl database.") - return(dat[]) - } - - dat[ , code := NA_character_] - dat[!is.na(casn) , code := paste0("C", gsub("-|_", "", casn))] - dat[ , chid := as.integer(chid)] - dat <- unique(dat) - - if (include.spid) return (dat) - - dat <- unique(dat[ , list(chid, chnm, casn, code)]) - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplLoadChem: Load sample/chemical information +#------------------------------------------------------------------------------- + +#' @title Load sample/chemical information +#' +#' @description +#' \code{tcplLoadChem} queries the tcpl database and returns the chemcial +#' information for the given field and values. +#' +#' @param field Character of length 1, the field to query on +#' @param val Vector of values to subset on +#' @param exact Logical, should chemical names be considered exact? +#' @param include.spid Logical, should spid be included? +#' +#' @details +#' The 'field' parameter is named differently from the 'fld' parameter seen +#' in other functions because it only takes one input. +#' +#' The functionality of the 'exact' parameter cannot be demonstrated within +#' the SQLite environment. However, in the MySQL environment the user should +#' be able to give parital chemcial name strings, to find chemicals with +#' similar names. For example, setting 'val' to "phenol" when 'field' is "chnm" +#' and 'exact' is \code{FALSE} might pull up the chemicals "Bisphenol A" and +#' "4-Butylphenol". More technically, setting 'exact' to \code{FALSE} passes +#' the string in 'val' to an RLIKE statement within the MySQL query. +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## Passing no parameters gives all of the registered chemicals with their +#' ## sample IDs +#' tcplLoadChem() +#' +#' ## Or the user can exclude spid and get a unique list of chemicals +#' tcplLoadChem(include.spid = FALSE) +#' +#' ## Other examples: +#' tcplLoadChem(field = "chnm", val = "Bisphenol A") +#' tcplLoadChem(field = "chid", val = 1:5) +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @return A data.table with the chemical information for the given parameters +#' +#' @import data.table +#' @export + +tcplLoadChem <- function(field = NULL, val = NULL, exact = TRUE, + include.spid = TRUE) { + + ## Variable-binding to pass R CMD Check + code <- casn <- chid <- chnm <- NULL + + if (!is.null(field)) { + vfield <- c("chid", "spid", "chnm", "casn", "code") + if (!field %in% vfield) stop("Invalid 'field' value.") + } + + if (getOption("TCPL_DRVR") == "SQLite") { + if (!exact) warning("The exact = FALSE option is not supported in SQLite.") + exact <- TRUE + } + + qstring <- .ChemQ(field = field, val = val, exact = exact) + + dat <- tcplQuery(query = qstring) + + if (nrow(dat) == 0) { + warning("The given ", field,"(s) are not in the tcpl database.") + return(dat[]) + } + + dat[ , code := NA_character_] + dat[!is.na(casn) , code := paste0("C", gsub("-|_", "", casn))] + dat[ , chid := as.integer(chid)] + dat <- unique(dat) + + if (include.spid) return (dat) + + dat <- unique(dat[ , list(chid, chnm, casn, code)]) + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplLoadClib.R b/R/tcplLoadClib.R index fdc10c2..cd95ba0 100644 --- a/R/tcplLoadClib.R +++ b/R/tcplLoadClib.R @@ -1,86 +1,86 @@ -#------------------------------------------------------------------------------- -# tcplLoadClib: Load chemical library information -#------------------------------------------------------------------------------- - -#' @title Load chemical library information -#' -#' @description -#' \code{tcplLoadClib} queries the tcpl databases and returns information -#' about the chemial library. -#' -#' @param field Character of length 1, \code{'chid'} or \code{'clib'}, whether -#' to search by chemical id (chid), or chemical library (clib) -#' @param val The values to query on -#' -#' @details -#' Chemicals are stored in different libraries by chemcial ID. Therefore, it -#' is not possible to delineate samples with the same chemical ID into two -#' distinct chemical libraries. However, it is possible for a chemcial ID to -#' belong to more than one (or no) chemical libraries. -#' -#' When chemicals belong to more than one library, the chemical is listed -#' multiple times (one for each distinct library). -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## Passing no parameters gives all of the chemical ISs that have a chemical -#' ## library registered -#' clib <- tcplLoadClib() -#' -#' ## Notice there are more rows in tcplLoadClib than in tcplLoadChem, -#' ## indicating some chemicals must belong to more than library. -#' chem <- tcplLoadChem(include.spid = FALSE) -#' nrow(chem) -#' nrow(clib) -#' -#' ## It is possible that some chemicals do not have a chemical library -#' ## registered, although this is not the case in the example data. -#' all(chem$chid %in% clib$chid) -#' -#' ## Show the unique chemical libraries -#' clib[ , unique(clib)] -#' -#' ## Specifying a chemical library will not show what other libraries a -#' ## chemical might belong to. -#' tcplLoadClib(field = "clib", val = "other") -#' tcplLoadClib(field = "chid", val = 1:2) -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @return A data.table with the chemical library information for the given -#' parameters. -#' -#' @import data.table -#' @export - -tcplLoadClib <- function(field = NULL, val = NULL) { - - if (!is.null(field)) { - vfield <- c("chid", "clib") - if (!field %in% vfield) stop("Invalid 'field' value.") - } - - qstring <- .ClibQ(field = field, val = val) - - dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - - - if (!is.null(field)) { - - if (nrow(dat) == 0) { - warning("The given ", field,"(s) do not have chemical library assigned.") - return(dat[]) - } - - } - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplLoadClib: Load chemical library information +#------------------------------------------------------------------------------- + +#' @title Load chemical library information +#' +#' @description +#' \code{tcplLoadClib} queries the tcpl databases and returns information +#' about the chemial library. +#' +#' @param field Character of length 1, \code{'chid'} or \code{'clib'}, whether +#' to search by chemical id (chid), or chemical library (clib) +#' @param val The values to query on +#' +#' @details +#' Chemicals are stored in different libraries by chemcial ID. Therefore, it +#' is not possible to delineate samples with the same chemical ID into two +#' distinct chemical libraries. However, it is possible for a chemcial ID to +#' belong to more than one (or no) chemical libraries. +#' +#' When chemicals belong to more than one library, the chemical is listed +#' multiple times (one for each distinct library). +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## Passing no parameters gives all of the chemical ISs that have a chemical +#' ## library registered +#' clib <- tcplLoadClib() +#' +#' ## Notice there are more rows in tcplLoadClib than in tcplLoadChem, +#' ## indicating some chemicals must belong to more than library. +#' chem <- tcplLoadChem(include.spid = FALSE) +#' nrow(chem) +#' nrow(clib) +#' +#' ## It is possible that some chemicals do not have a chemical library +#' ## registered, although this is not the case in the example data. +#' all(chem$chid %in% clib$chid) +#' +#' ## Show the unique chemical libraries +#' clib[ , unique(clib)] +#' +#' ## Specifying a chemical library will not show what other libraries a +#' ## chemical might belong to. +#' tcplLoadClib(field = "clib", val = "other") +#' tcplLoadClib(field = "chid", val = 1:2) +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @return A data.table with the chemical library information for the given +#' parameters. +#' +#' @import data.table +#' @export + +tcplLoadClib <- function(field = NULL, val = NULL) { + + if (!is.null(field)) { + vfield <- c("chid", "clib") + if (!field %in% vfield) stop("Invalid 'field' value.") + } + + qstring <- .ClibQ(field = field, val = val) + + dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + + + if (!is.null(field)) { + + if (nrow(dat) == 0) { + warning("The given ", field,"(s) do not have chemical library assigned.") + return(dat[]) + } + + } + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplLoadData.R b/R/tcplLoadData.R index 7453118..dbef3c8 100644 --- a/R/tcplLoadData.R +++ b/R/tcplLoadData.R @@ -1,525 +1,525 @@ -#------------------------------------------------------------------------------- -# tcplLoadData: Load tcpl data -#------------------------------------------------------------------------------- - -#' @title Load tcpl data -#' -#' @description -#' \code{tcplLoadData} queries the tcpl databases and returns a data.table with -#' data for the given level and data type. -#' -#' @param lvl Integer of length 1, the level of data to load -#' @param type Character of length 1, the data type, "sc" or "mc" -#' @param fld Character, the field(s) to query on -#' @param val List, vectors of values for each field to query on. Must be in -#' the same order as 'fld'. -#' -#' @details -#' The data type can be either 'mc' for mutliple concentration data, or 'sc' -#' for single concentration data. Multiple concentration data will be loaded -#' into the 'mc' tables, whereas the single concentration will be loaded into -#' the 'sc' tables. -#' -#' Setting 'lvl' to "agg" will return an aggregate table containing the m4id -#' with the concentration-response data and m3id to map back to well-level -#' information. -#' -#' Leaving \code{fld} NULL will return all data. -#' -#' Valid \code{fld} inputs are based on the data level and type: -#' \tabular{ccl}{ -#' type \tab lvl \tab Queried tables \cr -#' sc \tab 0 \tab sc0 \cr -#' sc \tab 1 \tab sc0, sc1 \cr -#' sc \tab agg \tab sc1, sc2_agg \cr -#' sc \tab 2 \tab sc2 \cr -#' mc \tab 0 \tab mc0 \cr -#' mc \tab 1 \tab mc0, mc1 \cr -#' mc \tab 2 \tab mc0, mc1, mc2 \cr -#' mc \tab 3 \tab mc0, mc1, mc3 \cr -#' mc \tab agg \tab mc3, mc4_agg \cr -#' mc \tab 4 \tab mc4 \cr -#' mc \tab 5 \tab mc4, mc5 \cr -#' mc \tab 6 \tab mc4, mc6 -#' } -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## Load all of level 0 for multiple-concentration data, note 'mc' is the -#' ## default value for type -#' tcplLoadData(lvl = 0) -#' -#' ## Load all of level 1 for single-concentration -#' tcplLoadData(lvl = 1, type = "sc") -#' -#' ## List the fields available for level 1, coming from tables mc0 and mc1 -#' tcplListFlds(tbl = "mc0") -#' tcplListFlds(tbl = "mc1") -#' -#' ## Load level 0 data where the well type is "t" and the concentration -#' ## index is 3 or 4 -#' tcplLoadData(lvl = 1, fld = c("wllt", "cndx"), val = list("t", c(3:4))) -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @return A data.table containing data for the given fields. -#' -#' @seealso \code{\link{tcplQuery}}, \code{\link{data.table}} -#' -#' @import data.table -#' @export - -tcplLoadData <- function(lvl, fld = NULL, val = NULL, type = "mc") { - - if (length(lvl) > 1 | length(type) > 1) { - stop("'lvl' & 'type' must be of length 1.") - } - - tbls <- NULL - - if (lvl == 0L && type == "mc") { - - tbls <- c("mc0") - - qformat <- - " - SELECT - m0id, - spid, - acid, - apid, - rowi, - coli, - wllt, - wllq, - conc, - rval, - srcf - FROM - mc0 - " - - } - - if (lvl == 0L && type == "sc") { - - tbls <- c("sc0") - - qformat <- - " - SELECT - s0id, - spid, - acid, - apid, - rowi, - coli, - wllt, - wllq, - conc, - rval, - srcf - FROM - sc0 - " - - } - - if (lvl == 1L && type == "mc") { - - tbls <- c("mc0", "mc1") - - qformat <- - " - SELECT - mc1.m0id, - m1id, - spid, - mc1.acid, - apid, - rowi, - coli, - wllt, - wllq, - conc, - rval, - cndx, - repi, - srcf - FROM - mc0, - mc1 - WHERE - mc0.m0id = mc1.m0id - " - - } - - if (lvl == 1L && type == "sc") { - - tbls <- c("sc0", "sc1") - - qformat <- - " - SELECT - sc1.s0id, - s1id, - spid, - sc1.acid, - aeid, - apid, - rowi, - coli, - wllt, - logc, - resp - FROM - sc0, - sc1 - WHERE - sc0.s0id = sc1.s0id - " - - } - - if (lvl == 2L && type == "mc") { - - tbls <- c("mc0", "mc1", "mc2") - - qformat <- - " - SELECT - mc2.m0id, - mc2.m1id, - m2id, - spid, - mc2.acid, - apid, - rowi, - coli, - wllt, - conc, - cval, - cndx, - repi - FROM - mc0, - mc1, - mc2 - WHERE - mc0.m0id = mc1.m0id - AND - mc1.m0id = mc2.m0id - " - - } - - if (lvl == 2L && type == "sc") { - - tbls <- c("sc2") - - qformat <- - " - SELECT - s2id, - spid, - aeid, - bmad, - max_med, - hitc, - coff - FROM - sc2 - " - - } - - if (lvl == "agg" && type == "sc") { - - tbls <- c("sc1", "sc2_agg") - - qformat <- - " - SELECT - sc2_agg.aeid, - sc2_agg.s2id, - sc2_agg.s1id, - sc2_agg.s0id, - logc, - resp - FROM - sc1, - sc2_agg - WHERE - sc1.s1id = sc2_agg.s1id - " - - } - - if (lvl == 3L && type == "mc") { - - tbls <- c("mc0", "mc1", "mc3") - - qformat <- - " - SELECT - mc3.m0id, - mc3.m1id, - mc3.m2id, - m3id, - spid, - aeid, - logc, - resp, - cndx, - wllt, - apid, - rowi, - coli, - repi - FROM - mc0, - mc1, - mc3 - WHERE - mc0.m0id = mc1.m0id - AND - mc1.m0id = mc3.m0id - " - - } - - if (lvl == "agg" && type == "mc") { - - tbls <- c("mc3", "mc4_agg") - - qformat <- - " - SELECT - mc4_agg.aeid, - mc4_agg.m4id, - mc4_agg.m3id, - mc4_agg.m2id, - mc4_agg.m1id, - mc4_agg.m0id, - logc, - resp - FROM - mc3, - mc4_agg - WHERE - mc3.m3id = mc4_agg.m3id - " - - } - - if (lvl == 4L && type == "mc") { - - tbls <- c("mc4") - - qformat <- - " - SELECT - m4id, - aeid, - spid, - bmad, - resp_max, - resp_min, - max_mean, - max_mean_conc, - max_med, - max_med_conc, - logc_max, - logc_min, - cnst, - hill, - hcov, - gnls, - gcov, - cnst_er, - cnst_aic, - cnst_rmse, - cnst_prob, - hill_tp, - hill_tp_sd, - hill_ga, - hill_ga_sd, - hill_gw, - hill_gw_sd, - hill_er, - hill_er_sd, - hill_aic, - hill_rmse, - hill_prob, - gnls_tp, - gnls_tp_sd, - gnls_ga, - gnls_ga_sd, - gnls_gw, - gnls_gw_sd, - gnls_la, - gnls_la_sd, - gnls_lw, - gnls_lw_sd, - gnls_er, - gnls_er_sd, - gnls_aic, - gnls_rmse, - gnls_prob, - nconc, - npts, - nrep, - nmed_gtbl - FROM - mc4 - " - - } - - if (lvl == 5L && type == "mc") { - - tbls <- c("mc4", "mc5") - - qformat <- - " - SELECT - m5id, - mc5.m4id, - mc5.aeid, - spid, - bmad, - resp_max, - resp_min, - max_mean, - max_mean_conc, - max_med, - max_med_conc, - logc_max, - logc_min, - cnst, - hill, - hcov, - gnls, - gcov, - cnst_er, - cnst_aic, - cnst_rmse, - cnst_prob, - hill_tp, - hill_tp_sd, - hill_ga, - hill_ga_sd, - hill_gw, - hill_gw_sd, - hill_er, - hill_er_sd, - hill_aic, - hill_rmse, - hill_prob, - gnls_tp, - gnls_tp_sd, - gnls_ga, - gnls_ga_sd, - gnls_gw, - gnls_gw_sd, - gnls_la, - gnls_la_sd, - gnls_lw, - gnls_lw_sd, - gnls_er, - gnls_er_sd, - gnls_aic, - gnls_rmse, - gnls_prob, - nconc, - npts, - nrep, - nmed_gtbl, - hitc, - modl, - fitc, - coff, - actp, - modl_er, - modl_tp, - modl_ga, - modl_gw, - modl_la, - modl_lw, - modl_rmse, - modl_prob, - modl_acc, - modl_acb, - modl_ac10 - FROM - mc4, - mc5 - WHERE - mc4.m4id = mc5.m4id - " - - } - - if (lvl == 6L && type == "mc") { - - tbls <- c("mc4", "mc6") - - qformat <- - " - SELECT - mc6.aeid, - m6id, - mc6.m4id, - m5id, - spid, - mc6_mthd_id, - flag, - fval, - fval_unit - FROM - mc4, - mc6 - WHERE - mc6.m4id = mc4.m4id - " - - } - - if (is.null(tbls)) stop("Invalid 'lvl' and 'type' combination.") - - if (!is.null(fld)) { - - fld <- .prepField(fld = fld, tbl = tbls, db = getOption("TCPL_DB")) - - wtest <- lvl %in% c(0, 4) | (lvl == 2 & type == "sc") - qformat <- paste(qformat, if (wtest) "WHERE" else "AND") - - qformat <- paste0(qformat, - " ", - paste(fld, "IN (%s)", collapse = " AND ")) - qformat <- paste0(qformat, ";") - - if (!is.list(val)) val <- list(val) - val <- lapply(val, function(x) paste0("\"", x, "\"", collapse = ",")) - - qstring <- do.call(sprintf, args = c(qformat, val)) - - } else { - - qstring <- qformat - - } - - dat <- suppressWarnings(tcplQuery(query = qstring, db = getOption("TCPL_DB"))) - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplLoadData: Load tcpl data +#------------------------------------------------------------------------------- + +#' @title Load tcpl data +#' +#' @description +#' \code{tcplLoadData} queries the tcpl databases and returns a data.table with +#' data for the given level and data type. +#' +#' @param lvl Integer of length 1, the level of data to load +#' @param type Character of length 1, the data type, "sc" or "mc" +#' @param fld Character, the field(s) to query on +#' @param val List, vectors of values for each field to query on. Must be in +#' the same order as 'fld'. +#' +#' @details +#' The data type can be either 'mc' for mutliple concentration data, or 'sc' +#' for single concentration data. Multiple concentration data will be loaded +#' into the 'mc' tables, whereas the single concentration will be loaded into +#' the 'sc' tables. +#' +#' Setting 'lvl' to "agg" will return an aggregate table containing the m4id +#' with the concentration-response data and m3id to map back to well-level +#' information. +#' +#' Leaving \code{fld} NULL will return all data. +#' +#' Valid \code{fld} inputs are based on the data level and type: +#' \tabular{ccl}{ +#' type \tab lvl \tab Queried tables \cr +#' sc \tab 0 \tab sc0 \cr +#' sc \tab 1 \tab sc0, sc1 \cr +#' sc \tab agg \tab sc1, sc2_agg \cr +#' sc \tab 2 \tab sc2 \cr +#' mc \tab 0 \tab mc0 \cr +#' mc \tab 1 \tab mc0, mc1 \cr +#' mc \tab 2 \tab mc0, mc1, mc2 \cr +#' mc \tab 3 \tab mc0, mc1, mc3 \cr +#' mc \tab agg \tab mc3, mc4_agg \cr +#' mc \tab 4 \tab mc4 \cr +#' mc \tab 5 \tab mc4, mc5 \cr +#' mc \tab 6 \tab mc4, mc6 +#' } +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## Load all of level 0 for multiple-concentration data, note 'mc' is the +#' ## default value for type +#' tcplLoadData(lvl = 0) +#' +#' ## Load all of level 1 for single-concentration +#' tcplLoadData(lvl = 1, type = "sc") +#' +#' ## List the fields available for level 1, coming from tables mc0 and mc1 +#' tcplListFlds(tbl = "mc0") +#' tcplListFlds(tbl = "mc1") +#' +#' ## Load level 0 data where the well type is "t" and the concentration +#' ## index is 3 or 4 +#' tcplLoadData(lvl = 1, fld = c("wllt", "cndx"), val = list("t", c(3:4))) +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @return A data.table containing data for the given fields. +#' +#' @seealso \code{\link{tcplQuery}}, \code{\link{data.table}} +#' +#' @import data.table +#' @export + +tcplLoadData <- function(lvl, fld = NULL, val = NULL, type = "mc") { + + if (length(lvl) > 1 | length(type) > 1) { + stop("'lvl' & 'type' must be of length 1.") + } + + tbls <- NULL + + if (lvl == 0L && type == "mc") { + + tbls <- c("mc0") + + qformat <- + " + SELECT + m0id, + spid, + acid, + apid, + rowi, + coli, + wllt, + wllq, + conc, + rval, + srcf + FROM + mc0 + " + + } + + if (lvl == 0L && type == "sc") { + + tbls <- c("sc0") + + qformat <- + " + SELECT + s0id, + spid, + acid, + apid, + rowi, + coli, + wllt, + wllq, + conc, + rval, + srcf + FROM + sc0 + " + + } + + if (lvl == 1L && type == "mc") { + + tbls <- c("mc0", "mc1") + + qformat <- + " + SELECT + mc1.m0id, + m1id, + spid, + mc1.acid, + apid, + rowi, + coli, + wllt, + wllq, + conc, + rval, + cndx, + repi, + srcf + FROM + mc0, + mc1 + WHERE + mc0.m0id = mc1.m0id + " + + } + + if (lvl == 1L && type == "sc") { + + tbls <- c("sc0", "sc1") + + qformat <- + " + SELECT + sc1.s0id, + s1id, + spid, + sc1.acid, + aeid, + apid, + rowi, + coli, + wllt, + logc, + resp + FROM + sc0, + sc1 + WHERE + sc0.s0id = sc1.s0id + " + + } + + if (lvl == 2L && type == "mc") { + + tbls <- c("mc0", "mc1", "mc2") + + qformat <- + " + SELECT + mc2.m0id, + mc2.m1id, + m2id, + spid, + mc2.acid, + apid, + rowi, + coli, + wllt, + conc, + cval, + cndx, + repi + FROM + mc0, + mc1, + mc2 + WHERE + mc0.m0id = mc1.m0id + AND + mc1.m0id = mc2.m0id + " + + } + + if (lvl == 2L && type == "sc") { + + tbls <- c("sc2") + + qformat <- + " + SELECT + s2id, + spid, + aeid, + bmad, + max_med, + hitc, + coff + FROM + sc2 + " + + } + + if (lvl == "agg" && type == "sc") { + + tbls <- c("sc1", "sc2_agg") + + qformat <- + " + SELECT + sc2_agg.aeid, + sc2_agg.s2id, + sc2_agg.s1id, + sc2_agg.s0id, + logc, + resp + FROM + sc1, + sc2_agg + WHERE + sc1.s1id = sc2_agg.s1id + " + + } + + if (lvl == 3L && type == "mc") { + + tbls <- c("mc0", "mc1", "mc3") + + qformat <- + " + SELECT + mc3.m0id, + mc3.m1id, + mc3.m2id, + m3id, + spid, + aeid, + logc, + resp, + cndx, + wllt, + apid, + rowi, + coli, + repi + FROM + mc0, + mc1, + mc3 + WHERE + mc0.m0id = mc1.m0id + AND + mc1.m0id = mc3.m0id + " + + } + + if (lvl == "agg" && type == "mc") { + + tbls <- c("mc3", "mc4_agg") + + qformat <- + " + SELECT + mc4_agg.aeid, + mc4_agg.m4id, + mc4_agg.m3id, + mc4_agg.m2id, + mc4_agg.m1id, + mc4_agg.m0id, + logc, + resp + FROM + mc3, + mc4_agg + WHERE + mc3.m3id = mc4_agg.m3id + " + + } + + if (lvl == 4L && type == "mc") { + + tbls <- c("mc4") + + qformat <- + " + SELECT + m4id, + aeid, + spid, + bmad, + resp_max, + resp_min, + max_mean, + max_mean_conc, + max_med, + max_med_conc, + logc_max, + logc_min, + cnst, + hill, + hcov, + gnls, + gcov, + cnst_er, + cnst_aic, + cnst_rmse, + cnst_prob, + hill_tp, + hill_tp_sd, + hill_ga, + hill_ga_sd, + hill_gw, + hill_gw_sd, + hill_er, + hill_er_sd, + hill_aic, + hill_rmse, + hill_prob, + gnls_tp, + gnls_tp_sd, + gnls_ga, + gnls_ga_sd, + gnls_gw, + gnls_gw_sd, + gnls_la, + gnls_la_sd, + gnls_lw, + gnls_lw_sd, + gnls_er, + gnls_er_sd, + gnls_aic, + gnls_rmse, + gnls_prob, + nconc, + npts, + nrep, + nmed_gtbl + FROM + mc4 + " + + } + + if (lvl == 5L && type == "mc") { + + tbls <- c("mc4", "mc5") + + qformat <- + " + SELECT + m5id, + mc5.m4id, + mc5.aeid, + spid, + bmad, + resp_max, + resp_min, + max_mean, + max_mean_conc, + max_med, + max_med_conc, + logc_max, + logc_min, + cnst, + hill, + hcov, + gnls, + gcov, + cnst_er, + cnst_aic, + cnst_rmse, + cnst_prob, + hill_tp, + hill_tp_sd, + hill_ga, + hill_ga_sd, + hill_gw, + hill_gw_sd, + hill_er, + hill_er_sd, + hill_aic, + hill_rmse, + hill_prob, + gnls_tp, + gnls_tp_sd, + gnls_ga, + gnls_ga_sd, + gnls_gw, + gnls_gw_sd, + gnls_la, + gnls_la_sd, + gnls_lw, + gnls_lw_sd, + gnls_er, + gnls_er_sd, + gnls_aic, + gnls_rmse, + gnls_prob, + nconc, + npts, + nrep, + nmed_gtbl, + hitc, + modl, + fitc, + coff, + actp, + modl_er, + modl_tp, + modl_ga, + modl_gw, + modl_la, + modl_lw, + modl_rmse, + modl_prob, + modl_acc, + modl_acb, + modl_ac10 + FROM + mc4, + mc5 + WHERE + mc4.m4id = mc5.m4id + " + + } + + if (lvl == 6L && type == "mc") { + + tbls <- c("mc4", "mc6") + + qformat <- + " + SELECT + mc6.aeid, + m6id, + mc6.m4id, + m5id, + spid, + mc6_mthd_id, + flag, + fval, + fval_unit + FROM + mc4, + mc6 + WHERE + mc6.m4id = mc4.m4id + " + + } + + if (is.null(tbls)) stop("Invalid 'lvl' and 'type' combination.") + + if (!is.null(fld)) { + + fld <- .prepField(fld = fld, tbl = tbls, db = getOption("TCPL_DB")) + + wtest <- lvl %in% c(0, 4) | (lvl == 2 & type == "sc") + qformat <- paste(qformat, if (wtest) "WHERE" else "AND") + + qformat <- paste0(qformat, + " ", + paste(fld, "IN (%s)", collapse = " AND ")) + qformat <- paste0(qformat, ";") + + if (!is.list(val)) val <- list(val) + val <- lapply(val, function(x) paste0("\"", x, "\"", collapse = ",")) + + qstring <- do.call(sprintf, args = c(qformat, val)) + + } else { + + qstring <- qformat + + } + + dat <- suppressWarnings(tcplQuery(query = qstring, db = getOption("TCPL_DB"))) + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplLoadUnit.R b/R/tcplLoadUnit.R index c652f01..8d8a85c 100644 --- a/R/tcplLoadUnit.R +++ b/R/tcplLoadUnit.R @@ -1,51 +1,51 @@ -#------------------------------------------------------------------------------- -# tcplLoadUnit: Load response units for assay endpoints -#------------------------------------------------------------------------------- - -#' @title Load response units for assay endpoints -#' -#' @description -#' \code{tcplLoadUnit} queries the tcpl databases and returns a data.table -#' with the response units for the given assay endpoint ids (aeid). -#' -#' @param aeid Integer, assay endpoint ids -#' -#' @return A data.table containing level 3 correction methods for the given -#' aeids. -#' -#' @seealso \code{\link{tcplQuery}}, \code{\link{data.table}} -#' -#' @import data.table - -tcplLoadUnit <- function(aeid) { - - qformat <- - " - SELECT - aeid, - normalized_data_type AS resp_unit - FROM - assay_component_endpoint - WHERE - aeid IN (%s); - " - - qstring <- sprintf(qformat, paste(aeid, collapse = ",")) - - dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - - if (nrow(dat) == 0) { - warning("The given aeid(s) do not have response units.") - return(dat) - } - - len_miss <- lw(!aeid %in% dat$aeid) - if (len_miss > 0) { - warning(len_miss, "of the given aeid(s) do not have response units.") - } - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplLoadUnit: Load response units for assay endpoints +#------------------------------------------------------------------------------- + +#' @title Load response units for assay endpoints +#' +#' @description +#' \code{tcplLoadUnit} queries the tcpl databases and returns a data.table +#' with the response units for the given assay endpoint ids (aeid). +#' +#' @param aeid Integer, assay endpoint ids +#' +#' @return A data.table containing level 3 correction methods for the given +#' aeids. +#' +#' @seealso \code{\link{tcplQuery}}, \code{\link{data.table}} +#' +#' @import data.table + +tcplLoadUnit <- function(aeid) { + + qformat <- + " + SELECT + aeid, + normalized_data_type AS resp_unit + FROM + assay_component_endpoint + WHERE + aeid IN (%s); + " + + qstring <- sprintf(qformat, paste(aeid, collapse = ",")) + + dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + + if (nrow(dat) == 0) { + warning("The given aeid(s) do not have response units.") + return(dat) + } + + len_miss <- lw(!aeid %in% dat$aeid) + if (len_miss > 0) { + warning(len_miss, "of the given aeid(s) do not have response units.") + } + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplMakeAeidPlts.R b/R/tcplMakeAeidPlts.R index c0f30da..6cd8bc8 100644 --- a/R/tcplMakeAeidPlts.R +++ b/R/tcplMakeAeidPlts.R @@ -1,91 +1,91 @@ -#------------------------------------------------------------------------------- -# tcplMakeAeidPlts: Create a .pdf with dose-response plots -#------------------------------------------------------------------------------- - -#' @title Create a .pdf with dose-response plots -#' -#' @description -#' \code{tcplMakeAeidPlts} creates a .pdf file with the dose-response plots for -#' the given aeid. -#' -#' @param aeid Integer of length 1, the assay endpoint id -#' @param lvl Integer of lengh 1, the data level to use (4-6) -#' @param fname Character, the filename -#' @param odir The directory to save the .pdf file in -#' @param clib Character, the chemical library to subset on, see -#' \code{\link{tcplLoadClib}} for more information. -#' @inheritParams tcplPlotFits -#' -#' @details -#' \code{tcplMakeAeidPlts} provides a wrapper for \code{\link{tcplPlotFits}}, -#' allowing the user to produce PDFs with the curve plots without having to -#' separately load all of the data and establish the PDF device. -#' -#' If 'fname' is \code{NULL}, a default name is given by concatenating together -#' assay information. -#' -#' Note, the default value for ordr.fitc is \code{TRUE} in -#' \code{tcplMakeAeidPlts}, but \code{FALSE} in \code{tcplPlotFits} -#' -#' @examples -#' \dontrun{ -#' ## Will produce the same result as the example for tcplPlotFits -#' tcplMakeAeidPlts(aeid = 1, lvl = 6, ordr.fitc = FALSE) -#' } -#' -#' @import data.table -#' @importFrom grDevices graphics.off pdf -#' @export - -tcplMakeAeidPlts <- function(aeid, lvl = 4L, fname = NULL, odir = getwd(), - ordr.fitc = TRUE, clib = NULL) { - - ## Variable-binding to pass R CMD Check - spid <- m4id <- NULL - - on.exit(graphics.off()) - - if (length(aeid) > 1) stop("'aeid' must be of length 1.") - if (length(lvl) > 1 | !lvl %in% 4:6) stop("Invalid 'lvl' input.") - - prs <- list(type = "mc", fld = "aeid", val = aeid) - - if (lvl < 5L) { - dat <- do.call(tcplLoadData, args = c(lvl = 4L, prs)) - } else { - dat <- do.call(tcplLoadData, args = c(lvl = 5L, prs)) - } - - if (nrow(dat) == 0) stop("No data for AEID", aeid) - - if (!is.null(clib)) { - csub <- tcplLoadClib(field = "clib", val = clib) - dat <- dat[spid %in% tcplLoadChem(field = "chid", val = csub$chid)$spid] - } - - prs <- list(type = "mc", fld = "m4id", val = dat[ , unique(m4id)]) - - agg <- do.call(tcplLoadData, args = c(lvl = "agg", prs)) - flg <- if (lvl < 6L) NULL else do.call(tcplLoadData, args = c(lvl = 6L, prs)) - - if (is.null(fname)) { - fname <- file.path(odir, - paste(paste0("AEID", aeid), - paste0("L", lvl), - tcplLoadAeid("aeid", aeid)$aenm, - format(Sys.Date(), "%y%m%d.pdf"), - sep = "_")) - } - - graphics.off() - pdf(file = fname, height = 6, width = 10, pointsize = 10) - tcplPlotFits(dat, agg, flg, ordr.fitc = ordr.fitc) - graphics.off() - - cat(fname, "complete.") - - TRUE - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplMakeAeidPlts: Create a .pdf with dose-response plots +#------------------------------------------------------------------------------- + +#' @title Create a .pdf with dose-response plots +#' +#' @description +#' \code{tcplMakeAeidPlts} creates a .pdf file with the dose-response plots for +#' the given aeid. +#' +#' @param aeid Integer of length 1, the assay endpoint id +#' @param lvl Integer of lengh 1, the data level to use (4-6) +#' @param fname Character, the filename +#' @param odir The directory to save the .pdf file in +#' @param clib Character, the chemical library to subset on, see +#' \code{\link{tcplLoadClib}} for more information. +#' @inheritParams tcplPlotFits +#' +#' @details +#' \code{tcplMakeAeidPlts} provides a wrapper for \code{\link{tcplPlotFits}}, +#' allowing the user to produce PDFs with the curve plots without having to +#' separately load all of the data and establish the PDF device. +#' +#' If 'fname' is \code{NULL}, a default name is given by concatenating together +#' assay information. +#' +#' Note, the default value for ordr.fitc is \code{TRUE} in +#' \code{tcplMakeAeidPlts}, but \code{FALSE} in \code{tcplPlotFits} +#' +#' @examples +#' \dontrun{ +#' ## Will produce the same result as the example for tcplPlotFits +#' tcplMakeAeidPlts(aeid = 1, lvl = 6, ordr.fitc = FALSE) +#' } +#' +#' @import data.table +#' @importFrom grDevices graphics.off pdf +#' @export + +tcplMakeAeidPlts <- function(aeid, lvl = 4L, fname = NULL, odir = getwd(), + ordr.fitc = TRUE, clib = NULL) { + + ## Variable-binding to pass R CMD Check + spid <- m4id <- NULL + + on.exit(graphics.off()) + + if (length(aeid) > 1) stop("'aeid' must be of length 1.") + if (length(lvl) > 1 | !lvl %in% 4:6) stop("Invalid 'lvl' input.") + + prs <- list(type = "mc", fld = "aeid", val = aeid) + + if (lvl < 5L) { + dat <- do.call(tcplLoadData, args = c(lvl = 4L, prs)) + } else { + dat <- do.call(tcplLoadData, args = c(lvl = 5L, prs)) + } + + if (nrow(dat) == 0) stop("No data for AEID", aeid) + + if (!is.null(clib)) { + csub <- tcplLoadClib(field = "clib", val = clib) + dat <- dat[spid %in% tcplLoadChem(field = "chid", val = csub$chid)$spid] + } + + prs <- list(type = "mc", fld = "m4id", val = dat[ , unique(m4id)]) + + agg <- do.call(tcplLoadData, args = c(lvl = "agg", prs)) + flg <- if (lvl < 6L) NULL else do.call(tcplLoadData, args = c(lvl = 6L, prs)) + + if (is.null(fname)) { + fname <- file.path(odir, + paste(paste0("AEID", aeid), + paste0("L", lvl), + tcplLoadAeid("aeid", aeid)$aenm, + format(Sys.Date(), "%y%m%d.pdf"), + sep = "_")) + } + + graphics.off() + pdf(file = fname, height = 6, width = 10, pointsize = 10) + tcplPlotFits(dat, agg, flg, ordr.fitc = ordr.fitc) + graphics.off() + + cat(fname, "complete.") + + TRUE + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplMthdAssign.R b/R/tcplMthdAssign.R index 5fb142d..60672d0 100644 --- a/R/tcplMthdAssign.R +++ b/R/tcplMthdAssign.R @@ -1,46 +1,49 @@ -#------------------------------------------------------------------------------- -# tcplMthdAssign: Assign analysis method -#------------------------------------------------------------------------------- - -#' @rdname mthd_funcs -#' @export - -tcplMthdAssign <- function(lvl, id, mthd_id, ordr = NULL, type) { - - if (length(lvl) > 1) stop("'lvl' must be an integer of length 1.") - if (!type %in% c("mc", "sc")) stop("Invalid 'type' value.") - if (type == "mc" & !lvl %in% c(2, 3, 5, 6)) stop("Invalid 'lvl' value.") - if (type == "sc" & !lvl %in% 1:2) stop("Invalid 'lvl' value.") - - id_name <- if (type == "mc" & lvl == 2) "acid" else "aeid" - flds <- c(id_name, sprintf("%s%s_mthd_id", type, lvl)) - - dat <- expand.grid(id = id, - mthd = mthd_id, - stringsAsFactors = FALSE) - dat <- as.data.table(dat) - - if ((lvl < 4 & type == "mc") | (lvl == 1 & type == "sc")) { - - if (is.null(ordr) | length(mthd_id) != length(ordr)) { - stop("'ordr' must be specified and the same length as 'mthd_id'") - } - - dat[ , "exec_ordr" := ordr[match(get("mthd"), mthd_id)], with = FALSE] - - } - - setnames(dat, old = c("id", "mthd"), flds) - - mb <- paste(Sys.info()[c("login", "user", "effective_user")], collapse = ".") - dat[ , "modified_by" := mb, with = FALSE] - - tcplAppend(dat = dat, - tbl = paste0(type, lvl, "_", flds[1]), - db = getOption("TCPL_DB")) - - tcplCascade(lvl = lvl, type = type, id = id) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplMthdAssign: Assign analysis method +#------------------------------------------------------------------------------- + +#' @rdname mthd_funcs +#' @export + +tcplMthdAssign <- function(lvl, id, mthd_id, ordr = NULL, type) { + + ## Variable-binding to pass R CMD Check + exec_ordr <- modified_by <- NULL + + if (length(lvl) > 1) stop("'lvl' must be an integer of length 1.") + if (!type %in% c("mc", "sc")) stop("Invalid 'type' value.") + if (type == "mc" & !lvl %in% c(2, 3, 5, 6)) stop("Invalid 'lvl' value.") + if (type == "sc" & !lvl %in% 1:2) stop("Invalid 'lvl' value.") + + id_name <- if (type == "mc" & lvl == 2) "acid" else "aeid" + flds <- c(id_name, sprintf("%s%s_mthd_id", type, lvl)) + + dat <- expand.grid(id = id, + mthd = mthd_id, + stringsAsFactors = FALSE) + dat <- as.data.table(dat) + + if ((lvl < 4 & type == "mc") | (lvl == 1 & type == "sc")) { + + if (is.null(ordr) | length(mthd_id) != length(ordr)) { + stop("'ordr' must be specified and the same length as 'mthd_id'") + } + + dat[ , exec_ordr := ordr[match(get("mthd"), mthd_id)]] + + } + + setnames(dat, old = c("id", "mthd"), flds) + + mb <- paste(Sys.info()[c("login", "user", "effective_user")], collapse = ".") + dat[ , modified_by := mb] + + tcplAppend(dat = dat, + tbl = paste0(type, lvl, "_", flds[1]), + db = getOption("TCPL_DB")) + + tcplCascade(lvl = lvl, type = type, id = id) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplMthdClear.R b/R/tcplMthdClear.R index 220cb62..8ff8b78 100644 --- a/R/tcplMthdClear.R +++ b/R/tcplMthdClear.R @@ -1,30 +1,30 @@ -#------------------------------------------------------------------------------- -# tcplMthdClear: Clear analysis method(s) -#------------------------------------------------------------------------------- - -#' @rdname mthd_funcs -#' @export - -tcplMthdClear <- function(lvl, id, mthd_id = NULL, type) { - - if (length(lvl) > 1) stop("'lvl' must be an integer of length 1.") - if (!type %in% c("mc", "sc")) stop("Invalid 'type' value.") - if (type == "mc" & !lvl %in% c(2, 3, 5, 6)) stop("Invalid 'lvl' value.") - if (type == "sc" & !lvl %in% 1:2) stop("Invalid 'lvl' value.") - - fld <- if (type == "mc" & lvl == 2) "acid" else "aeid" - tbl <- paste0(type, lvl, "_", fld) - if (!is.null(mthd_id)) { - fld <- c(fld, sprintf("%s%s_mthd_id", type, lvl)) - val <- list(id, mthd_id) - } else { - val <- id - } - - tcplDelete(tbl = tbl, fld = fld, val = val, db = getOption("TCPL_DB")) - - tcplCascade(lvl = lvl, type = type, id = id) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplMthdClear: Clear analysis method(s) +#------------------------------------------------------------------------------- + +#' @rdname mthd_funcs +#' @export + +tcplMthdClear <- function(lvl, id, mthd_id = NULL, type) { + + if (length(lvl) > 1) stop("'lvl' must be an integer of length 1.") + if (!type %in% c("mc", "sc")) stop("Invalid 'type' value.") + if (type == "mc" & !lvl %in% c(2, 3, 5, 6)) stop("Invalid 'lvl' value.") + if (type == "sc" & !lvl %in% 1:2) stop("Invalid 'lvl' value.") + + fld <- if (type == "mc" & lvl == 2) "acid" else "aeid" + tbl <- paste0(type, lvl, "_", fld) + if (!is.null(mthd_id)) { + fld <- c(fld, sprintf("%s%s_mthd_id", type, lvl)) + val <- list(id, mthd_id) + } else { + val <- id + } + + tcplDelete(tbl = tbl, fld = fld, val = val, db = getOption("TCPL_DB")) + + tcplCascade(lvl = lvl, type = type, id = id) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplMthdList.R b/R/tcplMthdList.R index 2e928a2..80c9ea9 100644 --- a/R/tcplMthdList.R +++ b/R/tcplMthdList.R @@ -1,29 +1,29 @@ -#------------------------------------------------------------------------------- -# tcplMthdList: -#------------------------------------------------------------------------------- - -#' @rdname mthd_funcs -#' @export - -tcplMthdList <- function(lvl, type = "mc") { - - tbl <- paste0(type, lvl, "_methods") - qstring <- paste0("SELECT * FROM ", tbl, ";") - - ## Suppress warnings because the data fields are not recognized by R and - ## imported as character. - dat <- suppressWarnings(tcplQuery(qstring, getOption("TCPL_DB"))) - - if (nrow(dat) == 0) { - warning("No ", type, lvl, " methods in the tcpl databases.") - return(dat[]) - } - - drop_cols <- c("created_date", "modified_date", "modified_by") - dat <- dat[ , .SD, .SDcols = setdiff(names(dat), drop_cols)] - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplMthdList: +#------------------------------------------------------------------------------- + +#' @rdname mthd_funcs +#' @export + +tcplMthdList <- function(lvl, type = "mc") { + + tbl <- paste0(type, lvl, "_methods") + qstring <- paste0("SELECT * FROM ", tbl, ";") + + ## Suppress warnings because the data fields are not recognized by R and + ## imported as character. + dat <- suppressWarnings(tcplQuery(qstring, getOption("TCPL_DB"))) + + if (nrow(dat) == 0) { + warning("No ", type, lvl, " methods in the tcpl databases.") + return(dat[]) + } + + drop_cols <- c("created_date", "modified_date", "modified_by") + dat <- dat[ , .SD, .SDcols = setdiff(names(dat), drop_cols)] + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplMthdLoad.R b/R/tcplMthdLoad.R index b41f61b..69c0a99 100644 --- a/R/tcplMthdLoad.R +++ b/R/tcplMthdLoad.R @@ -1,58 +1,58 @@ -#------------------------------------------------------------------------------- -# tcpltcplMthdLoad: Load analysis method(s) -#------------------------------------------------------------------------------- - -#' @rdname mthd_funcs -#' @export - -tcplMthdLoad <- function(lvl, id = NULL, type = "mc") { - - if (length(lvl) > 1) stop("'lvl' must be an integer of length 1.") - if (!type %in% c("mc", "sc")) stop("Invalid 'type' value.") - if (type == "mc" & !lvl %in% c(2, 3, 5, 6)) stop("Invalid 'lvl' value.") - if (type == "sc" & !lvl %in% 1:2) stop("Invalid 'lvl' value.") - - id_name <- if (type == "mc" & lvl == 2) "acid" else "aeid" - flds <- c(id_name, - "b.%s_mthd AS mthd", - "b.%s_mthd_id AS mthd_id") - if ((lvl < 4 & type == "mc") | (lvl == 1 & type == "sc")) { - flds <- c(flds, "a.exec_ordr AS ordr") - } - if (lvl == 6) flds <- c(flds, "nddr") - - tbls <- c(paste0("%s_", id_name, " AS a"), "%s_methods AS b") - - qformat <- paste("SELECT", paste(flds, collapse = ","), - "FROM", paste(tbls, collapse = ","), - "WHERE a.%s_mthd_id = b.%s_mthd_id") - qformat <- gsub("%s", paste0(type, lvl), qformat) - - if (!is.null(id)) { - qformat <- paste(qformat, "AND", id_name, "IN (%s)") - qformat <- sprintf(qformat, paste(id, collapse = ",")) - } - - if ((lvl < 4 & type == "mc") | (lvl == 1 & type == "sc")) { - qstring <- paste0(qformat, " ORDER BY ", id_name, ", a.exec_ordr") - } else { - qstring <- qformat - } - - dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - - if (nrow(dat) == 0) { - warning("The given id(s) do not have ", type, lvl, " methods.") - return(dat[]) - } - - len_miss <- lw(!id %in% dat[[id_name]]) - if (len_miss > 0) { - warning(len_miss, " of the given ids do not have ", type, lvl, " methods.") - } - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcpltcplMthdLoad: Load analysis method(s) +#------------------------------------------------------------------------------- + +#' @rdname mthd_funcs +#' @export + +tcplMthdLoad <- function(lvl, id = NULL, type = "mc") { + + if (length(lvl) > 1) stop("'lvl' must be an integer of length 1.") + if (!type %in% c("mc", "sc")) stop("Invalid 'type' value.") + if (type == "mc" & !lvl %in% c(2, 3, 5, 6)) stop("Invalid 'lvl' value.") + if (type == "sc" & !lvl %in% 1:2) stop("Invalid 'lvl' value.") + + id_name <- if (type == "mc" & lvl == 2) "acid" else "aeid" + flds <- c(id_name, + "b.%s_mthd AS mthd", + "b.%s_mthd_id AS mthd_id") + if ((lvl < 4 & type == "mc") | (lvl == 1 & type == "sc")) { + flds <- c(flds, "a.exec_ordr AS ordr") + } + if (lvl == 6) flds <- c(flds, "nddr") + + tbls <- c(paste0("%s_", id_name, " AS a"), "%s_methods AS b") + + qformat <- paste("SELECT", paste(flds, collapse = ","), + "FROM", paste(tbls, collapse = ","), + "WHERE a.%s_mthd_id = b.%s_mthd_id") + qformat <- gsub("%s", paste0(type, lvl), qformat) + + if (!is.null(id)) { + qformat <- paste(qformat, "AND", id_name, "IN (%s)") + qformat <- sprintf(qformat, paste(id, collapse = ",")) + } + + if ((lvl < 4 & type == "mc") | (lvl == 1 & type == "sc")) { + qstring <- paste0(qformat, " ORDER BY ", id_name, ", a.exec_ordr") + } else { + qstring <- qformat + } + + dat <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + + if (nrow(dat) == 0) { + warning("The given id(s) do not have ", type, lvl, " methods.") + return(dat[]) + } + + len_miss <- lw(!id %in% dat[[id_name]]) + if (len_miss > 0) { + warning(len_miss, " of the given ids do not have ", type, lvl, " methods.") + } + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplObjCnst.R b/R/tcplObjCnst.R index 5f7aecb..177a311 100644 --- a/R/tcplObjCnst.R +++ b/R/tcplObjCnst.R @@ -1,36 +1,36 @@ -#------------------------------------------------------------------------------- -# tcplObjCnst: Generate a constant model objective function to optimize -#------------------------------------------------------------------------------- - -#' @rdname Models -#' -#' @section Constant Model (cnst): -#' \code{tcplObjCnst} calculates the likelyhood for a constant model at 0. The -#' only parameter passed to \code{tcplObjCnst} by \code{p} is the scale term -#' \eqn{\sigma}. The constant model value \eqn{\mu_{i}}{\mu[i]} for the -#' \eqn{i^{th}}{ith} observation is given by: -#' \deqn{\mu_{i} = 0}{\mu[i] = 0} -#' -#' @importFrom stats dt -#' @export - -tcplObjCnst <- function(p, resp) { - - ### This function takes creates an objective function to be optimized using - ### the starting constant model parameter, and response. - ### - ### Arguments: - ### p: a numeric vector of length 1 containg the starting values for - ### the constant model, in order: log error term - ### lresp: a numeric vector containing the response values to produce the - ### objective function - ### - ### Value: - ### An objective function for the constant model and the given resp data - - mu <- 0 - sum(dt((resp - mu)/exp(p[1]), df = 4, log = TRUE) - p[1]) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplObjCnst: Generate a constant model objective function to optimize +#------------------------------------------------------------------------------- + +#' @rdname Models +#' +#' @section Constant Model (cnst): +#' \code{tcplObjCnst} calculates the likelyhood for a constant model at 0. The +#' only parameter passed to \code{tcplObjCnst} by \code{p} is the scale term +#' \eqn{\sigma}. The constant model value \eqn{\mu_{i}}{\mu[i]} for the +#' \eqn{i^{th}}{ith} observation is given by: +#' \deqn{\mu_{i} = 0}{\mu[i] = 0} +#' +#' @importFrom stats dt +#' @export + +tcplObjCnst <- function(p, resp) { + + ### This function takes creates an objective function to be optimized using + ### the starting constant model parameter, and response. + ### + ### Arguments: + ### p: a numeric vector of length 1 containg the starting values for + ### the constant model, in order: log error term + ### lresp: a numeric vector containing the response values to produce the + ### objective function + ### + ### Value: + ### An objective function for the constant model and the given resp data + + mu <- 0 + sum(dt((resp - mu)/exp(p[1]), df = 4, log = TRUE) - p[1]) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplObjGnls.R b/R/tcplObjGnls.R index 79a71ea..febc36e 100644 --- a/R/tcplObjGnls.R +++ b/R/tcplObjGnls.R @@ -1,56 +1,56 @@ -#------------------------------------------------------------------------------- -# tcplObjGnls: Generate a gain-loss model objective function to optimize -#------------------------------------------------------------------------------- - -#' @rdname Models -#' -#' @section Gain-Loss Model (gnls): -#' \code{tcplObjGnls} calculates the likelyhood for a 5 parameter model as the -#' product of two Hill models with the same top and both bottoms equal to 0. -#' The parameters passed to \code{tcplObjGnls} by \code{p} are (in order) top -#' (\eqn{\mathit{tp}}), gain log AC50 (\eqn{\mathit{ga}}), gain hill coefficient (\eqn{gw}), -#' loss log AC50 \eqn{\mathit{la}}, loss hill coefficient \eqn{\mathit{lw}}, and the scale -#' term (\eqn{\sigma}). The gain-loss model value \eqn{\mu_{i}}{\mu[i]} for the -#' \eqn{i^{th}}{ith} observation is given by: -#' \deqn{ -#' g_{i} = \frac{1}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}} -#' }{ -#' g[i] = 1/(1 + 10^(ga - x[i])*gw)} -#' \deqn{ -#' l_{i} = \frac{1}{1 + 10^{(x_{i} - \mathit{la})\mathit{lw}}} -#' }{ -#' l[i] = 1/(1 + 10^(x[i] - la)*lw)} -#' \deqn{\mu_{i} = \mathit{tp}(g_{i})(l_{i})}{\mu[i] = tp*g[i]*l[i]} -#' where \eqn{x_{i}}{x[i]} is the log concentration for the \eqn{i^{th}}{ith} -#' observation. -#' -#' @importFrom stats dt -#' @export - -tcplObjGnls <- function(p, lconc, resp) { - - ### This function takes creates an objective function to be optimized using - ### the starting gain-loss parameters, log concentration, and response. - ### - ### Arguments: - ### p: a numeric vector of length 5 containg the starting values for - ### the gain-loss model, in order: top, gain log AC50, gain hill - ### coefficient, loss log AC50, loss hill coefficient and log error - ### term - ### lconc: a numeric vector containing the log concentration values to - ### produce the objective function - ### lresp: a numeric vector containing the response values to produce the - ### objective function - ### - ### Value: - ### An objective function for the gain-loss model and the given conc-resp - ### data - - gn <- 1/(1 + 10^((p[2] - lconc)*p[3])) - ls <- 1/(1 + 10^((lconc - p[4])*p[5])) - mu <- p[1]*gn*ls - sum(dt((resp - mu)/exp(p[6]), df = 4, log = TRUE) - p[6]) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplObjGnls: Generate a gain-loss model objective function to optimize +#------------------------------------------------------------------------------- + +#' @rdname Models +#' +#' @section Gain-Loss Model (gnls): +#' \code{tcplObjGnls} calculates the likelyhood for a 5 parameter model as the +#' product of two Hill models with the same top and both bottoms equal to 0. +#' The parameters passed to \code{tcplObjGnls} by \code{p} are (in order) top +#' (\eqn{\mathit{tp}}), gain log AC50 (\eqn{\mathit{ga}}), gain hill coefficient (\eqn{gw}), +#' loss log AC50 \eqn{\mathit{la}}, loss hill coefficient \eqn{\mathit{lw}}, and the scale +#' term (\eqn{\sigma}). The gain-loss model value \eqn{\mu_{i}}{\mu[i]} for the +#' \eqn{i^{th}}{ith} observation is given by: +#' \deqn{ +#' g_{i} = \frac{1}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}} +#' }{ +#' g[i] = 1/(1 + 10^(ga - x[i])*gw)} +#' \deqn{ +#' l_{i} = \frac{1}{1 + 10^{(x_{i} - \mathit{la})\mathit{lw}}} +#' }{ +#' l[i] = 1/(1 + 10^(x[i] - la)*lw)} +#' \deqn{\mu_{i} = \mathit{tp}(g_{i})(l_{i})}{\mu[i] = tp*g[i]*l[i]} +#' where \eqn{x_{i}}{x[i]} is the log concentration for the \eqn{i^{th}}{ith} +#' observation. +#' +#' @importFrom stats dt +#' @export + +tcplObjGnls <- function(p, lconc, resp) { + + ### This function takes creates an objective function to be optimized using + ### the starting gain-loss parameters, log concentration, and response. + ### + ### Arguments: + ### p: a numeric vector of length 5 containg the starting values for + ### the gain-loss model, in order: top, gain log AC50, gain hill + ### coefficient, loss log AC50, loss hill coefficient and log error + ### term + ### lconc: a numeric vector containing the log concentration values to + ### produce the objective function + ### lresp: a numeric vector containing the response values to produce the + ### objective function + ### + ### Value: + ### An objective function for the gain-loss model and the given conc-resp + ### data + + gn <- 1/(1 + 10^((p[2] - lconc)*p[3])) + ls <- 1/(1 + 10^((lconc - p[4])*p[5])) + mu <- p[1]*gn*ls + sum(dt((resp - mu)/exp(p[6]), df = 4, log = TRUE) - p[6]) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplObjHill.R b/R/tcplObjHill.R index 8cfa3f4..bb020d8 100644 --- a/R/tcplObjHill.R +++ b/R/tcplObjHill.R @@ -1,46 +1,46 @@ -#------------------------------------------------------------------------------- -# tcplObjHill: Generate a hill model objective function to optimize -#------------------------------------------------------------------------------- - -#' @rdname Models -#' -#' @section Hill Model (hill): -#' \code{tcplObjHill} calculates the likelyhood for a 3 parameter Hill model -#' with the bottom equal to 0. The parameters passed to \code{tcplObjHill} by -#' \code{p} are (in order) top (\eqn{\mathit{tp}}), log AC50 (\eqn{\mathit{ga}}), hill -#' coefficient (\eqn{\mathit{gw}}), and the scale term (\eqn{\sigma}). The hill model -#' value \eqn{\mu_{i}}{\mu[i]} for the \eqn{i^{th}}{ith} observation is given -#' by: -#' \deqn{ -#' \mu_{i} = \frac{tp}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}} -#' }{ -#' \mu[i] = tp/(1 + 10^(ga - x[i])*gw)} -#' where \eqn{x_{i}}{x[i]} is the log concentration for the \eqn{i^{th}}{ith} -#' observation. -#' -#' @importFrom stats dt -#' @export - -tcplObjHill <- function(p, lconc, resp) { - - ### This function takes creates an objective function to be optimized using - ### the starting hill parameters, log concentration, and response. - ### - ### Arguments: - ### p: a numeric vector of length 4 containg the starting values for - ### the hill model, in order: top, log AC50, hill - ### coefficient, and log error term - ### lconc: a numeric vector containing the log concentration values to - ### produce the objective function - ### lresp: a numeric vector containing the response values to produce the - ### objective function - ### - ### Value: - ### An objective function for the hill model and the given conc-resp data - - mu <- p[1]/(1 + 10^((p[2] - lconc)*p[3])) - sum(dt((resp - mu)/exp(p[4]), df = 4, log = TRUE) - p[4]) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplObjHill: Generate a hill model objective function to optimize +#------------------------------------------------------------------------------- + +#' @rdname Models +#' +#' @section Hill Model (hill): +#' \code{tcplObjHill} calculates the likelyhood for a 3 parameter Hill model +#' with the bottom equal to 0. The parameters passed to \code{tcplObjHill} by +#' \code{p} are (in order) top (\eqn{\mathit{tp}}), log AC50 (\eqn{\mathit{ga}}), hill +#' coefficient (\eqn{\mathit{gw}}), and the scale term (\eqn{\sigma}). The hill model +#' value \eqn{\mu_{i}}{\mu[i]} for the \eqn{i^{th}}{ith} observation is given +#' by: +#' \deqn{ +#' \mu_{i} = \frac{tp}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}} +#' }{ +#' \mu[i] = tp/(1 + 10^(ga - x[i])*gw)} +#' where \eqn{x_{i}}{x[i]} is the log concentration for the \eqn{i^{th}}{ith} +#' observation. +#' +#' @importFrom stats dt +#' @export + +tcplObjHill <- function(p, lconc, resp) { + + ### This function takes creates an objective function to be optimized using + ### the starting hill parameters, log concentration, and response. + ### + ### Arguments: + ### p: a numeric vector of length 4 containg the starting values for + ### the hill model, in order: top, log AC50, hill + ### coefficient, and log error term + ### lconc: a numeric vector containing the log concentration values to + ### produce the objective function + ### lresp: a numeric vector containing the response values to produce the + ### objective function + ### + ### Value: + ### An objective function for the hill model and the given conc-resp data + + mu <- p[1]/(1 + 10^((p[2] - lconc)*p[3])) + sum(dt((resp - mu)/exp(p[4]), df = 4, log = TRUE) - p[4]) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplPlotFitc.R b/R/tcplPlotFitc.R index 9ae7421..f0b382c 100644 --- a/R/tcplPlotFitc.R +++ b/R/tcplPlotFitc.R @@ -1,144 +1,144 @@ -#------------------------------------------------------------------------------- -# tcplPlotFitc: Plot the fit category tree -#------------------------------------------------------------------------------- - -#' @title Plot the fit category tree -#' -#' @description -#' \code{tcplPlotFitc} makes a plot showing the level 5 fit categories. -#' -#' @param fitc Integer, the fit categories -#' @param main Character of length 1, the title (optional) -#' @param fitc_sub, Integer, a subset of fit categories to plot -#' -#' @note -#' Suggested device size (inches): width = 10, height = 7.5, pointsize = 9 -#' -#' @import data.table -#' @importFrom grDevices col2rgb colorRampPalette rgb -#' @importFrom stats quantile -#' @importFrom graphics par plot lines text legend -#' @export - -tcplPlotFitc <- function(fitc = NULL, main = NULL, fitc_sub = NULL) { - - ## Variable-binding to pass R CMD Check - r <- g <- N <- edge <- plt <- leaf <- parent_fitc <- xloc <- yloc <- NULL - name <- J <- NULL - - if (!is.null(fitc)) { - - vals <- data.table(fitc = fitc)[ , .N, by = fitc] - - mypal <- rev(c("#A50026", "#FF7F00", "#FFFF33", "#33A02C", - "#1F78B4", "#762A83")) - - clrs <- data.table(edge = 1:8, - r = col2rgb(colorRampPalette(mypal)(8))["red", ]/255, - g = col2rgb(colorRampPalette(mypal)(8))["green", ]/255, - b = col2rgb(colorRampPalette(mypal)(8))["blue", ]/255) - clrs[ , col := rgb(r, g, b, 0.4)] - - vmax <- unname(quantile(vals[ , N], 0.9)) - vmin <- min(vals[ , N]) - - b <- unlist(lapply(0:7, function(x) { vmax/((vmax/vmin)^(1/8))^x })) - b <- round(rev(b[1:7]), 0) - - vals[N <= b[1], col := clrs[edge == 1, col]] - vals[N <= b[2] & N > b[1], col := clrs[edge == 2, col]] - vals[N <= b[3] & N > b[2], col := clrs[edge == 3, col]] - vals[N <= b[4] & N > b[3], col := clrs[edge == 4, col]] - vals[N <= b[5] & N > b[4], col := clrs[edge == 5, col]] - vals[N <= b[6] & N > b[5], col := clrs[edge == 6, col]] - vals[N <= b[7] & N > b[6], col := clrs[edge == 7, col]] - vals[N > b[7], col := clrs[edge == 8, col]] - - vals[ , plt := TRUE] - if(!is.null(fitc_sub)) vals[!fitc %in% fitc_sub, plt := FALSE] - - } - - tree <- tcplQuery("SELECT * FROM mc5_fit_categories;", getOption("TCPL_DB")) - tree[ , leaf := !fitc %in% parent_fitc] - tree[ , plt := TRUE] - if(!is.null(fitc_sub)) tree[!fitc %in% fitc_sub, plt := FALSE] - tree[ , xloc := xloc - xloc[1]] - tree[ , yloc := yloc - yloc[1]] - - # pdf("test.pdf", width = 10, height = 7.5, pointsize = 9) - - opar <- par()[c("pty", "mar", "family")] - on.exit(par(opar)) - fmar <- c(0, 0, ifelse(is.null(main), 0, 4), 0) - par(pty = "m", mar = fmar) - - p <- list(type = "n", - bty = "n", - xlim = c(-1150, 1150), - ylim = c(-800, 800), - ylab = "", - xlab = "", - xaxt = "n", - yaxt = "n", - main = main - ) - - do.call(plot, c(tree$yloc ~ tree$xloc, p), quote = TRUE) - - setkey(tree, fitc) - for (i in tree[fitc != 1 & plt, fitc]) { - lines(x = c(tree[J(i), xloc], tree[tree[J(i), parent_fitc], xloc]), - y = c(tree[J(i), yloc], tree[tree[J(i), parent_fitc], yloc])) - } - - with(tree[which(plt)], - rect(xleft = xloc - 120, - xright = xloc + 120, - ybottom = yloc - 15, - ytop = yloc + 15, - border = NA, - col = "white")) - - if (!is.null(fitc)) { - .drawCircles(x = tree[J(vals[which(plt), fitc]), xloc], - y = tree[J(vals[which(plt), fitc]), yloc], - r = vals[which(plt), (log(N, 2) + 2)*15], - border = NA, - col = vals[which(plt), col]) - } - - if (lw(tree[ , plt & !leaf]) > 0) { - with(tree[plt & !leaf], - text(x = xloc, y = yloc, labels = name, cex = 0.45)) - } - - if (lw(tree[ , plt & leaf]) > 0) { - text(x = tree[plt & leaf, xloc], - y = tree[plt & leaf, yloc], - labels = tree[plt & leaf, name], - cex = 0.45, - font = ifelse(is.null(fitc), 2, 1), - col = ifelse(is.null(fitc), "darkgreen", "black")) - } - - if (!is.null(fitc)) { - legend(x = "bottom", - ncol = 8, - bty = "n", - box.lwd = 0, - bg = "white", - pch = 19, - cex = 0.8, - col = clrs[ , col], - legend = c(paste0("1-", b[1]), - paste0(b[1] + 1, "-", b[2]), - paste0(b[2] + 1, "-", b[3]), - paste0(b[3] + 1, "-", b[4]), - paste0(b[4] + 1, "-", b[5]), - paste0(b[5] + 1, "-", b[6]), - paste0(b[6] + 1, "-", b[7]), - paste0(b[7] + 1, "+"))) - } - -} +#------------------------------------------------------------------------------- +# tcplPlotFitc: Plot the fit category tree +#------------------------------------------------------------------------------- + +#' @title Plot the fit category tree +#' +#' @description +#' \code{tcplPlotFitc} makes a plot showing the level 5 fit categories. +#' +#' @param fitc Integer, the fit categories +#' @param main Character of length 1, the title (optional) +#' @param fitc_sub, Integer, a subset of fit categories to plot +#' +#' @note +#' Suggested device size (inches): width = 10, height = 7.5, pointsize = 9 +#' +#' @import data.table +#' @importFrom grDevices col2rgb colorRampPalette rgb +#' @importFrom stats quantile +#' @importFrom graphics par plot lines text legend +#' @export + +tcplPlotFitc <- function(fitc = NULL, main = NULL, fitc_sub = NULL) { + + ## Variable-binding to pass R CMD Check + r <- g <- N <- edge <- plt <- leaf <- parent_fitc <- xloc <- yloc <- NULL + name <- J <- NULL + + if (!is.null(fitc)) { + + vals <- data.table(fitc = fitc)[ , .N, by = fitc] + + mypal <- rev(c("#A50026", "#FF7F00", "#FFFF33", "#33A02C", + "#1F78B4", "#762A83")) + + clrs <- data.table(edge = 1:8, + r = col2rgb(colorRampPalette(mypal)(8))["red", ]/255, + g = col2rgb(colorRampPalette(mypal)(8))["green", ]/255, + b = col2rgb(colorRampPalette(mypal)(8))["blue", ]/255) + clrs[ , col := rgb(r, g, b, 0.4)] + + vmax <- unname(quantile(vals[ , N], 0.9)) + vmin <- min(vals[ , N]) + + b <- unlist(lapply(0:7, function(x) { vmax/((vmax/vmin)^(1/8))^x })) + b <- round(rev(b[1:7]), 0) + + vals[N <= b[1], col := clrs[edge == 1, col]] + vals[N <= b[2] & N > b[1], col := clrs[edge == 2, col]] + vals[N <= b[3] & N > b[2], col := clrs[edge == 3, col]] + vals[N <= b[4] & N > b[3], col := clrs[edge == 4, col]] + vals[N <= b[5] & N > b[4], col := clrs[edge == 5, col]] + vals[N <= b[6] & N > b[5], col := clrs[edge == 6, col]] + vals[N <= b[7] & N > b[6], col := clrs[edge == 7, col]] + vals[N > b[7], col := clrs[edge == 8, col]] + + vals[ , plt := TRUE] + if(!is.null(fitc_sub)) vals[!fitc %in% fitc_sub, plt := FALSE] + + } + + tree <- tcplQuery("SELECT * FROM mc5_fit_categories;", getOption("TCPL_DB")) + tree[ , leaf := !fitc %in% parent_fitc] + tree[ , plt := TRUE] + if(!is.null(fitc_sub)) tree[!fitc %in% fitc_sub, plt := FALSE] + tree[ , xloc := xloc - xloc[1]] + tree[ , yloc := yloc - yloc[1]] + + # pdf("test.pdf", width = 10, height = 7.5, pointsize = 9) + + opar <- par()[c("pty", "mar", "family")] + on.exit(par(opar)) + fmar <- c(0, 0, ifelse(is.null(main), 0, 4), 0) + par(pty = "m", mar = fmar) + + p <- list(type = "n", + bty = "n", + xlim = c(-1150, 1150), + ylim = c(-800, 800), + ylab = "", + xlab = "", + xaxt = "n", + yaxt = "n", + main = main + ) + + do.call(plot, c(tree$yloc ~ tree$xloc, p), quote = TRUE) + + setkey(tree, fitc) + for (i in tree[fitc != 1 & plt, fitc]) { + lines(x = c(tree[J(i), xloc], tree[tree[J(i), parent_fitc], xloc]), + y = c(tree[J(i), yloc], tree[tree[J(i), parent_fitc], yloc])) + } + + with(tree[which(plt)], + rect(xleft = xloc - 120, + xright = xloc + 120, + ybottom = yloc - 15, + ytop = yloc + 15, + border = NA, + col = "white")) + + if (!is.null(fitc)) { + .drawCircles(x = tree[J(vals[which(plt), fitc]), xloc], + y = tree[J(vals[which(plt), fitc]), yloc], + r = vals[which(plt), (log(N, 2) + 2)*15], + border = NA, + col = vals[which(plt), col]) + } + + if (lw(tree[ , plt & !leaf]) > 0) { + with(tree[plt & !leaf], + text(x = xloc, y = yloc, labels = name, cex = 0.45)) + } + + if (lw(tree[ , plt & leaf]) > 0) { + text(x = tree[plt & leaf, xloc], + y = tree[plt & leaf, yloc], + labels = tree[plt & leaf, name], + cex = 0.45, + font = ifelse(is.null(fitc), 2, 1), + col = ifelse(is.null(fitc), "darkgreen", "black")) + } + + if (!is.null(fitc)) { + legend(x = "bottom", + ncol = 8, + bty = "n", + box.lwd = 0, + bg = "white", + pch = 19, + cex = 0.8, + col = clrs[ , col], + legend = c(paste0("1-", b[1]), + paste0(b[1] + 1, "-", b[2]), + paste0(b[2] + 1, "-", b[3]), + paste0(b[3] + 1, "-", b[4]), + paste0(b[4] + 1, "-", b[5]), + paste0(b[5] + 1, "-", b[6]), + paste0(b[6] + 1, "-", b[7]), + paste0(b[7] + 1, "+"))) + } + +} diff --git a/R/tcplPlotFits.R b/R/tcplPlotFits.R index 2bda6f2..10c2e38 100644 --- a/R/tcplPlotFits.R +++ b/R/tcplPlotFits.R @@ -1,125 +1,125 @@ -#------------------------------------------------------------------------------- -# tcplPlotFits: Plot fits based on mc4/5 and mc4_agg -#------------------------------------------------------------------------------- - -#' @title Plot summary fits based on fit and dose-response data -#' -#' @description -#' \code{tcplPlotFits} takes the dose-response and fit data and produces -#' summary plot figures. -#' -#' @param dat data.table, level 4 or level 5 data, see details. -#' @param agg data.table, concentration-response aggregate data, see details. -#' @param flg data.table, level 6 data, see details. -#' @param ordr.fitc Logical, should the fits be ordered by fit category? -#' @param browse Logical, should \code{browser()} be called after every plot? -#' -#' @details -#' The data for 'dat', 'agg', and 'flg' should be loaded using the -#' \code{\link{tcplLoadData}} function with the appropriate 'lvl' parameter. -#' See help page for \code{tcplLoadData} for more information. -#' -#' Supplying level 4 data for the 'dat' parameter will result in level 4 plots. -#' Similarly, supp -#' -#' If fits are not ordered by fit category, they will be ordered by chemical -#' ID. Inputs with multiple assay endpoints will first be ordered by assay -#' endpoint ID. -#' -#' @examples -#' -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## tcplPlotFits needs data.tables supplying the concentration/response -#' ## data stored in mc4_agg, as well as the fit information from mc4 or mc5. -#' ## Additionally, tcplPlotFits will take level 6 data from mc6 and add the -#' ## flag information to the plots. The following shows how to make level 6 -#' ## plots. Omitting the 'flg' parameter would result in level 5 plots, and -#' ## loading level 4, rather than level 5 data, would result in level 4 plots. -#' -#' l5 <- tcplLoadData(lvl = 5, fld = "aeid", val = 1) -#' l4_agg <- tcplLoadData(lvl = "agg", fld = "aeid", val = 1) -#' l6 <- tcplLoadData(lvl = 6, fld = "aeid", val = 1) -#' \dontrun{ -#' pdf(file = "tcplPlotFits.pdf", height = 6, width = 10, pointsize = 10) -#' tcplPlotFits(dat = l5, agg = l4_agg, flg = l6) -#' graphics.off() -#' } -#' -#' ## While it is most likely the user will want to just save all of the plots -#' ## to view in a PDF, the 'browse' parameter can be used to quickly view -#' ## some plots. -#' -#' ## Start by identifying some sample IDs to plot, then call tcplPlotFits with -#' ## a subset of the data. This browse function is admittedly clunky. -#' bpa <- tcplLoadChem(field = "chnm", val = "Bisphenol A")[ , spid] -#' l5_sub <- l5[spid %in% bpa] -#' \dontrun{ -#' tcplPlotFits(dat = l5_sub, -#' agg = l4_agg[m4id %in% l5_sub$m4id], -#' browse = TRUE) -#' } -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @import data.table -#' @export - -tcplPlotFits <- function(dat, agg, flg = NULL, ordr.fitc = FALSE, - browse = FALSE) { - - ## Variable-binding to pass R CMD Check - chid <- chnm <- spid <- aenm <- aeid <- m4id <- fitc <- fval <- NULL - flgo <- mc6_mthd_id <- J <- NULL - - if (!is.null(flg) & !"m5id" %in% names(dat)) { - stop("Must supply level 5 data with a non-null 'flg' input.") - } - - dat <- tcplPrepOtpt(dat) - dat[is.na(chid), chnm := paste(spid, "(spid not in DB)")] - dat[ , aenm := paste0("AEID", aeid, " (", aenm, ")")] - - setkey(dat, m4id) - setkey(agg, m4id) - - ## Set the plotting order - if (ordr.fitc && "fitc" %in% names(dat)) { - m4ids <- dat[order(aeid, fitc, chid), unique(m4id)] - } else { - m4ids <- dat[order(aeid, chid), unique(m4id)] - } - - if (!is.null(flg)) { - if (nrow(flg) > 0) { - flg[is.na(fval), flgo := as.character(mc6_mthd_id)] - flg[!is.na(fval), - flgo := paste0(mc6_mthd_id, " (", signif(fval, 3), ")")] - flg <- flg[ , - list(flgo = paste(unique(flgo), collapse = "; ")), - by = m4id] - setkey(flg, m4id) - dat <- flg[dat] - } else { - dat[ , flgo := NA] - } - } - - for (i in m4ids) { - - resp <- agg[J(i), resp] - logc <- agg[J(i), logc] - pars <- as.list(dat[J(i)]) - .plotFit(resp = resp, logc = logc, pars = pars) - if (browse) browser(skipCalls = 4) - - } - - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplPlotFits: Plot fits based on mc4/5 and mc4_agg +#------------------------------------------------------------------------------- + +#' @title Plot summary fits based on fit and dose-response data +#' +#' @description +#' \code{tcplPlotFits} takes the dose-response and fit data and produces +#' summary plot figures. +#' +#' @param dat data.table, level 4 or level 5 data, see details. +#' @param agg data.table, concentration-response aggregate data, see details. +#' @param flg data.table, level 6 data, see details. +#' @param ordr.fitc Logical, should the fits be ordered by fit category? +#' @param browse Logical, should \code{browser()} be called after every plot? +#' +#' @details +#' The data for 'dat', 'agg', and 'flg' should be loaded using the +#' \code{\link{tcplLoadData}} function with the appropriate 'lvl' parameter. +#' See help page for \code{tcplLoadData} for more information. +#' +#' Supplying level 4 data for the 'dat' parameter will result in level 4 plots. +#' Similarly, supp +#' +#' If fits are not ordered by fit category, they will be ordered by chemical +#' ID. Inputs with multiple assay endpoints will first be ordered by assay +#' endpoint ID. +#' +#' @examples +#' +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## tcplPlotFits needs data.tables supplying the concentration/response +#' ## data stored in mc4_agg, as well as the fit information from mc4 or mc5. +#' ## Additionally, tcplPlotFits will take level 6 data from mc6 and add the +#' ## flag information to the plots. The following shows how to make level 6 +#' ## plots. Omitting the 'flg' parameter would result in level 5 plots, and +#' ## loading level 4, rather than level 5 data, would result in level 4 plots. +#' +#' l5 <- tcplLoadData(lvl = 5, fld = "aeid", val = 1) +#' l4_agg <- tcplLoadData(lvl = "agg", fld = "aeid", val = 1) +#' l6 <- tcplLoadData(lvl = 6, fld = "aeid", val = 1) +#' \dontrun{ +#' pdf(file = "tcplPlotFits.pdf", height = 6, width = 10, pointsize = 10) +#' tcplPlotFits(dat = l5, agg = l4_agg, flg = l6) +#' graphics.off() +#' } +#' +#' ## While it is most likely the user will want to just save all of the plots +#' ## to view in a PDF, the 'browse' parameter can be used to quickly view +#' ## some plots. +#' +#' ## Start by identifying some sample IDs to plot, then call tcplPlotFits with +#' ## a subset of the data. This browse function is admittedly clunky. +#' bpa <- tcplLoadChem(field = "chnm", val = "Bisphenol A")[ , spid] +#' l5_sub <- l5[spid %in% bpa] +#' \dontrun{ +#' tcplPlotFits(dat = l5_sub, +#' agg = l4_agg[m4id %in% l5_sub$m4id], +#' browse = TRUE) +#' } +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @import data.table +#' @export + +tcplPlotFits <- function(dat, agg, flg = NULL, ordr.fitc = FALSE, + browse = FALSE) { + + ## Variable-binding to pass R CMD Check + chid <- chnm <- spid <- aenm <- aeid <- m4id <- fitc <- fval <- NULL + flgo <- mc6_mthd_id <- J <- NULL + + if (!is.null(flg) & !"m5id" %in% names(dat)) { + stop("Must supply level 5 data with a non-null 'flg' input.") + } + + dat <- tcplPrepOtpt(dat) + dat[is.na(chid), chnm := paste(spid, "(spid not in DB)")] + dat[ , aenm := paste0("AEID", aeid, " (", aenm, ")")] + + setkey(dat, m4id) + setkey(agg, m4id) + + ## Set the plotting order + if (ordr.fitc && "fitc" %in% names(dat)) { + m4ids <- dat[order(aeid, fitc, chid), unique(m4id)] + } else { + m4ids <- dat[order(aeid, chid), unique(m4id)] + } + + if (!is.null(flg)) { + if (nrow(flg) > 0) { + flg[is.na(fval), flgo := as.character(mc6_mthd_id)] + flg[!is.na(fval), + flgo := paste0(mc6_mthd_id, " (", signif(fval, 3), ")")] + flg <- flg[ , + list(flgo = paste(unique(flgo), collapse = "; ")), + by = m4id] + setkey(flg, m4id) + dat <- flg[dat] + } else { + dat[ , flgo := NA] + } + } + + for (i in m4ids) { + + resp <- agg[J(i), resp] + logc <- agg[J(i), logc] + pars <- as.list(dat[J(i)]) + .plotFit(resp = resp, logc = logc, pars = pars) + if (browse) browser(skipCalls = 4) + + } + + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplPlotM4ID.R b/R/tcplPlotM4ID.R index f41662a..da4ff7f 100644 --- a/R/tcplPlotM4ID.R +++ b/R/tcplPlotM4ID.R @@ -1,67 +1,67 @@ -#------------------------------------------------------------------------------- -# tcplPlotM4ID: Plot dose-response by m4id -#------------------------------------------------------------------------------- - -#' @title Plot fit summary plot by m4id -#' -#' @description -#' \code{tcplPlotM4ID} creates a summary plots for the given m4id(s) by loading -#' the appropriate data from the tcpl databases and sending it to -#' \code{\link{tcplPlotFits}} -#' -#' @param m4id Integer, m4id(s) to plot -#' @param lvl Integer, the level of data to plot -#' -#' @details -#' A level 4 plot ('lvl' = 4) will plot the concentration series and the -#' applicable curves, without an indication of the activity call or the -#' winning model. Level 4 plots can be created without having done subsequent -#' processing. -#' -#' Level 5 plots include the level 4 information with the activity call and -#' model selection. The winning model will be highlighted red in the side panel -#' containing the summary statistics. Level 6 plots, in addition the all of the -#' level 4 and 5 information, include the positive flag IDs. If the flag has -#' an associated value, the value will be in parentheses follwing the flag ID. -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' tcplPlotM4ID(m4id = 686, lvl = 4) ## Create a level 4 plot -#' tcplPlotM4ID(m4id = 370, lvl = 5) ## Create a level 5 plot -#' tcplPlotM4ID(m4id = 322, lvl = 6) ## Create a level 6 plot -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @seealso \code{\link{tcplPlotFits}}, \code{\link{tcplMakeAeidPlts}} -#' @import data.table -#' @export - - -tcplPlotM4ID <- function(m4id, lvl = 4L) { - - if (length(lvl) > 1 | !lvl %in% 4:6) stop("invalid lvl input.") - - prs <- list(type = "mc", fld = "m4id", val = m4id) - - if (lvl == 4L) dat <- do.call(tcplLoadData, args = c(lvl = 4L, prs)) - if (lvl >= 5L) dat <- do.call(tcplLoadData, args = c(lvl = 5L, prs)) - if (lvl == 6L) { - flg <- do.call(tcplLoadData, args = c(lvl = 6L, prs)) - } else { - flg <- NULL - } - - if (nrow(dat) == 0) stop("No data for m4id ", m4id) - - agg <- do.call(tcplLoadData, args = c(lvl = "agg", prs)) - - tcplPlotFits(dat = dat, agg = agg, flg = flg) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplPlotM4ID: Plot dose-response by m4id +#------------------------------------------------------------------------------- + +#' @title Plot fit summary plot by m4id +#' +#' @description +#' \code{tcplPlotM4ID} creates a summary plots for the given m4id(s) by loading +#' the appropriate data from the tcpl databases and sending it to +#' \code{\link{tcplPlotFits}} +#' +#' @param m4id Integer, m4id(s) to plot +#' @param lvl Integer, the level of data to plot +#' +#' @details +#' A level 4 plot ('lvl' = 4) will plot the concentration series and the +#' applicable curves, without an indication of the activity call or the +#' winning model. Level 4 plots can be created without having done subsequent +#' processing. +#' +#' Level 5 plots include the level 4 information with the activity call and +#' model selection. The winning model will be highlighted red in the side panel +#' containing the summary statistics. Level 6 plots, in addition the all of the +#' level 4 and 5 information, include the positive flag IDs. If the flag has +#' an associated value, the value will be in parentheses follwing the flag ID. +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' tcplPlotM4ID(m4id = 686, lvl = 4) ## Create a level 4 plot +#' tcplPlotM4ID(m4id = 370, lvl = 5) ## Create a level 5 plot +#' tcplPlotM4ID(m4id = 322, lvl = 6) ## Create a level 6 plot +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @seealso \code{\link{tcplPlotFits}}, \code{\link{tcplMakeAeidPlts}} +#' @import data.table +#' @export + + +tcplPlotM4ID <- function(m4id, lvl = 4L) { + + if (length(lvl) > 1 | !lvl %in% 4:6) stop("invalid lvl input.") + + prs <- list(type = "mc", fld = "m4id", val = m4id) + + if (lvl == 4L) dat <- do.call(tcplLoadData, args = c(lvl = 4L, prs)) + if (lvl >= 5L) dat <- do.call(tcplLoadData, args = c(lvl = 5L, prs)) + if (lvl == 6L) { + flg <- do.call(tcplLoadData, args = c(lvl = 6L, prs)) + } else { + flg <- NULL + } + + if (nrow(dat) == 0) stop("No data for m4id ", m4id) + + agg <- do.call(tcplLoadData, args = c(lvl = "agg", prs)) + + tcplPlotFits(dat = dat, agg = agg, flg = flg) + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplPlotPlate.R b/R/tcplPlotPlate.R index 6a9c62d..90c5725 100644 --- a/R/tcplPlotPlate.R +++ b/R/tcplPlotPlate.R @@ -1,120 +1,121 @@ -#------------------------------------------------------------------------------- -# tcplPlotPlate: look at the plate map for a given apid -#------------------------------------------------------------------------------- - -#' @title Plot plate heatmap -#' -#' @description -#' \code{tcplPlotPlate} generates a heatmap of assay plate data -#' -#' @param dat data.table containing tcpl data -#' @param apid Character of length 1, the apid to plot -#' @param id Integer of length 1, the assay component id (acid) or assay -#' endpoint id (aeid), depending on level. Only need to specify for multiplexed -#' assays when more than one acid/aeid share an apid. -#' @param quant Numeric vector, the range of data to include in the legend -#' -#' @details -#' The legend represents the range of the data supplied to dat, for the -#' applicable ID. The additional horizontal lines on the legend indcate the -#' range of the plotted plate, to show the relation of the plate to the assay -#' as a whole. A plot with a legend specific for the given apid can be created -#' by only supplying the data for the apid of interest to 'dat'. -#' -#' The quant parameter, by default including 99.8% of the data, -#' allows for extreme outliers without losing resolution. Outliers in either -#' direction will be highlighted with a dark ring, as seen in the example. -#' A NULL value for 'quant' will not restrict the data at all, and will use -#' the full range for the legend. -#' -#' Wells with a well quality of 0 (only applicable for level 1 plots), will -#' have an "X" through their center. -#' -#' @note -#' For the optimal output size, use width = 10, height = 10*(2/3), -#' pointsize = 10, units = "in" -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' d1 <- tcplLoadData(lvl = 1, fld = "acid", val = 1) -#' \dontrun{ -#' tcplPlotPlate(dat = d1, apid = "09Apr2014.Plate.17") -#' } -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @import data.table -#' @importFrom stats quantile -#' @export - - -tcplPlotPlate <- function(dat, apid, id = NULL, quant = c(0.001, 0.999)) { - - ## Variable-binding to pass R CMD Check - wllq <- aid <- wllt <- cndx <- nwll <- rown <- rowi <- coln <- NULL - coli <- anm <- NULL - - if (length(apid) != 1) stop("'apid' must be of length 1.") - ap <- apid - - lvl <- NULL - dnames <- names(dat) - if ("m1id" %in% dnames) {lvl <- 1L; idnm <- "acid"; vlnm <- "rval"} - if ("m2id" %in% dnames) {lvl <- 2L; idnm <- "acid"; vlnm <- "cval"} - if ("m3id" %in% dnames) {lvl <- 3L; idnm <- "aeid"; vlnm <- "resp"} - if (is.null(lvl)) stop("Invalid dat input.") - - sub <- dat[apid == ap] - setnames(sub, c(idnm, vlnm), c("aid", "val")) - if (!"wllq" %in% dnames) sub[ , wllq := 1L] - - if (is.null(id)) id <- sub[ , unique(aid)] - if (length(id) != 1) { - stop("Multiple ids for the given plate, must specifiy 'id'.") - } - - nwlt <- sub[ , paste0(wllt, cndx)] - - ap_size <- do.call(if (idnm == "acid") "tcplLoadAcid" else "tcplLoadAeid", - list(fld = idnm, val = id, add.fld = "assay_footprint")) - setnames(ap_size, c("aid", "anm", "nwll")) - - ap_size[ , nwll := as.numeric(gsub("[^0-9]", "", nwll))] - plate_dim <- data.table(nwll = c(6, 12, 24, 48, 96, 384, 1536), - coln = c(3, 4, 6, 8, 12, 24, 48), - rown = c(2, 3, 4, 6, 8, 16, 32)) - setkey(plate_dim, nwll) - setkey(ap_size, nwll) - ap_size <- plate_dim[ap_size] - ap_size[ , rown := max(rown, sub[ , max(rowi)])] - ap_size[ , coln := max(coln, sub[ , max(coli)])] - - cat_name <- ap_size[ , paste0(toupper(idnm), aid, " (", anm, ")")] - cat_name <- paste(cat_name, ap, sep = ": ") - - if (is.null(quant)) { - arng <- dat[get(idnm) == id, range(get(vlnm), na.rm = TRUE)] - } else { - arng <- dat[get(idnm) == id, - quantile(get(vlnm), c(0.001, 0.999), na.rm = TRUE)] - } - - with(data = sub[aid == id], - .plateHeat(vals = val, - rowi = rowi, - coli = coli, - wllt = nwlt, - wllq = wllq, - rown = ap_size[ , rown], - coln = ap_size[, coln], - main = cat_name, - arng = arng)) - -} - +#------------------------------------------------------------------------------- +# tcplPlotPlate: look at the plate map for a given apid +#------------------------------------------------------------------------------- + +#' @title Plot plate heatmap +#' +#' @description +#' \code{tcplPlotPlate} generates a heatmap of assay plate data +#' +#' @param dat data.table containing tcpl data +#' @param apid Character of length 1, the apid to plot +#' @param id Integer of length 1, the assay component id (acid) or assay +#' endpoint id (aeid), depending on level. Only need to specify for multiplexed +#' assays when more than one acid/aeid share an apid. +#' @param quant Numeric vector, the range of data to include in the legend +#' +#' @details +#' The legend represents the range of the data supplied to dat, for the +#' applicable ID. The additional horizontal lines on the legend indcate the +#' range of the plotted plate, to show the relation of the plate to the assay +#' as a whole. A plot with a legend specific for the given apid can be created +#' by only supplying the data for the apid of interest to 'dat'. +#' +#' The quant parameter, by default including 99.8% of the data, +#' allows for extreme outliers without losing resolution. Outliers in either +#' direction will be highlighted with a dark ring, as seen in the example. +#' A NULL value for 'quant' will not restrict the data at all, and will use +#' the full range for the legend. +#' +#' Wells with a well quality of 0 (only applicable for level 1 plots), will +#' have an "X" through their center. +#' +#' @note +#' For the optimal output size, use width = 10, height = 10*(2/3), +#' pointsize = 10, units = "in" +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' d1 <- tcplLoadData(lvl = 1, fld = "acid", val = 1) +#' \dontrun{ +#' tcplPlotPlate(dat = d1, apid = "09Apr2014.Plate.17") +#' } +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @import data.table +#' @importFrom stats quantile +#' @export + + +tcplPlotPlate <- function(dat, apid, id = NULL, quant = c(0.001, 0.999)) { + + ## Variable-binding to pass R CMD Check + wllq <- aid <- wllt <- cndx <- nwll <- rown <- rowi <- coln <- NULL + coli <- anm <- NULL + + if (length(apid) != 1) stop("'apid' must be of length 1.") + ap <- apid + + lvl <- NULL + dnames <- names(dat) + if ("m1id" %in% dnames) {lvl <- 1L; idnm <- "acid"; vlnm <- "rval"} + if ("m2id" %in% dnames) {lvl <- 2L; idnm <- "acid"; vlnm <- "cval"} + if ("m3id" %in% dnames) {lvl <- 3L; idnm <- "aeid"; vlnm <- "resp"} + if ("s1id" %in% dnames) {lvl <- 1L; idnm <- "acid"; vlnm <- "resp"} + if (is.null(lvl)) stop("Invalid dat input.") + + sub <- dat[apid == ap] + setnames(sub, c(idnm, vlnm), c("aid", "val")) + if (!"wllq" %in% dnames) sub[ , wllq := 1L] + + if (is.null(id)) id <- sub[ , unique(aid)] + if (length(id) != 1) { + stop("Multiple ids for the given plate, must specifiy 'id'.") + } + + nwlt <- sub[ , paste0(wllt, cndx)] + + ap_size <- do.call(if (idnm == "acid") "tcplLoadAcid" else "tcplLoadAeid", + list(fld = idnm, val = id, add.fld = "assay_footprint")) + setnames(ap_size, c("aid", "anm", "nwll")) + + ap_size[ , nwll := as.numeric(gsub("[^0-9]", "", nwll))] + plate_dim <- data.table(nwll = c(6, 12, 24, 48, 96, 384, 1536), + coln = c(3, 4, 6, 8, 12, 24, 48), + rown = c(2, 3, 4, 6, 8, 16, 32)) + setkey(plate_dim, nwll) + setkey(ap_size, nwll) + ap_size <- plate_dim[ap_size] + ap_size[ , rown := max(rown, sub[ , max(rowi)])] + ap_size[ , coln := max(coln, sub[ , max(coli)])] + + cat_name <- ap_size[ , paste0(toupper(idnm), aid, " (", anm, ")")] + cat_name <- paste(cat_name, ap, sep = ": ") + + if (is.null(quant)) { + arng <- dat[get(idnm) == id, range(get(vlnm), na.rm = TRUE)] + } else { + arng <- dat[get(idnm) == id, + quantile(get(vlnm), c(0.001, 0.999), na.rm = TRUE)] + } + + with(data = sub[aid == id], + .plateHeat(vals = val, + rowi = rowi, + coli = coli, + wllt = nwlt, + wllq = wllq, + rown = ap_size[ , rown], + coln = ap_size[, coln], + main = cat_name, + arng = arng)) + +} + #------------------------------------------------------------------------------- \ No newline at end of file diff --git a/R/tcplPrepOtpt.R b/R/tcplPrepOtpt.R index a007cf6..e8a5fc9 100644 --- a/R/tcplPrepOtpt.R +++ b/R/tcplPrepOtpt.R @@ -1,108 +1,108 @@ -#------------------------------------------------------------------------------- -# tcplPrepOtpt: Map assay/chemcial ID values to names -#------------------------------------------------------------------------------- - -#' @title Map assay/chemcial ID values to annotation information -#' -#' @description -#' \code{tcplPrepOtpt} queries the chemical and assay information from the tcpl -#' database, and maps the annotation information to the given data. -#' -#' @param dat data.table, output from \code{\link{tcplLoadData}} -#' @param ids Character, (optional) a subset of ID fields to map -#' -#' @details -#' \code{tcplPrepOtpt} is used to map chemical and assay identifiers to their -#' respective names and annotation information to create a human-readable table -#' that is more suitable for an export/output. -#' -#' By default the function will map sample ID (spid), assay component id (acid), -#' and assay endpoint ID (aeid) values. However, if 'ids' is not null, the -#' function will only attempt to map the ID fields given by 'ids.' -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## Load some example data -#' d1 <- tcplLoadData(1) -#' -#' ## Check for chemical name in 'dat' -#' "chnm" %in% names(d1) ## FALSE -#' -#' ## Map chemical annotation only -#' d2 <- tcplPrepOtpt(d1, ids = "spid") -#' "chnm" %in% names(d2) ## TRUE -#' "acnm" %in% names(d2) ## FALSE -#' -#' ## Map all annotations -#' d3 <- tcplPrepOtpt(d1) ## Also works if function is given d2 -#' "chnm" %in% names(d2) ## TRUE -#' "acnm" %in% names(d2) ## TRUE -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @return The given data.table with chemical and assay information mapped -#' @export - -tcplPrepOtpt <- function(dat, ids = NULL) { - - ## Variable-binding to pass R CMD Check - acnm <- acid <- aenm <- resp_unit <- aeid <- spid <- chid <- NULL - code <- chnm <- casn <- NULL - - if (!"data.table" %in% class(dat)) { - stop("'dat' must be a data.table.") - } - - dnames <- names(dat) - - if (is.null(ids)) ids <- dnames - - if ("acid" %in% ids) { # Map acid names - if (!"acid" %in% dnames) { - warning("'acid' field is not in dat. No 'acid' mapping performed.") - } else { - if ("acnm" %in% dnames) dat[ , acnm := NULL] - dat <- merge(x = tcplLoadAcid("acid", dat[ , unique(acid)]), - y = dat, - by = "acid", - all.y = TRUE) - } - } - - if ("aeid" %in% ids) { # Map aeid names and resp_units - if (!"aeid" %in% dnames) { - warning("'aeid' field is not in dat. No 'aeid' mapping performed.") - } else { - if ("aenm" %in% dnames) dat[ , aenm := NULL] - if ("resp_unit" %in% dnames) dat[ , resp_unit := NULL] - dat <- merge(x = tcplLoadAeid("aeid", dat[ , unique(aeid)]), - y = dat, - by = "aeid", - all.y = TRUE) - dat <- merge(dat, tcplLoadUnit(dat[ , unique(aeid)]), by = "aeid") - } - } - - if ("spid" %in% ids) { - if (!"spid" %in% dnames) { - warning("'spid' field is not in dat. No 'spid' mapping performed.") - } else { - if ("chid" %in% dnames) dat[ , chid := NULL] - if ("casn" %in% dnames) dat[ , casn := NULL] - if ("chnm" %in% dnames) dat[ , chnm := NULL] - if ("code" %in% dnames) dat[ , code := NULL] - cmap <- suppressWarnings(tcplLoadChem("spid", dat[ , unique(spid)])) - dat <- merge(cmap, dat, by = "spid", all.y = TRUE) - } - } - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplPrepOtpt: Map assay/chemcial ID values to names +#------------------------------------------------------------------------------- + +#' @title Map assay/chemcial ID values to annotation information +#' +#' @description +#' \code{tcplPrepOtpt} queries the chemical and assay information from the tcpl +#' database, and maps the annotation information to the given data. +#' +#' @param dat data.table, output from \code{\link{tcplLoadData}} +#' @param ids Character, (optional) a subset of ID fields to map +#' +#' @details +#' \code{tcplPrepOtpt} is used to map chemical and assay identifiers to their +#' respective names and annotation information to create a human-readable table +#' that is more suitable for an export/output. +#' +#' By default the function will map sample ID (spid), assay component id (acid), +#' and assay endpoint ID (aeid) values. However, if 'ids' is not null, the +#' function will only attempt to map the ID fields given by 'ids.' +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## Load some example data +#' d1 <- tcplLoadData(1) +#' +#' ## Check for chemical name in 'dat' +#' "chnm" %in% names(d1) ## FALSE +#' +#' ## Map chemical annotation only +#' d2 <- tcplPrepOtpt(d1, ids = "spid") +#' "chnm" %in% names(d2) ## TRUE +#' "acnm" %in% names(d2) ## FALSE +#' +#' ## Map all annotations +#' d3 <- tcplPrepOtpt(d1) ## Also works if function is given d2 +#' "chnm" %in% names(d2) ## TRUE +#' "acnm" %in% names(d2) ## TRUE +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @return The given data.table with chemical and assay information mapped +#' @export + +tcplPrepOtpt <- function(dat, ids = NULL) { + + ## Variable-binding to pass R CMD Check + acnm <- acid <- aenm <- resp_unit <- aeid <- spid <- chid <- NULL + code <- chnm <- casn <- NULL + + if (!"data.table" %in% class(dat)) { + stop("'dat' must be a data.table.") + } + + dnames <- names(dat) + + if (is.null(ids)) ids <- dnames + + if ("acid" %in% ids) { # Map acid names + if (!"acid" %in% dnames) { + warning("'acid' field is not in dat. No 'acid' mapping performed.") + } else { + if ("acnm" %in% dnames) dat[ , acnm := NULL] + dat <- merge(x = tcplLoadAcid("acid", dat[ , unique(acid)]), + y = dat, + by = "acid", + all.y = TRUE) + } + } + + if ("aeid" %in% ids) { # Map aeid names and resp_units + if (!"aeid" %in% dnames) { + warning("'aeid' field is not in dat. No 'aeid' mapping performed.") + } else { + if ("aenm" %in% dnames) dat[ , aenm := NULL] + if ("resp_unit" %in% dnames) dat[ , resp_unit := NULL] + dat <- merge(x = tcplLoadAeid("aeid", dat[ , unique(aeid)]), + y = dat, + by = "aeid", + all.y = TRUE) + dat <- merge(dat, tcplLoadUnit(dat[ , unique(aeid)]), by = "aeid") + } + } + + if ("spid" %in% ids) { + if (!"spid" %in% dnames) { + warning("'spid' field is not in dat. No 'spid' mapping performed.") + } else { + if ("chid" %in% dnames) dat[ , chid := NULL] + if ("casn" %in% dnames) dat[ , casn := NULL] + if ("chnm" %in% dnames) dat[ , chnm := NULL] + if ("code" %in% dnames) dat[ , code := NULL] + cmap <- suppressWarnings(tcplLoadChem("spid", dat[ , unique(spid)])) + dat <- merge(cmap, dat, by = "spid", all.y = TRUE) + } + } + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplQuery.R b/R/tcplQuery.R index 520a08d..eeab241 100644 --- a/R/tcplQuery.R +++ b/R/tcplQuery.R @@ -1,71 +1,69 @@ -#------------------------------------------------------------------------------- -# tcplQuery: Query the tcpl databases -#------------------------------------------------------------------------------- - -#' @rdname query_funcs -#' -#' @import DBI -#' @importFrom RSQLite SQLite -#' @importMethodsFrom RSQLite dbConnect dbDisconnect dbGetQuery -#' @import data.table -#' @importFrom RMySQL MySQL -#' @importMethodsFrom RMySQL dbConnect dbDisconnect -#' @export - - -tcplQuery <- function(query, db = getOption("TCPL_DB"), - drvr = getOption("TCPL_DRVR")) { - - if (is.null(db)) db <- getOption("TCPL_DB") - if (is.null(drvr)) drvr <- getOption("TCPL_DRVR") - - #Check for valid inputs - if (length(query) != 1 || class(query) != "character") { - stop("The input 'query' must be a character of length one.") - } - if (length(db) != 1 || class(db) != "character") { - stop("The input 'db' must be a character of length one.") - } - - db_pars <- NULL - - if (drvr == "SQLite") { - - db_pars <- list(drv = SQLite(), - dbname = db) - - } - - if (drvr == "MySQL") { - - if (any(is.na(options()[c("TCPL_USER", "TCPL_HOST", "TCPL_PASS")]))) { - stop("Must configure TCPL_USER, TCPL_HOST, and TCPL_PASS options. See ", - "?tcplConf for more details.") - } - - db_pars <- list(drv = RMySQL::MySQL(), - user = getOption("TCPL_USER"), - password = getOption("TCPL_PASS"), - host = getOption("TCPL_HOST"), - dbname = db) - - } - - if (is.null(db_pars)) { - - stop(getOption("TCPL_DRVR"), " is not a supported database system. See ", - "?tcplConf for more details.") - - } - - dbcon <- do.call(dbConnect, db_pars) - result <- dbGetQuery(dbcon, query) - - dbDisconnect(dbcon) - - result <- as.data.table(result) - result[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplQuery: Query the tcpl databases +#------------------------------------------------------------------------------- + +#' @rdname query_funcs +#' +#' @import DBI +#' @importFrom RSQLite SQLite +#' @import data.table +#' @importFrom RMySQL MySQL +#' @export + + +tcplQuery <- function(query, db = getOption("TCPL_DB"), + drvr = getOption("TCPL_DRVR")) { + + if (is.null(db)) db <- getOption("TCPL_DB") + if (is.null(drvr)) drvr <- getOption("TCPL_DRVR") + + #Check for valid inputs + if (length(query) != 1 || class(query) != "character") { + stop("The input 'query' must be a character of length one.") + } + if (length(db) != 1 || class(db) != "character") { + stop("The input 'db' must be a character of length one.") + } + + db_pars <- NULL + + if (drvr == "SQLite") { + + db_pars <- list(drv = SQLite(), + dbname = db) + + } + + if (drvr == "MySQL") { + + if (any(is.na(options()[c("TCPL_USER", "TCPL_HOST", "TCPL_PASS")]))) { + stop("Must configure TCPL_USER, TCPL_HOST, and TCPL_PASS options. See ", + "?tcplConf for more details.") + } + + db_pars <- list(drv = RMySQL::MySQL(), + user = getOption("TCPL_USER"), + password = getOption("TCPL_PASS"), + host = getOption("TCPL_HOST"), + dbname = db) + + } + + if (is.null(db_pars)) { + + stop(getOption("TCPL_DRVR"), " is not a supported database system. See ", + "?tcplConf for more details.") + + } + + dbcon <- do.call(dbConnect, db_pars) + result <- DBI::dbGetQuery(dbcon, query) + + dbDisconnect(dbcon) + + result <- as.data.table(result) + result[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplRegister.R b/R/tcplRegister.R index 5eb2ee9..e167c8f 100644 --- a/R/tcplRegister.R +++ b/R/tcplRegister.R @@ -1,48 +1,48 @@ -#------------------------------------------------------------------------------- -# tcplRegister: Register new assay or chemical information -#------------------------------------------------------------------------------- - -#' @rdname rgstr_funcs -#' -#' @import data.table -#' @export - - -tcplRegister <- function(what, flds) { - - i <- switch(what, - asid = list("assay_source", "assay_source_name"), - aid = list("assay", c("asid", "assay_name", "assay_footprint")), - acid = list("assay_component", c("aid", "assay_component_name")), - aeid = list("assay_component_endpoint", - c("acid", - "assay_component_endpoint_name", - "normalized_data_type")), - acsn = list("assay_component_map", c("acid", "acsn")), - spid = list("sample", c("spid", "chid")), - chid = list("chemical", c("chnm", "casn")), - clib = list("chemical_library", c("chid", "clib"))) - - if (is.null(i)) stop("Not a valid 'what' input.") - - pot_flds <- tcplListFlds(tbl = i[[1]], db = getOption("TCPL_DB")) - flds <- as.data.table(flds) - setnames(flds, .convertNames(names(flds))) - - if (any(!i[[2]] %in% names(flds))) { - stop("Missing required fields for registering a(n) ", what, - ". See ?tcplRegister") - } - - if (any(!names(flds) %in% pot_flds)) { - warning("Some of the given fields are not in the ", i[[1]], " table. ", - "Extra fields will be ignored.") - xtra <- names(flds)[!names(flds) %in% pot_flds] - flds[ , c(xtra) := NULL] - } - - tcplAppend(dat = flds, tbl = i[[1]], db = getOption("TCPL_DB")) - - TRUE - +#------------------------------------------------------------------------------- +# tcplRegister: Register new assay or chemical information +#------------------------------------------------------------------------------- + +#' @rdname rgstr_funcs +#' +#' @import data.table +#' @export + + +tcplRegister <- function(what, flds) { + + i <- switch(what, + asid = list("assay_source", "assay_source_name"), + aid = list("assay", c("asid", "assay_name", "assay_footprint")), + acid = list("assay_component", c("aid", "assay_component_name")), + aeid = list("assay_component_endpoint", + c("acid", + "assay_component_endpoint_name", + "normalized_data_type")), + acsn = list("assay_component_map", c("acid", "acsn")), + spid = list("sample", c("spid", "chid")), + chid = list("chemical", c("chnm", "casn")), + clib = list("chemical_library", c("chid", "clib"))) + + if (is.null(i)) stop("Not a valid 'what' input.") + + pot_flds <- tcplListFlds(tbl = i[[1]], db = getOption("TCPL_DB")) + flds <- as.data.table(flds) + setnames(flds, .convertNames(names(flds))) + + if (any(!i[[2]] %in% names(flds))) { + stop("Missing required fields for registering a(n) ", what, + ". See ?tcplRegister") + } + + if (any(!names(flds) %in% pot_flds)) { + warning("Some of the given fields are not in the ", i[[1]], " table. ", + "Extra fields will be ignored.") + xtra <- names(flds)[!names(flds) %in% pot_flds] + flds[ , c(xtra) := NULL] + } + + tcplAppend(dat = flds, tbl = i[[1]], db = getOption("TCPL_DB")) + + TRUE + } \ No newline at end of file diff --git a/R/tcplRun.R b/R/tcplRun.R index 2580578..6f62494 100644 --- a/R/tcplRun.R +++ b/R/tcplRun.R @@ -1,341 +1,341 @@ -#------------------------------------------------------------------------------- -# tcplRun: Perform data processing -#------------------------------------------------------------------------------- - -#' @title Perform data processing -#' -#' @description -#' \code{tcplRun} is the function for performing the data processing, for both -#' single-concentration and multiple-concentration formats. -#' -#' @param asid Integer, assay source id -#' @param slvl Integer of length 1, the starting level to process -#' @param elvl Integer of length 1, the ending level to process -#' @param id Integer, rather than assay source id, the specific assay -#' component or assay endpoint id(s) (optional) -#' @param type Character of length 1, the data type, "sc" or "mc" -#' @param mc.cores Integer of length 1, the number of cores to use, set to 1 -#' when using Windows operating system -#' @param outfile Character of length 1, the name of the log file (optional) -#' @param runname Character of length 1, the name of the run to be used in the -#' oufile (optional) -#' -#' @details -#' The \code{tcplRun} function is the core processing function within the -#' package. The function acts as a wrapper for individual processing functions, -#' (ie. \code{mc1}, \code{sc1}, etc.) that are not exported. If possible, the -#' processing is done in parallel by 'id' by utilizing the -#' \code{\link{mclapply}} function within the parallel package. -#' -#' If slvl is less than 4, 'id' is interpreted as acid and if slvl is 4 or -#' greater 'id' is interpreted as aeid. Must give either 'asid' or 'id'. If an -#' id fails no results get loaded into the database, and the id does not get -#' placed into the cue for subsequent level processing. -#' -#' The 'type' parameter specifies what type of processing to complete: "mc" for -#' multiple-concentration processing, and "sc" for single-concentration -#' processing. -#' -#' @return A list containing the results from each level of processing. Each -#' level processed will return a named logical vector, indicating the success -#' of the processing for the id. -#' -#' @family data processing functions -#' @importFrom parallel detectCores -#' @export - -tcplRun <- function(asid = NULL, slvl, elvl, id = NULL, type = "mc", - mc.cores = NULL, outfile = NULL, runname = NULL) { - - ## Variable-binding to pass R CMD Check - # acid <- aeid <- NULL - - owarn <- getOption("warn") - options(warn = 1) - on.exit(options(warn = owarn)) - - user <- paste(Sys.info()[c("login", "user", "effective_user")], - collapse = ".") - - stime <- Sys.time() - - if (Sys.info()["sysname"] == "Windows") mc.cores <- 1 - - if (length(slvl) > 1 | !is.numeric(slvl)) { - stop("Invalid slvl - must be integer of length 1.") - } - - if (is.null(elvl) | elvl < slvl) elvl <- slvl - - if (length(elvl) > 1 | !is.numeric(elvl)) { - stop("Invalid elvl - must be integer of length 1.") - } - - if (length(type) > 1 | !type %in% c("mc", "sc")) { - stop ("Invalid 'type' value.") - } - - if (!is.null(asid)) id <- tcplLoadAcid("asid", asid)$acid - if (length(id) == 0) stop("No asid or id given.") - id <- unique(id) - - if (!is.null(outfile)) { - cat("Writing output to:", outfile, "\n") - logcon <- file(outfile, open = "a") - sink(logcon, append = TRUE) - sink(logcon, append = TRUE, type="message") - on.exit(sink.reset(), add = TRUE) - on.exit(close.connection(logcon), add = TRUE) - on.exit(cat("Output appended to log file:", outfile, "\n"), add = TRUE) - cat("\n\n\n") - cat("RUNDATE -- ", format(stime, "%y%m%d; %H:%M"), "\n", - "USER -- ", user, "\n", - "TYPE -- ", type, "\n", - "LEVEL ", slvl, " TO ", "LEVEL ", elvl, "\n", - "RUN -- ", runname, "\n", - sep = "") - cat("\n\n") - } - - if (is.null(mc.cores)) { - ncores <- min(length(id), detectCores() - 1) - } else { - ncores <- mc.cores - } - - names(id) <- paste0("ACID", id) - res <- list() - - ## Multiple-concentration processing - if (type == "mc") { - - ## Do level 1 processing - if (slvl <= 1L) { - res$l1 <- .multProc(id = id, lvl = 1L, type = "mc", ncores = ncores) - res$l1_failed <- names(which(res$l1 != TRUE)) - id <- id[which(res$l1[names(id)] == TRUE)] - if (length(id) == 0) { - warning("Pipeline stopped early at level 1; processing errors ", - "occured with all given acids by level 1.") - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - if (length(res$l1_failed) > 0) { - warning(length(res$l1_failed), " ids failed at level 1.") - } - } - - if (elvl <= 1L) { - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - - ## Do level 2 processing - if (slvl <= 2L) { - res$l2 <- .multProc(id = id, lvl = 2L, type = "mc", ncores = ncores) - res$l2_failed <- names(which(res$l2 != TRUE)) - id <- id[which(res$l2[names(id)] == TRUE)] - if (length(id) == 0) { - warning("Pipeline stopped early at level 2; processing errors ", - "occured with all given acids by level 2.") - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - if (length(res$l2_failed) > 0) { - warning(length(res$l2_failed), " ids failed at level 2.") - } - } - - if (elvl == 2L) { - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - - ## Do level 3 processing - if (slvl <= 3L) { - res$l3 <- .multProc(id = id, lvl = 3L, type = "mc", ncores = ncores) - res$l3_failed <- names(which(res$l3 != TRUE)) - id <- id[which(res$l3[names(id)] == TRUE)] - if (length(id) == 0) { - warning("Pipeline stopped early at level 3; processing errors ", - "occured with all given acids by level 3.") - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - if (length(res$l3_failed) > 0) { - warning(length(res$l3_failed), " ids failed at level 3.") - } - } - - if (elvl == 3L) { - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - - ## Change ids from acid to aeid, if necessary - if (slvl < 4L | !is.null(asid)) id <- tcplLoadAeid("acid", id)$aeid - names(id) <- paste0("AEID", id) - if (is.null(mc.cores)) ncores <- min(length(id), detectCores() - 1) - - ## Do level 4 processing - if (slvl <= 4L) { - res$l4 <- .multProc(id = id, lvl = 4L, type = "mc", ncores = ncores) - res$l4_failed <- names(which(res$l4 != TRUE)) - id <- id[which(res$l4[names(id)] == TRUE)] - if (length(id) == 0) { - warning("Pipeline stopped early at level 4; processing errors ", - "occured with all given acids by level 4.") - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - if (length(res$l4_failed) > 0) { - warning(length(res$l4_failed), " ids failed at level 4.") - } - } - - if (elvl == 4L) { - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - - ## Do level 5 processing - if (slvl <= 5L) { - res$l5 <- .multProc(id = id, lvl = 5L, type = "mc", ncores = ncores) - res$l5_failed <- names(which(res$l5 != TRUE)) - id <- id[which(res$l5[names(id)] == TRUE)] - if (length(id) == 0) { - warning("Pipeline stopped early at level 5; processing errors ", - "occured with all given acids by level 5.") - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - if (length(res$l5_failed) > 0) { - warning(length(res$l5_failed), " ids failed at level 5.") - } - } - - if (elvl == 5L) { - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - - ## Do level 6 processing - if (slvl <= 6L) { - res$l6 <- .multProc(id = id, lvl = 6L, type = "mc", ncores = ncores) - res$l6_failed <- names(which(res$l6 != TRUE)) - id <- id[which(res$l6[names(id)] == TRUE)] - if (length(id) == 0) { - warning("Pipeline stopped early at level 6; processing errors ", - "occured with all given acids by level 6.") - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - if (length(res$l6_failed) > 0) { - warning(length(res$l6_failed), " ids failed at level 6.") - } - } - - if (elvl == 6L) { - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - - } ## END multiple-concentration processing - - ## Single-concentration processing - if (type == "sc") { - - ## Do level 1 processing - if (slvl <= 1L) { - res$l1 <- .multProc(id = id, lvl = 1L, type = "sc", ncores = ncores) - res$l1_failed <- names(which(res$l1 != TRUE)) - id <- id[which(res$l1[names(id)] == TRUE)] - if (length(id) == 0) { - warning("Pipeline stopped early at level 1; processing errors ", - "occured with all given acids by level 1.") - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - if (length(res$l1_failed) > 0) { - warning(length(res$l1_failed), " ids failed at level 1.") - } - } - - if (elvl <= 1L) { - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - - ## Change ids from acid to aeid, if necessary - if (slvl < 2L | !is.null(asid)) id <- tcplLoadAeid("acid", id)$aeid - names(id) <- paste0("AEID", id) - if (is.null(mc.cores)) ncores <- min(length(id), detectCores() - 1) - - ## Do level 2 processing - if (slvl <= 2L) { - res$l2 <- .multProc(id = id, lvl = 2L, type = "sc", ncores = ncores) - res$l2_failed <- names(which(res$l2 != TRUE)) - id <- id[which(res$l2[names(id)] == TRUE)] - if (length(id) == 0) { - warning("Pipeline stopped early at level 2; processing errors ", - "occured with all given acids by level 2.") - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - if (length(res$l2_failed) > 0) { - warning(length(res$l2_failed), " ids failed at level 2.") - } - } - - if (elvl == 2L) { - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - } - - ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) - ttime <- paste(unclass(ttime), units(ttime)) - cat("\n\nTotal processing time:", ttime, "\n\n") - return(res) - - } ## END single-concentration processing - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplRun: Perform data processing +#------------------------------------------------------------------------------- + +#' @title Perform data processing +#' +#' @description +#' \code{tcplRun} is the function for performing the data processing, for both +#' single-concentration and multiple-concentration formats. +#' +#' @param asid Integer, assay source id +#' @param slvl Integer of length 1, the starting level to process +#' @param elvl Integer of length 1, the ending level to process +#' @param id Integer, rather than assay source id, the specific assay +#' component or assay endpoint id(s) (optional) +#' @param type Character of length 1, the data type, "sc" or "mc" +#' @param mc.cores Integer of length 1, the number of cores to use, set to 1 +#' when using Windows operating system +#' @param outfile Character of length 1, the name of the log file (optional) +#' @param runname Character of length 1, the name of the run to be used in the +#' oufile (optional) +#' +#' @details +#' The \code{tcplRun} function is the core processing function within the +#' package. The function acts as a wrapper for individual processing functions, +#' (ie. \code{mc1}, \code{sc1}, etc.) that are not exported. If possible, the +#' processing is done in parallel by 'id' by utilizing the +#' \code{\link{mclapply}} function within the parallel package. +#' +#' If slvl is less than 4, 'id' is interpreted as acid and if slvl is 4 or +#' greater 'id' is interpreted as aeid. Must give either 'asid' or 'id'. If an +#' id fails no results get loaded into the database, and the id does not get +#' placed into the cue for subsequent level processing. +#' +#' The 'type' parameter specifies what type of processing to complete: "mc" for +#' multiple-concentration processing, and "sc" for single-concentration +#' processing. +#' +#' @return A list containing the results from each level of processing. Each +#' level processed will return a named logical vector, indicating the success +#' of the processing for the id. +#' +#' @family data processing functions +#' @importFrom parallel detectCores +#' @export + +tcplRun <- function(asid = NULL, slvl, elvl, id = NULL, type = "mc", + mc.cores = NULL, outfile = NULL, runname = NULL) { + + ## Variable-binding to pass R CMD Check + # acid <- aeid <- NULL + + owarn <- getOption("warn") + options(warn = 1) + on.exit(options(warn = owarn)) + + user <- paste(Sys.info()[c("login", "user", "effective_user")], + collapse = ".") + + stime <- Sys.time() + + if (Sys.info()["sysname"] == "Windows") mc.cores <- 1 + + if (length(slvl) > 1 | !is.numeric(slvl)) { + stop("Invalid slvl - must be integer of length 1.") + } + + if (is.null(elvl) | elvl < slvl) elvl <- slvl + + if (length(elvl) > 1 | !is.numeric(elvl)) { + stop("Invalid elvl - must be integer of length 1.") + } + + if (length(type) > 1 | !type %in% c("mc", "sc")) { + stop ("Invalid 'type' value.") + } + + if (!is.null(asid)) id <- tcplLoadAcid("asid", asid)$acid + if (length(id) == 0) stop("No asid or id given.") + id <- unique(id) + + if (!is.null(outfile)) { + cat("Writing output to:", outfile, "\n") + logcon <- file(outfile, open = "a") + sink(logcon, append = TRUE) + sink(logcon, append = TRUE, type="message") + on.exit(sink.reset(), add = TRUE) + on.exit(close.connection(logcon), add = TRUE) + on.exit(cat("Output appended to log file:", outfile, "\n"), add = TRUE) + cat("\n\n\n") + cat("RUNDATE -- ", format(stime, "%y%m%d; %H:%M"), "\n", + "USER -- ", user, "\n", + "TYPE -- ", type, "\n", + "LEVEL ", slvl, " TO ", "LEVEL ", elvl, "\n", + "RUN -- ", runname, "\n", + sep = "") + cat("\n\n") + } + + if (is.null(mc.cores)) { + ncores <- min(length(id), detectCores() - 1) + } else { + ncores <- mc.cores + } + + names(id) <- paste0("ACID", id) + res <- list() + + ## Multiple-concentration processing + if (type == "mc") { + + ## Do level 1 processing + if (slvl <= 1L) { + res$l1 <- .multProc(id = id, lvl = 1L, type = "mc", ncores = ncores) + res$l1_failed <- names(which(res$l1 != TRUE)) + id <- id[which(res$l1[names(id)] == TRUE)] + if (length(id) == 0) { + warning("Pipeline stopped early at level 1; processing errors ", + "occured with all given acids by level 1.") + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + if (length(res$l1_failed) > 0) { + warning(length(res$l1_failed), " ids failed at level 1.") + } + } + + if (elvl <= 1L) { + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + + ## Do level 2 processing + if (slvl <= 2L) { + res$l2 <- .multProc(id = id, lvl = 2L, type = "mc", ncores = ncores) + res$l2_failed <- names(which(res$l2 != TRUE)) + id <- id[which(res$l2[names(id)] == TRUE)] + if (length(id) == 0) { + warning("Pipeline stopped early at level 2; processing errors ", + "occured with all given acids by level 2.") + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + if (length(res$l2_failed) > 0) { + warning(length(res$l2_failed), " ids failed at level 2.") + } + } + + if (elvl == 2L) { + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + + ## Do level 3 processing + if (slvl <= 3L) { + res$l3 <- .multProc(id = id, lvl = 3L, type = "mc", ncores = ncores) + res$l3_failed <- names(which(res$l3 != TRUE)) + id <- id[which(res$l3[names(id)] == TRUE)] + if (length(id) == 0) { + warning("Pipeline stopped early at level 3; processing errors ", + "occured with all given acids by level 3.") + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + if (length(res$l3_failed) > 0) { + warning(length(res$l3_failed), " ids failed at level 3.") + } + } + + if (elvl == 3L) { + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + + ## Change ids from acid to aeid, if necessary + if (slvl < 4L | !is.null(asid)) id <- tcplLoadAeid("acid", id)$aeid + names(id) <- paste0("AEID", id) + if (is.null(mc.cores)) ncores <- min(length(id), detectCores() - 1) + + ## Do level 4 processing + if (slvl <= 4L) { + res$l4 <- .multProc(id = id, lvl = 4L, type = "mc", ncores = ncores) + res$l4_failed <- names(which(res$l4 != TRUE)) + id <- id[which(res$l4[names(id)] == TRUE)] + if (length(id) == 0) { + warning("Pipeline stopped early at level 4; processing errors ", + "occured with all given acids by level 4.") + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + if (length(res$l4_failed) > 0) { + warning(length(res$l4_failed), " ids failed at level 4.") + } + } + + if (elvl == 4L) { + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + + ## Do level 5 processing + if (slvl <= 5L) { + res$l5 <- .multProc(id = id, lvl = 5L, type = "mc", ncores = ncores) + res$l5_failed <- names(which(res$l5 != TRUE)) + id <- id[which(res$l5[names(id)] == TRUE)] + if (length(id) == 0) { + warning("Pipeline stopped early at level 5; processing errors ", + "occured with all given acids by level 5.") + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + if (length(res$l5_failed) > 0) { + warning(length(res$l5_failed), " ids failed at level 5.") + } + } + + if (elvl == 5L) { + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + + ## Do level 6 processing + if (slvl <= 6L) { + res$l6 <- .multProc(id = id, lvl = 6L, type = "mc", ncores = ncores) + res$l6_failed <- names(which(res$l6 != TRUE)) + id <- id[which(res$l6[names(id)] == TRUE)] + if (length(id) == 0) { + warning("Pipeline stopped early at level 6; processing errors ", + "occured with all given acids by level 6.") + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + if (length(res$l6_failed) > 0) { + warning(length(res$l6_failed), " ids failed at level 6.") + } + } + + if (elvl == 6L) { + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + + } ## END multiple-concentration processing + + ## Single-concentration processing + if (type == "sc") { + + ## Do level 1 processing + if (slvl <= 1L) { + res$l1 <- .multProc(id = id, lvl = 1L, type = "sc", ncores = ncores) + res$l1_failed <- names(which(res$l1 != TRUE)) + id <- id[which(res$l1[names(id)] == TRUE)] + if (length(id) == 0) { + warning("Pipeline stopped early at level 1; processing errors ", + "occured with all given acids by level 1.") + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + if (length(res$l1_failed) > 0) { + warning(length(res$l1_failed), " ids failed at level 1.") + } + } + + if (elvl <= 1L) { + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + + ## Change ids from acid to aeid, if necessary + if (slvl < 2L | !is.null(asid)) id <- tcplLoadAeid("acid", id)$aeid + names(id) <- paste0("AEID", id) + if (is.null(mc.cores)) ncores <- min(length(id), detectCores() - 1) + + ## Do level 2 processing + if (slvl <= 2L) { + res$l2 <- .multProc(id = id, lvl = 2L, type = "sc", ncores = ncores) + res$l2_failed <- names(which(res$l2 != TRUE)) + id <- id[which(res$l2[names(id)] == TRUE)] + if (length(id) == 0) { + warning("Pipeline stopped early at level 2; processing errors ", + "occured with all given acids by level 2.") + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + if (length(res$l2_failed) > 0) { + warning(length(res$l2_failed), " ids failed at level 2.") + } + } + + if (elvl == 2L) { + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + } + + ttime <- round(difftime(Sys.time(), stime, units = "min"), 2) + ttime <- paste(unclass(ttime), units(ttime)) + cat("\n\nTotal processing time:", ttime, "\n\n") + return(res) + + } ## END single-concentration processing + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplSendQuery.R b/R/tcplSendQuery.R index 87e669c..6409635 100644 --- a/R/tcplSendQuery.R +++ b/R/tcplSendQuery.R @@ -1,69 +1,67 @@ -#------------------------------------------------------------------------------- -# tcplSendQuery: Send query to the tcpl databases -#------------------------------------------------------------------------------- - -#' @rdname query_funcs -#' -#' @import DBI -#' @importFrom RSQLite SQLite -#' @importMethodsFrom RSQLite dbSendQuery dbClearResult dbDisconnect dbConnect -#' @import data.table -#' @importFrom RMySQL MySQL -#' @importMethodsFrom RMySQL dbSendQuery dbClearResult dbDisconnect dbConnect -#' @importFrom methods is -#' @export - -tcplSendQuery <- function(query, db = getOption("TCPL_DB"), - drvr = getOption("TCPL_DRVR")) { - - #Check for valid inputs - if (length(query) != 1 | class(query) != "character") { - stop("The input 'query' must be a character of length one.") - } - if (length(db) != 1 | class(db) != "character") { - stop("The input 'db' must be a character of length one.") - } - - db_pars <- NULL - - if (getOption("TCPL_DRVR") == "SQLite") { - - db_pars <- list(drv = SQLite(), - dbname = db) - - } - - if (getOption("TCPL_DRVR") == "MySQL") { - - if (any(is.na(options()[c("TCPL_USER", "TCPL_HOST", "TCPL_PASS")]))) { - stop("Must configure TCPL_USER, TCPL_HOST, and TCPL_PASS options. See ", - "?tcplConf for more details.") - } - - db_pars <- list(drv = RMySQL::MySQL(), - user = getOption("TCPL_USER"), - password = getOption("TCPL_PASS"), - host = getOption("TCPL_HOST"), - dbname = db) - - } - - if (is.null(db_pars)) { - - stop(getOption("TCPL_DRVR"), " is not a supported database system. See ", - "?tcplConf for more details.") - - } - - dbcon <- do.call(dbConnect, db_pars) - temp <- try(dbSendQuery(dbcon, query), silent = TRUE) - if (!is(temp, "try-error")) dbClearResult(temp) - dbDisconnect(dbcon) - - if (!is(temp, "try-error")) return(TRUE) - - temp[1] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplSendQuery: Send query to the tcpl databases +#------------------------------------------------------------------------------- + +#' @rdname query_funcs +#' +#' @import DBI +#' @importFrom RSQLite SQLite +#' @import data.table +#' @importFrom RMySQL MySQL +#' @importFrom methods is +#' @export + +tcplSendQuery <- function(query, db = getOption("TCPL_DB"), + drvr = getOption("TCPL_DRVR")) { + + #Check for valid inputs + if (length(query) != 1 | class(query) != "character") { + stop("The input 'query' must be a character of length one.") + } + if (length(db) != 1 | class(db) != "character") { + stop("The input 'db' must be a character of length one.") + } + + db_pars <- NULL + + if (getOption("TCPL_DRVR") == "SQLite") { + + db_pars <- list(drv = SQLite(), + dbname = db) + + } + + if (getOption("TCPL_DRVR") == "MySQL") { + + if (any(is.na(options()[c("TCPL_USER", "TCPL_HOST", "TCPL_PASS")]))) { + stop("Must configure TCPL_USER, TCPL_HOST, and TCPL_PASS options. See ", + "?tcplConf for more details.") + } + + db_pars <- list(drv = RMySQL::MySQL(), + user = getOption("TCPL_USER"), + password = getOption("TCPL_PASS"), + host = getOption("TCPL_HOST"), + dbname = db) + + } + + if (is.null(db_pars)) { + + stop(getOption("TCPL_DRVR"), " is not a supported database system. See ", + "?tcplConf for more details.") + + } + + dbcon <- do.call(dbConnect, db_pars) + temp <- try(dbSendQuery(dbcon, query), silent = TRUE) + if (!is(temp, "try-error")) dbClearResult(temp) + dbDisconnect(dbcon) + + if (!is(temp, "try-error")) return(TRUE) + + temp[1] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplSubsetChid.R b/R/tcplSubsetChid.R index e4e923b..ff2f752 100644 --- a/R/tcplSubsetChid.R +++ b/R/tcplSubsetChid.R @@ -1,109 +1,109 @@ -#------------------------------------------------------------------------------- -# tcplSubsetChid: Subset level 5 data to a single sample per chemical -#------------------------------------------------------------------------------- - -#' @title Subset level 5 data to a single sample per chemical -#' -#' @description -#' \code{tcplSubsetChid} subsets level 5 data to a single tested sample per -#' chemical. In other words, if a chemical is tested more than once (a chid -#' has more than one spid) for a given assay endpoint, the function uses a -#' series of logic to select a single "representative" sample. -#' -#' @param dat data.table, a data.table with level 5 data -#' @param flag Integer, the mc6_mthd_id values to go into the flag count, see -#' details for more information -#' -#' @details -#' \code{tcplSubsetChid} is intended to work with level 5 data that has -#' chemical and assay information mapped with \code{\link{tcplPrepOtpt}}. -#' -#' To select a single sample, first a "consensus hit-call" is made by majority -#' rule, with ties defaulting to active. After the chemical-wise hit call is -#' made, the samples corresponding to to chemical-wise hit call are logically -#' ordered using the fit category, the number of the flags, and the modl_ga, -#' then the first sample for every chemical is selected. -#' -#' The \code{flag} param can be used to specify a subset of flags to be used in -#' the flag count. Leaving \code{flag} TRUE utilize all the available flags. -#' Setting \code{flag} to \code{FALSE} will do the subsetting without -#' considering any flags. -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## Load the example level 5 data -#' d1 <- tcplLoadData(lvl = 5, fld = "aeid", val = 2) -#' d1 <- tcplPrepOtpt(d1) -#' -#' ## Subset to an example of a duplicated chid -#' d2 <- d1[chid == 559] -#' d2[ , list(m4id, hitc, fitc, modl_ga)] -#' -#' ## Here the consensus hit-call is 1 (active), and the fit categories are -#' ## all equal. Therefore, if the flags are ignored, the selected sample will -#' ## be the sample with the lowest modl_ga. -#' tcplSubsetChid(dat = d2, flag = FALSE)[ , list(m4id, modl_ga)] -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @return A data.table with a single sample for every given chemical-assay -#' pair. -#' -#' @seealso \code{\link{tcplPrepOtpt}} -#' -#' @import data.table -#' @export - -tcplSubsetChid <- function(dat, flag = TRUE) { - - ## Variable-binding to pass R CMD Check - chit <- hitc <- aeid <- casn <- fitc <- fitc.ordr <- m4id <- nflg <- NULL - chid <- NULL - - if (!"m5id" %in% names(dat)) { - stop("'dat' must be a data.table with level 5 data. See ?tcplLoadData for", - " more information.") - } - if (!"casn" %in% names(dat)) dat <- tcplPrepOtpt(dat) - - dat[ , chit := mean(hitc[hitc %in% 0:1]) >= 0.5, by = list(aeid, chid)] - dat <- dat[hitc == chit | (is.na(chit) & (hitc == -1 | is.na(m4id)))] - - dat[ , fitc.ordr := NA_integer_] - dat[fitc %in% c(37, 41, 46, 50), fitc.ordr := 0] - dat[fitc %in% c(38, 42, 47, 51), fitc.ordr := 1] - dat[fitc %in% c(36, 40, 45, 49), fitc.ordr := 2] - - if (is.null(flag)) flag <- TRUE - - if (flag[1] | length(flag) > 1) { - - tst <- is.logical(flag) - prs <- if (tst) list() else list(fld = "mc6_mthd_id", val = flag) - flg <- do.call(tcplLoadData, c(lvl = 6L, prs)) - flg <- flg[ , list(nflg = .N), by = m4id] - setkey(flg, m4id) - setkey(dat, m4id) - - dat <- flg[dat] - - } else { - - dat[ , nflg := FALSE] - - } - - setkeyv(dat, c("aeid", "chid", "fitc.ordr", "nflg", "modl_ga")) - min_modl_ga <- dat[ , list(ind = .I[1]), by = list(aeid, casn)] - dat <- dat[min_modl_ga$ind] - - dat[] - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplSubsetChid: Subset level 5 data to a single sample per chemical +#------------------------------------------------------------------------------- + +#' @title Subset level 5 data to a single sample per chemical +#' +#' @description +#' \code{tcplSubsetChid} subsets level 5 data to a single tested sample per +#' chemical. In other words, if a chemical is tested more than once (a chid +#' has more than one spid) for a given assay endpoint, the function uses a +#' series of logic to select a single "representative" sample. +#' +#' @param dat data.table, a data.table with level 5 data +#' @param flag Integer, the mc6_mthd_id values to go into the flag count, see +#' details for more information +#' +#' @details +#' \code{tcplSubsetChid} is intended to work with level 5 data that has +#' chemical and assay information mapped with \code{\link{tcplPrepOtpt}}. +#' +#' To select a single sample, first a "consensus hit-call" is made by majority +#' rule, with ties defaulting to active. After the chemical-wise hit call is +#' made, the samples corresponding to to chemical-wise hit call are logically +#' ordered using the fit category, the number of the flags, and the modl_ga, +#' then the first sample for every chemical is selected. +#' +#' The \code{flag} param can be used to specify a subset of flags to be used in +#' the flag count. Leaving \code{flag} TRUE utilize all the available flags. +#' Setting \code{flag} to \code{FALSE} will do the subsetting without +#' considering any flags. +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## Load the example level 5 data +#' d1 <- tcplLoadData(lvl = 5, fld = "aeid", val = 2) +#' d1 <- tcplPrepOtpt(d1) +#' +#' ## Subset to an example of a duplicated chid +#' d2 <- d1[chid == 559] +#' d2[ , list(m4id, hitc, fitc, modl_ga)] +#' +#' ## Here the consensus hit-call is 1 (active), and the fit categories are +#' ## all equal. Therefore, if the flags are ignored, the selected sample will +#' ## be the sample with the lowest modl_ga. +#' tcplSubsetChid(dat = d2, flag = FALSE)[ , list(m4id, modl_ga)] +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @return A data.table with a single sample for every given chemical-assay +#' pair. +#' +#' @seealso \code{\link{tcplPrepOtpt}} +#' +#' @import data.table +#' @export + +tcplSubsetChid <- function(dat, flag = TRUE) { + + ## Variable-binding to pass R CMD Check + chit <- hitc <- aeid <- casn <- fitc <- fitc.ordr <- m4id <- nflg <- NULL + chid <- NULL + + if (!"m5id" %in% names(dat)) { + stop("'dat' must be a data.table with level 5 data. See ?tcplLoadData for", + " more information.") + } + if (!"casn" %in% names(dat)) dat <- tcplPrepOtpt(dat) + + dat[ , chit := mean(hitc[hitc %in% 0:1]) >= 0.5, by = list(aeid, chid)] + dat <- dat[hitc == chit | (is.na(chit) & (hitc == -1 | is.na(m4id)))] + + dat[ , fitc.ordr := NA_integer_] + dat[fitc %in% c(37, 41, 46, 50), fitc.ordr := 0] + dat[fitc %in% c(38, 42, 47, 51), fitc.ordr := 1] + dat[fitc %in% c(36, 40, 45, 49), fitc.ordr := 2] + + if (is.null(flag)) flag <- TRUE + + if (flag[1] | length(flag) > 1) { + + tst <- is.logical(flag) + prs <- if (tst) list() else list(fld = "mc6_mthd_id", val = flag) + flg <- do.call(tcplLoadData, c(lvl = 6L, prs)) + flg <- flg[ , list(nflg = .N), by = m4id] + setkey(flg, m4id) + setkey(dat, m4id) + + dat <- flg[dat] + + } else { + + dat[ , nflg := FALSE] + + } + + setkeyv(dat, c("aeid", "chid", "fitc.ordr", "nflg", "modl_ga")) + min_modl_ga <- dat[ , list(ind = .I[1]), by = list(aeid, casn)] + dat <- dat[min_modl_ga$ind] + + dat[] + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplUpdate.R b/R/tcplUpdate.R index 4a20cbd..03c44a0 100644 --- a/R/tcplUpdate.R +++ b/R/tcplUpdate.R @@ -1,60 +1,60 @@ -#------------------------------------------------------------------------------- -# tcplUpdate: Update assay or chemical information -#------------------------------------------------------------------------------- - -#' @rdname rgstr_funcs -#' -#' @import data.table -#' @export - - -tcplUpdate <- function(what, id, flds) { - - lens <- c(length(id), sapply(flds, length)) - if (!all.equal(max(lens), min(lens))) { - stop("The length of 'id' and the lengths of each list element in 'flds'", - " must be equal.") - } - - i <- switch(what, - asid = "assay_source", - aid = "assay", - acid = "assay_component", - aeid = "assay_component_endpoint", - acsn = "assay_component_map", - spid = "sample", - chid = "chemical", - clib = "chemical_library") - - if (is.null(i)) stop("Not a valid 'what' input.") - - pot_flds <- tcplListFlds(tbl = i[[1]], db = getOption("TCPL_DB")) - flds <- as.data.table(flds) - setnames(flds, .convertNames(names(flds))) - - if (any(!names(flds) %in% pot_flds)) { - warning("Some of the given fields are not in the ", i[[1]], " table. ", - "Extra fields will be ignored.") - xtra <- names(flds)[!names(flds) %in% pot_flds] - flds[ , c(xtra) := NULL] - } - - qf <- paste("UPDATE", i, "%s", "WHERE", what, "=", id) - - for (i in 1:nrow(flds)) { - inst <- paste0(names(flds), " = ", "\"", flds[i], "\"", collapse = ", ") - inst <- paste("SET", inst) - qf[i] <- sprintf(qf[i], inst) - } - - res <- lapply(qf, tcplSendQuery) - - test <- !sapply(res, isTRUE) - if (any(test)) { - warning("Error updating the following ids: ", - paste(id[test], collapse = ", ")) - } - - TRUE - +#------------------------------------------------------------------------------- +# tcplUpdate: Update assay or chemical information +#------------------------------------------------------------------------------- + +#' @rdname rgstr_funcs +#' +#' @import data.table +#' @export + + +tcplUpdate <- function(what, id, flds) { + + lens <- c(length(id), sapply(flds, length)) + if (!all.equal(max(lens), min(lens))) { + stop("The length of 'id' and the lengths of each list element in 'flds'", + " must be equal.") + } + + i <- switch(what, + asid = "assay_source", + aid = "assay", + acid = "assay_component", + aeid = "assay_component_endpoint", + acsn = "assay_component_map", + spid = "sample", + chid = "chemical", + clib = "chemical_library") + + if (is.null(i)) stop("Not a valid 'what' input.") + + pot_flds <- tcplListFlds(tbl = i[[1]], db = getOption("TCPL_DB")) + flds <- as.data.table(flds) + setnames(flds, .convertNames(names(flds))) + + if (any(!names(flds) %in% pot_flds)) { + warning("Some of the given fields are not in the ", i[[1]], " table. ", + "Extra fields will be ignored.") + xtra <- names(flds)[!names(flds) %in% pot_flds] + flds[ , c(xtra) := NULL] + } + + qf <- paste("UPDATE", i, "%s", "WHERE", what, "=", id) + + for (i in 1:nrow(flds)) { + inst <- paste0(names(flds), " = ", "\"", flds[i], "\"", collapse = ", ") + inst <- paste("SET", inst) + qf[i] <- sprintf(qf[i], inst) + } + + res <- lapply(qf, tcplSendQuery) + + test <- !sapply(res, isTRUE) + if (any(test)) { + warning("Error updating the following ids: ", + paste(id[test], collapse = ", ")) + } + + TRUE + } \ No newline at end of file diff --git a/R/tcplVarMat.R b/R/tcplVarMat.R index 03f7983..56a5bbe 100644 --- a/R/tcplVarMat.R +++ b/R/tcplVarMat.R @@ -1,271 +1,271 @@ -#------------------------------------------------------------------------------- -# tcplVarMat: Create chemical by assay matrices -#------------------------------------------------------------------------------- - -#' @title Create chemical by assay matrices -#' -#' @description -#' \code{tcplVarMat} creates chemical by assay matrices. -#' -#' @param chid Integer, chemical ID values to subset on -#' @param aeid Integer, assay endpoint ID values to subset on -#' @param add.vars Character, mc4 or mc5 field(s) not included in the standard -#' list to add additional matrices -#' @param row.id Character, the chemical identifier to use in the output -#' @param flag Integer or Logical of length 1, passed to -#' \code{\link{tcplSubsetChid}} -#' @param cyto.pars List, named list of arguments passed to -#' \code{\link{tcplCytoPt}} -#' @param include.na.chid Logical of length 1, whether to include the chemicals -#' not listed in the tcpl databases (ie. controls) -#' @param odir Directory to write comma separated file(s) -#' @param file.prefix Character of length 1, prefix to the file name when odir -#' is not NULL -#' -#' -#' @details -#' The \code{tcplVarMat} function is used to create chemical by assay matrices -#' for different paramters. The standard list of matrices returned includes: -#' -#' \enumerate{ -#' \item "modl_ga" -- The logAC50 (in the gain direction) for the winning -#' model. -#' \item "hitc" -- The hit-call for the winning model. -#' \item "m4id" -- The m4id, listing the concentration series selected by -#' \code{tcplSubsetChid}. -#' \item "zscore" -- The z-score based on the output from \code{tcplCytoPt}. -#' The formula used for calculating the z-score is -#' \eqn{-(\mathit{modl\_ga} - \mathit{cyto\_pt})/\mathit{global\_mad}} -#' \item "tested" -- 1 or 0, 1 indicating the chemical/assay pair -#' was tested in either the single- or multiple-concentration format -#' \item "tested_sc" -- 1 or 0, 1 indicating the chemical/assay pair -#' was tested in the single-concentration format -#' \item "tested_mc" -- 1 or 0, 1 indicating the chemical/assay pair -#' was tested in the multiple-concentration format -#' \item "ac50" -- a modified AC50 table (in non-log units) where -#' assay/chemical pairs that were not tested, or tested and had a hitcall of 0 -#' or -1 have the value 1e6. -#' \item "neglogac50" -- -log(AC50/1e6) where assay/chemical pairs that were -#' not tested, or tested and had a hitcall of 0 or -1 have the value 0. -#' } -#' -#' To add addtitional matrices, the 'add.vars' parameter can be used to specify -#' the fields from the mc4 or mc5 tables to create matrices for. -#' -#' When more than one sample is included for a chemical/assay pair, -#' \code{tcplVarMat} aggregates multiple samples to a chemical level call -#' utilizing \code{\link{tcplSubsetChid}}. -#' -#' By setting \code{odir} the function will write out a csv with, naming the -#' file with the convention: "var_Matrix_date.csv" where 'var' is the name -#' of the matrix. A prefix can be added to the output files using the -#' 'file.prefix' paramter. -#' -#' When a concentration series has a sample id not listed in the \code{tcpl} -#' database, and 'include.na.chid' is TRUE, the rowname for that series will -#' be the concatenation of "SPID_" and the spid. Note, if the user gives a -#' subset of chid values to the 'chid' parameter, 'include.na.chid' will be -#' set to FALSE with a warning. -#' -#' The tcplVarMat function calls both \code{tcplSubsetChid} and -#' \code{tcplCytoPt} (which separately calls \code{tcplSubsetChid}). The input -#' for the \code{tcplVarMat} 'flag' parameter is passed to the -#' \code{tcplSubsetChid} call used to parse down the data to create the -#' matrices. The \code{tcplSubsetChid} called within \code{tcplCytoPt} (to -#' parse down the cytotoxicity data used to define the "zscore" matrix) can -#' be modified by passing a separate 'flag' element in the list defined by the -#' 'cyto.pars' parameter. -#' -#' @return A list of chemical by assay matrices where the rownames are given by -#' the 'row.id' paramter, and the colnames are given by assay endpoint name -#' (aenm). -#' -#' @examples -#' ## Store the current config settings, so they can be reloaded at the end -#' ## of the examples -#' conf_store <- tcplConfList() -#' tcplConfDefault() -#' -#' ## Demonstrate the returned values. Note with no "burst" assays defined in -#' ## the example database, the user must provide which aeid values to use -#' ## in calculating the cytotoxicity distributions for the 'zscore' matrix. -#' tcplVarMat(chid = 1:5, cyto.pars = list(aeid = 1:2)) -#' -#' ## Other changes can be made -#' tcplVarMat(chid = 1:5, row.id = "chnm", cyto.pars = list(aeid = 1:2)) -#' tcplVarMat(chid = 1:5, add.vars = "max_med", cyto.pars = list(aeid = 1:2)) -#' -#' ## Reset configuration -#' options(conf_store) -#' -#' @seealso \code{\link{tcplSubsetChid}} -#' -#' @import data.table -#' @importFrom stats reformulate -#' @importFrom utils write.csv -#' @export - -tcplVarMat <- function(chid = NULL, - aeid = NULL, - add.vars = NULL, - row.id = "code", - flag = TRUE, - cyto.pars = list(), - include.na.chid = FALSE, - odir = NULL, - file.prefix = NULL) { - - ## Variable-binding to pass R CMD Check - sc_tst <- spid <- mc_tst <- acid <- cyto_pt <- global_mad <- zscore <- NULL - modl_ga <- NULL - - if (length(file.prefix) > 1) { - file.prefix <- file.prefix[1] - warning("Length of file.prefix greater than 1, only first element used.") - } - - if (!is.null(aeid) & !is.vector(aeid)) stop("'aeid' must be a vector.") - if (!is.null(chid) & !is.vector(chid)) stop("'chid' must be a vector.") - - row.id <- row.id[1] - if (!row.id %in% c("code", "casn", "chid", "chnm")) row.id <- "code" - - valid_var <- c(tcplListFlds("mc4"), tcplListFlds("mc5")) - if (!all(add.vars %in% valid_var)) stop("Invald add.vars value(s).") - - std.vars <- c("modl_ga", "hitc", "m4id", "zscore") - vars <- c(std.vars, add.vars) - - cform <- reformulate(termlabels = "aenm", response = row.id) - - ## Load all possibilities to create matrix dimensions - sc <- tcplQuery("SELECT DISTINCT acid, spid FROM sc0;") - mc <- tcplQuery("SELECT DISTINCT acid, spid FROM mc0;") - - tst <- rbindlist(list(sc, mc)) - tst <- unique(tst) - tst[ , sc_tst := spid %in% sc$spid] - tst[ , mc_tst := spid %in% mc$spid] - rm(sc, mc) - - ## Expand acid to aeid - aeid_info <- tcplLoadAeid("acid", tst[ , unique(acid)]) - setkey(aeid_info, acid) - setkey(tst, acid) - tst <- aeid_info[ , list(acid, aeid)][tst, allow.cartesian = TRUE] - - ## Subset by aeid - if (is.null(aeid)) { - ae <- unique(tst$aeid) - } else { - ae <- aeid - tst <- tst[aeid %in% ae] - } - - ## Load level 5 data - dat <- tcplLoadData(lvl = 5, fld = "aeid", val = ae, type = "mc") - - setkeyv(dat, c("aeid", "spid")) - setkeyv(tst, c("aeid", "spid")) - dat <- merge(dat, tst, all = TRUE) - - dat <- tcplPrepOtpt(dat) - - if (!is.null(chid)) { - if (include.na.chid) { - warning("'include.na.chid' cannot be TRUE when 'chid' is not NULL.") - include.na.chid <- FALSE - } - ch <- chid - dat <- dat[chid %in% ch] - } - - if(include.na.chid) { - dat[ , chid := as.character(chid)] - dat[is.na(chid), - c("casn", "chid", "code", "chnm") := paste0("SPID_", spid)] - } else { - dat <- dat[!is.na(chid)] - } - - dat <- tcplSubsetChid(dat = dat, flag = flag) - - if (is.null(cyto.pars)) cyto.pars <- list() - zdst <- do.call(what = tcplCytoPt, args = cyto.pars) - - if(include.na.chid) zdst[ , chid := as.character(chid)] - - setkey(zdst, chid) - setkey(dat, chid) - - dat <- zdst[ , list(chid, cyto_pt, global_mad)][dat] - dat[ , zscore := -(modl_ga - cyto_pt)/global_mad] - - mat.tested <- dcast(dat, - formula = cform, - fun.aggregate = lu, - value.var = "chid") - - mat.sc_tst <- dcast(dat, - formula = cform, - fun.aggregate = any, - value.var = "sc_tst") - - mat.mc_tst <- dcast(dat, - formula = cform, - fun.aggregate = any, - value.var = "mc_tst") - - rnames <- mat.tested[ , get(row.id)] - e1 <- bquote(.(row.id) := NULL) - - mat.tested[ , eval(e1)] - mat.tested <- as.matrix(mat.tested) - row.names(mat.tested) <- rnames - - mat.sc_tst[ , eval(e1)] - mat.sc_tst <- as.matrix(mat.sc_tst) - row.names(mat.sc_tst) <- rnames - - mat.mc_tst[ , eval(e1)] - mat.mc_tst <- as.matrix(mat.mc_tst) - row.names(mat.mc_tst) <- rnames - - ddt <- function(x) { - mat <- dcast(data = dat, formula = cform, value.var = x) - mat[ , eval(e1)] - mat <- as.matrix(mat) - row.names(mat) <- rnames - mat - } - - mat.list <- lapply(vars, ddt) - names(mat.list) <- vars - - mat.list[["tested"]] <- mat.tested - mat.list[["tested_mc"]] <- mat.mc_tst - mat.list[["tested_sc"]] <- mat.sc_tst - - mat_ac <- 10^mat.list[["modl_ga"]] - mat_ac[mat.list[["hitc"]] != 1] <- 1e6 - mat_ac[is.na(mat.list[["modl_ga"]]) & mat.list[["tested"]] == 1] <- 1e6 - mat_lac <- -log10(mat_ac/1e6) - - mat.list[["ac50"]] <- mat_ac - mat.list[["neglogac50"]] <- mat_lac - - if (!is.null(odir)) { - - fdate <- format(Sys.Date(), "%y%m%d.csv") - fname <- paste(names(mat.list), "Matrix", fdate, sep = "_") - if (!is.null(file.prefix)) fname <- paste(file.prefix, fname, sep = "_") - for(i in 1:length(mat.list)) { - write.csv(mat.list[[i]], file.path(odir, fname[i]), row.names = TRUE) - } - } - - mat.list - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplVarMat: Create chemical by assay matrices +#------------------------------------------------------------------------------- + +#' @title Create chemical by assay matrices +#' +#' @description +#' \code{tcplVarMat} creates chemical by assay matrices. +#' +#' @param chid Integer, chemical ID values to subset on +#' @param aeid Integer, assay endpoint ID values to subset on +#' @param add.vars Character, mc4 or mc5 field(s) not included in the standard +#' list to add additional matrices +#' @param row.id Character, the chemical identifier to use in the output +#' @param flag Integer or Logical of length 1, passed to +#' \code{\link{tcplSubsetChid}} +#' @param cyto.pars List, named list of arguments passed to +#' \code{\link{tcplCytoPt}} +#' @param include.na.chid Logical of length 1, whether to include the chemicals +#' not listed in the tcpl databases (ie. controls) +#' @param odir Directory to write comma separated file(s) +#' @param file.prefix Character of length 1, prefix to the file name when odir +#' is not NULL +#' +#' +#' @details +#' The \code{tcplVarMat} function is used to create chemical by assay matrices +#' for different paramters. The standard list of matrices returned includes: +#' +#' \enumerate{ +#' \item "modl_ga" -- The logAC50 (in the gain direction) for the winning +#' model. +#' \item "hitc" -- The hit-call for the winning model. +#' \item "m4id" -- The m4id, listing the concentration series selected by +#' \code{tcplSubsetChid}. +#' \item "zscore" -- The z-score based on the output from \code{tcplCytoPt}. +#' The formula used for calculating the z-score is +#' \eqn{-(\mathit{modl\_ga} - \mathit{cyto\_pt})/\mathit{global\_mad}} +#' \item "tested" -- 1 or 0, 1 indicating the chemical/assay pair +#' was tested in either the single- or multiple-concentration format +#' \item "tested_sc" -- 1 or 0, 1 indicating the chemical/assay pair +#' was tested in the single-concentration format +#' \item "tested_mc" -- 1 or 0, 1 indicating the chemical/assay pair +#' was tested in the multiple-concentration format +#' \item "ac50" -- a modified AC50 table (in non-log units) where +#' assay/chemical pairs that were not tested, or tested and had a hitcall of 0 +#' or -1 have the value 1e6. +#' \item "neglogac50" -- -log(AC50/1e6) where assay/chemical pairs that were +#' not tested, or tested and had a hitcall of 0 or -1 have the value 0. +#' } +#' +#' To add addtitional matrices, the 'add.vars' parameter can be used to specify +#' the fields from the mc4 or mc5 tables to create matrices for. +#' +#' When more than one sample is included for a chemical/assay pair, +#' \code{tcplVarMat} aggregates multiple samples to a chemical level call +#' utilizing \code{\link{tcplSubsetChid}}. +#' +#' By setting \code{odir} the function will write out a csv with, naming the +#' file with the convention: "var_Matrix_date.csv" where 'var' is the name +#' of the matrix. A prefix can be added to the output files using the +#' 'file.prefix' paramter. +#' +#' When a concentration series has a sample id not listed in the \code{tcpl} +#' database, and 'include.na.chid' is TRUE, the rowname for that series will +#' be the concatenation of "SPID_" and the spid. Note, if the user gives a +#' subset of chid values to the 'chid' parameter, 'include.na.chid' will be +#' set to FALSE with a warning. +#' +#' The tcplVarMat function calls both \code{tcplSubsetChid} and +#' \code{tcplCytoPt} (which separately calls \code{tcplSubsetChid}). The input +#' for the \code{tcplVarMat} 'flag' parameter is passed to the +#' \code{tcplSubsetChid} call used to parse down the data to create the +#' matrices. The \code{tcplSubsetChid} called within \code{tcplCytoPt} (to +#' parse down the cytotoxicity data used to define the "zscore" matrix) can +#' be modified by passing a separate 'flag' element in the list defined by the +#' 'cyto.pars' parameter. +#' +#' @return A list of chemical by assay matrices where the rownames are given by +#' the 'row.id' paramter, and the colnames are given by assay endpoint name +#' (aenm). +#' +#' @examples +#' ## Store the current config settings, so they can be reloaded at the end +#' ## of the examples +#' conf_store <- tcplConfList() +#' tcplConfDefault() +#' +#' ## Demonstrate the returned values. Note with no "burst" assays defined in +#' ## the example database, the user must provide which aeid values to use +#' ## in calculating the cytotoxicity distributions for the 'zscore' matrix. +#' tcplVarMat(chid = 1:5, cyto.pars = list(aeid = 1:2)) +#' +#' ## Other changes can be made +#' tcplVarMat(chid = 1:5, row.id = "chnm", cyto.pars = list(aeid = 1:2)) +#' tcplVarMat(chid = 1:5, add.vars = "max_med", cyto.pars = list(aeid = 1:2)) +#' +#' ## Reset configuration +#' options(conf_store) +#' +#' @seealso \code{\link{tcplSubsetChid}} +#' +#' @import data.table +#' @importFrom stats reformulate +#' @importFrom utils write.csv +#' @export + +tcplVarMat <- function(chid = NULL, + aeid = NULL, + add.vars = NULL, + row.id = "code", + flag = TRUE, + cyto.pars = list(), + include.na.chid = FALSE, + odir = NULL, + file.prefix = NULL) { + + ## Variable-binding to pass R CMD Check + sc_tst <- spid <- mc_tst <- acid <- cyto_pt <- global_mad <- zscore <- NULL + modl_ga <- NULL + + if (length(file.prefix) > 1) { + file.prefix <- file.prefix[1] + warning("Length of file.prefix greater than 1, only first element used.") + } + + if (!is.null(aeid) & !is.vector(aeid)) stop("'aeid' must be a vector.") + if (!is.null(chid) & !is.vector(chid)) stop("'chid' must be a vector.") + + row.id <- row.id[1] + if (!row.id %in% c("code", "casn", "chid", "chnm")) row.id <- "code" + + valid_var <- c(tcplListFlds("mc4"), tcplListFlds("mc5")) + if (!all(add.vars %in% valid_var)) stop("Invald add.vars value(s).") + + std.vars <- c("modl_ga", "hitc", "m4id", "zscore") + vars <- c(std.vars, add.vars) + + cform <- reformulate(termlabels = "aenm", response = row.id) + + ## Load all possibilities to create matrix dimensions + sc <- tcplQuery("SELECT DISTINCT acid, spid FROM sc0;") + mc <- tcplQuery("SELECT DISTINCT acid, spid FROM mc0;") + + tst <- rbindlist(list(sc, mc)) + tst <- unique(tst) + tst[ , sc_tst := spid %in% sc$spid] + tst[ , mc_tst := spid %in% mc$spid] + rm(sc, mc) + + ## Expand acid to aeid + aeid_info <- tcplLoadAeid("acid", tst[ , unique(acid)]) + setkey(aeid_info, acid) + setkey(tst, acid) + tst <- aeid_info[ , list(acid, aeid)][tst, allow.cartesian = TRUE] + + ## Subset by aeid + if (is.null(aeid)) { + ae <- unique(tst$aeid) + } else { + ae <- aeid + tst <- tst[aeid %in% ae] + } + + ## Load level 5 data + dat <- tcplLoadData(lvl = 5, fld = "aeid", val = ae, type = "mc") + + setkeyv(dat, c("aeid", "spid")) + setkeyv(tst, c("aeid", "spid")) + dat <- merge(dat, tst, all = TRUE) + + dat <- tcplPrepOtpt(dat) + + if (!is.null(chid)) { + if (include.na.chid) { + warning("'include.na.chid' cannot be TRUE when 'chid' is not NULL.") + include.na.chid <- FALSE + } + ch <- chid + dat <- dat[chid %in% ch] + } + + if(include.na.chid) { + dat[ , chid := as.character(chid)] + dat[is.na(chid), + c("casn", "chid", "code", "chnm") := paste0("SPID_", spid)] + } else { + dat <- dat[!is.na(chid)] + } + + dat <- tcplSubsetChid(dat = dat, flag = flag) + + if (is.null(cyto.pars)) cyto.pars <- list() + zdst <- do.call(what = tcplCytoPt, args = cyto.pars) + + if(include.na.chid) zdst[ , chid := as.character(chid)] + + setkey(zdst, chid) + setkey(dat, chid) + + dat <- zdst[ , list(chid, cyto_pt, global_mad)][dat] + dat[ , zscore := -(modl_ga - cyto_pt)/global_mad] + + mat.tested <- dcast(dat, + formula = cform, + fun.aggregate = lu, + value.var = "chid") + + mat.sc_tst <- dcast(dat, + formula = cform, + fun.aggregate = any, + value.var = "sc_tst") + + mat.mc_tst <- dcast(dat, + formula = cform, + fun.aggregate = any, + value.var = "mc_tst") + + rnames <- mat.tested[ , get(row.id)] + e1 <- bquote(.(row.id) := NULL) + + mat.tested[ , eval(e1)] + mat.tested <- as.matrix(mat.tested) + row.names(mat.tested) <- rnames + + mat.sc_tst[ , eval(e1)] + mat.sc_tst <- as.matrix(mat.sc_tst) + row.names(mat.sc_tst) <- rnames + + mat.mc_tst[ , eval(e1)] + mat.mc_tst <- as.matrix(mat.mc_tst) + row.names(mat.mc_tst) <- rnames + + ddt <- function(x) { + mat <- dcast(data = dat, formula = cform, value.var = x) + mat[ , eval(e1)] + mat <- as.matrix(mat) + row.names(mat) <- rnames + mat + } + + mat.list <- lapply(vars, ddt) + names(mat.list) <- vars + + mat.list[["tested"]] <- mat.tested + mat.list[["tested_mc"]] <- mat.mc_tst + mat.list[["tested_sc"]] <- mat.sc_tst + + mat_ac <- 10^mat.list[["modl_ga"]] + mat_ac[mat.list[["hitc"]] != 1] <- 1e6 + mat_ac[is.na(mat.list[["modl_ga"]]) & mat.list[["tested"]] == 1] <- 1e6 + mat_lac <- -log10(mat_ac/1e6) + + mat.list[["ac50"]] <- mat_ac + mat.list[["neglogac50"]] <- mat_lac + + if (!is.null(odir)) { + + fdate <- format(Sys.Date(), "%y%m%d.csv") + fname <- paste(names(mat.list), "Matrix", fdate, sep = "_") + if (!is.null(file.prefix)) fname <- paste(file.prefix, fname, sep = "_") + for(i in 1:length(mat.list)) { + write.csv(mat.list[[i]], file.path(odir, fname[i]), row.names = TRUE) + } + } + + mat.list + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplWriteData.R b/R/tcplWriteData.R index a78fec6..070a8c2 100644 --- a/R/tcplWriteData.R +++ b/R/tcplWriteData.R @@ -1,188 +1,188 @@ -#------------------------------------------------------------------------------- -# tcplWriteData: Write screening data into the tcpl databases -#------------------------------------------------------------------------------- - -#' @title Write screening data into the tcpl databases -#' -#' @description -#' \code{tcplWriteData} takes a data.table with screening data and writes the -#' data into the given level table in the tcpl databases. -#' -#' @param dat data.table, the screening data to load -#' @param lvl Integer of length 1, the data processing level -#' @param type Character of length 1, the data type, "sc" or "mc" -#' -#' @details -#' This function appends data onto the existing table. It also deletes all the -#' data for any acids or aeids dat contains from the given and all downstream -#' tables. -#' -#' The data type can be either 'mc' for mutliple concentration data, or 'sc' -#' for single concentration data. Multiple concentration data will be loaded -#' into the level tables, whereas the single concentration will be loaded into -#' the single tables. -#' -#' @note -#' This function is not exported and is not inteded to be used by the user. -#' The user should only write level 0 data, which is written with -#' \code{\link{tcplWriteLvl0}}. -#' -#' @seealso \code{\link{tcplCascade}}, \code{\link{tcplAppend}}, -#' \code{\link{tcplWriteLvl0}} -#' -#' @import data.table - -tcplWriteData <- function(dat, lvl, type) { - - ## Variable-binding to pass R CMD Check - modified_by <- NULL - - if (length(lvl) > 1 | !lvl %in% 0L:6L) { - stop("Invalid lvl input - must be an integer of length 1 between 0 & 6.") - } - - fkey <- if (lvl > 2 | (lvl > 0 & type == "sc")) "aeid" else "acid" - ids <- dat[ , unique(get(fkey))] - - if (length(ids) >= 500) { - - ibins <- split(ids, ceiling(seq_along(ids)/500)) - lapply(ibins, function(x) tcplCascade(lvl = lvl, type = type, id = x)) - - } else { - - tcplCascade(lvl = lvl, type = type, id = ids) - - } - - mb <- paste(Sys.info()[c("login", "user", "effective_user")], collapse = ".") - dat[ , modified_by := mb] - - if (lvl == 4) { - - mc4_cols <- c("aeid", - "bmad", - "spid", - "resp_max", - "resp_min", - "max_mean", - "max_mean_conc", - "max_med", - "max_med_conc", - "logc_max", - "logc_min", - "cnst", - "hill", - "hcov", - "gnls", - "gcov", - "cnst_er", - "cnst_aic", - "cnst_rmse", - "cnst_prob", - "hill_tp", - "hill_tp_sd", - "hill_ga", - "hill_ga_sd", - "hill_gw", - "hill_gw_sd", - "hill_er", - "hill_er_sd", - "hill_aic", - "hill_rmse", - "hill_prob", - "gnls_tp", - "gnls_tp_sd", - "gnls_ga", - "gnls_ga_sd", - "gnls_gw", - "gnls_gw_sd", - "gnls_la", - "gnls_la_sd", - "gnls_lw", - "gnls_lw_sd", - "gnls_er", - "gnls_er_sd", - "gnls_aic", - "gnls_rmse", - "gnls_prob", - "nconc", - "npts", - "nrep", - "nmed_gtbl", - "tmpi", - "modified_by") - - mc4_agg_cols <- c(paste0("m", 0:4, "id"), "aeid") - - tcplAppend(dat = copy(dat[ , unique(.SD) , .SDcols = mc4_cols]), - tbl = "mc4", - db = getOption("TCPL_DB")) - - qformat <- "SELECT m4id, aeid, tmpi FROM mc4 WHERE aeid IN (%s);" - qstring <- sprintf(qformat, paste0("\"", ids, "\"", collapse = ",")) - - m4id_map <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - setkeyv(m4id_map, c("aeid", "tmpi")) - setkeyv(dat, c("aeid", "tmpi")) - - dat <- m4id_map[dat] - - tcplAppend(dat = dat[ , .SD, .SDcols = mc4_agg_cols], - tbl = "mc4_agg", - db = getOption("TCPL_DB")) - - } else if (lvl == 2 & type == "sc") { - - sc2_cols <- c("aeid", - "bmad", - "spid", - "max_med", - "hitc", - "coff", - "tmpi", - "modified_by") - - sc2_agg_cols <- c(paste0("s", 0:2, "id"), "aeid") - - tcplAppend(dat = copy(dat[ , unique(.SD) , .SDcols = sc2_cols]), - tbl = "sc2", - db = getOption("TCPL_DB")) - - qformat <- "SELECT s2id, aeid, tmpi FROM sc2 WHERE aeid IN (%s);" - qstring <- sprintf(qformat, paste0("\"", ids, "\"", collapse = ",")) - - s2id_map <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) - setkeyv(s2id_map, c("aeid", "tmpi")) - setkeyv(dat, c("aeid", "tmpi")) - - dat <- s2id_map[dat] - - tcplAppend(dat = dat[ , .SD, .SDcols = sc2_agg_cols], - tbl = "sc2_agg", - db = getOption("TCPL_DB")) - - } else { - - n <- nrow(dat) - tbl <- paste0(if (type == "mc") "mc" else "sc", lvl) - db <- getOption("TCPL_DB") - - if (n <= 1e6) { - - tcplAppend(dat = dat, tbl = tbl, db = db) - - } else { - - rbins <- split(1:n, ceiling(seq_along(1:n)/1e6)) - lapply(rbins, function(x) tcplAppend(dat = dat[x], tbl = tbl, db = db)) - - } - - } - - TRUE - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplWriteData: Write screening data into the tcpl databases +#------------------------------------------------------------------------------- + +#' @title Write screening data into the tcpl databases +#' +#' @description +#' \code{tcplWriteData} takes a data.table with screening data and writes the +#' data into the given level table in the tcpl databases. +#' +#' @param dat data.table, the screening data to load +#' @param lvl Integer of length 1, the data processing level +#' @param type Character of length 1, the data type, "sc" or "mc" +#' +#' @details +#' This function appends data onto the existing table. It also deletes all the +#' data for any acids or aeids dat contains from the given and all downstream +#' tables. +#' +#' The data type can be either 'mc' for mutliple concentration data, or 'sc' +#' for single concentration data. Multiple concentration data will be loaded +#' into the level tables, whereas the single concentration will be loaded into +#' the single tables. +#' +#' @note +#' This function is not exported and is not inteded to be used by the user. +#' The user should only write level 0 data, which is written with +#' \code{\link{tcplWriteLvl0}}. +#' +#' @seealso \code{\link{tcplCascade}}, \code{\link{tcplAppend}}, +#' \code{\link{tcplWriteLvl0}} +#' +#' @import data.table + +tcplWriteData <- function(dat, lvl, type) { + + ## Variable-binding to pass R CMD Check + modified_by <- NULL + + if (length(lvl) > 1 | !lvl %in% 0L:6L) { + stop("Invalid lvl input - must be an integer of length 1 between 0 & 6.") + } + + fkey <- if (lvl > 2 | (lvl > 0 & type == "sc")) "aeid" else "acid" + ids <- dat[ , unique(get(fkey))] + + if (length(ids) >= 500) { + + ibins <- split(ids, ceiling(seq_along(ids)/500)) + lapply(ibins, function(x) tcplCascade(lvl = lvl, type = type, id = x)) + + } else { + + tcplCascade(lvl = lvl, type = type, id = ids) + + } + + mb <- paste(Sys.info()[c("login", "user", "effective_user")], collapse = ".") + dat[ , modified_by := mb] + + if (lvl == 4) { + + mc4_cols <- c("aeid", + "bmad", + "spid", + "resp_max", + "resp_min", + "max_mean", + "max_mean_conc", + "max_med", + "max_med_conc", + "logc_max", + "logc_min", + "cnst", + "hill", + "hcov", + "gnls", + "gcov", + "cnst_er", + "cnst_aic", + "cnst_rmse", + "cnst_prob", + "hill_tp", + "hill_tp_sd", + "hill_ga", + "hill_ga_sd", + "hill_gw", + "hill_gw_sd", + "hill_er", + "hill_er_sd", + "hill_aic", + "hill_rmse", + "hill_prob", + "gnls_tp", + "gnls_tp_sd", + "gnls_ga", + "gnls_ga_sd", + "gnls_gw", + "gnls_gw_sd", + "gnls_la", + "gnls_la_sd", + "gnls_lw", + "gnls_lw_sd", + "gnls_er", + "gnls_er_sd", + "gnls_aic", + "gnls_rmse", + "gnls_prob", + "nconc", + "npts", + "nrep", + "nmed_gtbl", + "tmpi", + "modified_by") + + mc4_agg_cols <- c(paste0("m", 0:4, "id"), "aeid") + + tcplAppend(dat = copy(dat[ , unique(.SD) , .SDcols = mc4_cols]), + tbl = "mc4", + db = getOption("TCPL_DB")) + + qformat <- "SELECT m4id, aeid, tmpi FROM mc4 WHERE aeid IN (%s);" + qstring <- sprintf(qformat, paste0("\"", ids, "\"", collapse = ",")) + + m4id_map <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + setkeyv(m4id_map, c("aeid", "tmpi")) + setkeyv(dat, c("aeid", "tmpi")) + + dat <- m4id_map[dat] + + tcplAppend(dat = dat[ , .SD, .SDcols = mc4_agg_cols], + tbl = "mc4_agg", + db = getOption("TCPL_DB")) + + } else if (lvl == 2 & type == "sc") { + + sc2_cols <- c("aeid", + "bmad", + "spid", + "max_med", + "hitc", + "coff", + "tmpi", + "modified_by") + + sc2_agg_cols <- c(paste0("s", 0:2, "id"), "aeid") + + tcplAppend(dat = copy(dat[ , unique(.SD) , .SDcols = sc2_cols]), + tbl = "sc2", + db = getOption("TCPL_DB")) + + qformat <- "SELECT s2id, aeid, tmpi FROM sc2 WHERE aeid IN (%s);" + qstring <- sprintf(qformat, paste0("\"", ids, "\"", collapse = ",")) + + s2id_map <- tcplQuery(query = qstring, db = getOption("TCPL_DB")) + setkeyv(s2id_map, c("aeid", "tmpi")) + setkeyv(dat, c("aeid", "tmpi")) + + dat <- s2id_map[dat] + + tcplAppend(dat = dat[ , .SD, .SDcols = sc2_agg_cols], + tbl = "sc2_agg", + db = getOption("TCPL_DB")) + + } else { + + n <- nrow(dat) + tbl <- paste0(if (type == "mc") "mc" else "sc", lvl) + db <- getOption("TCPL_DB") + + if (n <= 1e6) { + + tcplAppend(dat = dat, tbl = tbl, db = db) + + } else { + + rbins <- split(1:n, ceiling(seq_along(1:n)/1e6)) + lapply(rbins, function(x) tcplAppend(dat = dat[x], tbl = tbl, db = db)) + + } + + } + + TRUE + +} + +#------------------------------------------------------------------------------- diff --git a/R/tcplWriteLvl0.R b/R/tcplWriteLvl0.R index cdd3662..f86c2e1 100644 --- a/R/tcplWriteLvl0.R +++ b/R/tcplWriteLvl0.R @@ -1,120 +1,120 @@ -#------------------------------------------------------------------------------- -# tcplWriteLvl0: Write level 0 screening data into the tcpl databases -#------------------------------------------------------------------------------- - -#' @title Write level 0 screening data into the tcpl databases -#' -#' @description -#' \code{tcplWriteLvl0} takes a data.table with level 0 screening data and -#' writes the data into the level 0 tables in the tcpl databases. -#' -#' @param dat data.table, the screening data to load -#' @param type Character of length 1, the data type, "sc" or "mc" -#' -#' @details -#' This function appends data onto the existing table. It also deletes all the -#' data for any acids or aeids dat contains from the given and all downstream -#' tables. -#' -#' Before writing any data the function maps the assay component source name(s) -#' (acsn) to assay component id (acid), ensures the proper class on each field -#' and checks for every test compound sample id (spid where wllt == "t") in the -#' tcpl chemical database. If field types get changed a warning is given -#' listing the affected fields and they type they were coerced to. If the -#' acsn(s) or spid(s) do not map to the tcpl databases the function will return -#' an error and the data will not be written. -#' -#' The data type can be either 'mc' for mutliple concentration data, or 'sc' -#' for single concentration data. Multiple concentration data will be loaded -#' into the level tables, whereas the single concentration will be loaded into -#' the single tables. -#' -#' @note -#' This function should only be used to load level 0 data. -#' -#' @seealso \code{\link{tcplCascade}}, \code{\link{tcplAppend}} -#' -#' @import data.table -#' @export - -tcplWriteLvl0 <- function(dat, type) { - - ## Variable-binding to pass R CMD Check - acsn <- acid <- wllt <- spid <- conc <- NULL - - if (!type %in% c("mc", "sc")) stop("Invalid 'type', see help page.") - - ## Map assay component source name to assay component id, if required - if("acsn" %in% names(dat)){ - acid_info <- tcplLoadAcid("acsn", dat[ , unique(acsn)])[ , list(acsn, acid)] - setkey(dat, acsn) - setkey(acid_info, acsn) - dat <- acid_info[dat] - if (dat[ , any(is.na(acid))]) { - cat("The following acsn(s) did not map to acid:\n") - print(dat[is.na(acid), unique(acsn)]) - stop("Must correct the acsn mapping before loading the data.") - } - dat[ , acsn := NULL] - } - if(!"acid" %in% names(dat)){ - stop("Must supply either acsn or acid before loading the data.") - } - - ## Ensure correct formatting - char <- c("spid", "apid", "wllt", "srcf") - char_test <- dat[ , sapply(.SD, class) != "character", .SDcols = char] - if (any(char_test)) { - char <- char[char_test] - warning(paste(char, collapse = ";"), " coerced to character. May affect ", - "data integrity.") - dat[ , char := lapply(.SD, as.character), .SDcols = char, with = FALSE] - } - intg <- c("acid", "rowi", "coli", "wllq") - intg_test <- dat[ , sapply(.SD, class) != "integer", .SDcols = intg] - if (any(intg_test)) { - intg <- intg[intg_test] - warning(paste(intg, collapse = ";"), " coerced to integer. May affect ", - "data integrity.") - dat[ , intg := lapply(.SD, as.integer), .SDcols = intg, with = FALSE] - } - real <- c("conc", "rval") - real_test <- dat[ , sapply(.SD, class) != "numeric", .SDcols = real] - if (any(real_test)) { - real <- real[real_test] - warning(paste(real, collapse = ";"), " coerced to numeric. May affect ", - "data integrity.") - dat[ , real := lapply(.SD, as.numeric), .SDcols = real, with = FALSE] - } - - ## Check for samples in inventorydb - cmap <- tcplLoadChem(field = "spid", val = dat[wllt == "t", unique(spid)]) - if (dat[wllt == "t" , lw(!spid %in% cmap$spid)] > 0) { - cat("The following test compounds did not map to the tcpl databases:\n") - print(dat[wllt == "t" & !spid %in% cmap$spid, unique(spid)]) - stop("Must correct the test compound mapping before loading the data.") - } - - ## Check for concentration values on test wells - if (dat[wllt == "t", any(is.na(conc))]) { - stop("No concentration values for some test compounds.") - } - - ## Likely unnecessary step to correct some unexplained string lookup - ## behavior, ie. dat[spid == "DMSO"] returns only 5 rows, but - ## dat[wllt == "n"] returns 10 rows AND dat[wllt == "n", unique(spid)] only - ## returns "DMSO" - dat <- dat[ , .SD] - - ## Subset to level 0 fields - outcols <- c("acid", "spid", "apid", "rowi", "coli", "wllt", "wllq", "conc", - "rval", "srcf") - if (any(!names(dat) %in% outcols)) { - not_used <- names(dat)[!names(dat) %in% outcols] - warning(paste(not_used, collapse = ","), " not inserted to databse.") - } - tcplWriteData(dat = dat[ , .SD, .SDcols = outcols], lvl = 0L, type = type) - -} - -#------------------------------------------------------------------------------- +#------------------------------------------------------------------------------- +# tcplWriteLvl0: Write level 0 screening data into the tcpl databases +#------------------------------------------------------------------------------- + +#' @title Write level 0 screening data into the tcpl databases +#' +#' @description +#' \code{tcplWriteLvl0} takes a data.table with level 0 screening data and +#' writes the data into the level 0 tables in the tcpl databases. +#' +#' @param dat data.table, the screening data to load +#' @param type Character of length 1, the data type, "sc" or "mc" +#' +#' @details +#' This function appends data onto the existing table. It also deletes all the +#' data for any acids or aeids dat contains from the given and all downstream +#' tables. +#' +#' Before writing any data the function maps the assay component source name(s) +#' (acsn) to assay component id (acid), ensures the proper class on each field +#' and checks for every test compound sample id (spid where wllt == "t") in the +#' tcpl chemical database. If field types get changed a warning is given +#' listing the affected fields and they type they were coerced to. If the +#' acsn(s) or spid(s) do not map to the tcpl databases the function will return +#' an error and the data will not be written. +#' +#' The data type can be either 'mc' for mutliple concentration data, or 'sc' +#' for single concentration data. Multiple concentration data will be loaded +#' into the level tables, whereas the single concentration will be loaded into +#' the single tables. +#' +#' @note +#' This function should only be used to load level 0 data. +#' +#' @seealso \code{\link{tcplCascade}}, \code{\link{tcplAppend}} +#' +#' @import data.table +#' @export + +tcplWriteLvl0 <- function(dat, type) { + + ## Variable-binding to pass R CMD Check + acsn <- acid <- wllt <- spid <- conc <- NULL + + if (!type %in% c("mc", "sc")) stop("Invalid 'type', see help page.") + + ## Map assay component source name to assay component id, if required + if("acsn" %in% names(dat)){ + acid_info <- tcplLoadAcid("acsn", dat[ , unique(acsn)])[ , list(acsn, acid)] + setkey(dat, acsn) + setkey(acid_info, acsn) + dat <- acid_info[dat] + if (dat[ , any(is.na(acid))]) { + cat("The following acsn(s) did not map to acid:\n") + print(dat[is.na(acid), unique(acsn)]) + stop("Must correct the acsn mapping before loading the data.") + } + dat[ , acsn := NULL] + } + if(!"acid" %in% names(dat)){ + stop("Must supply either acsn or acid before loading the data.") + } + + ## Ensure correct formatting + char <- c("spid", "apid", "wllt", "srcf") + char_test <- dat[ , sapply(.SD, class) != "character", .SDcols = char] + if (any(char_test)) { + char <- char[char_test] + warning(paste(char, collapse = ";"), " coerced to character. May affect ", + "data integrity.") + dat[ , (char) := lapply(.SD, as.character), .SDcols = char] + } + intg <- c("acid", "rowi", "coli", "wllq") + intg_test <- dat[ , sapply(.SD, class) != "integer", .SDcols = intg] + if (any(intg_test)) { + intg <- intg[intg_test] + warning(paste(intg, collapse = ";"), " coerced to integer. May affect ", + "data integrity.") + dat[ , (intg) := lapply(.SD, as.integer), .SDcols = intg] + } + real <- c("conc", "rval") + real_test <- dat[ , sapply(.SD, class) != "numeric", .SDcols = real] + if (any(real_test)) { + real <- real[real_test] + warning(paste(real, collapse = ";"), " coerced to numeric. May affect ", + "data integrity.") + dat[ , (real) := lapply(.SD, as.numeric), .SDcols = real] + } + + ## Check for samples in inventorydb + cmap <- tcplLoadChem(field = "spid", val = dat[wllt == "t", unique(spid)]) + if (dat[wllt == "t" , lw(!spid %in% cmap$spid)] > 0) { + cat("The following test compounds did not map to the tcpl databases:\n") + print(dat[wllt == "t" & !spid %in% cmap$spid, unique(spid)]) + stop("Must correct the test compound mapping before loading the data.") + } + + ## Check for concentration values on test wells + if (dat[wllt == "t", any(is.na(conc))]) { + stop("No concentration values for some test compounds.") + } + + ## Likely unnecessary step to correct some unexplained string lookup + ## behavior, ie. dat[spid == "DMSO"] returns only 5 rows, but + ## dat[wllt == "n"] returns 10 rows AND dat[wllt == "n", unique(spid)] only + ## returns "DMSO" + dat <- dat[ , .SD] + + ## Subset to level 0 fields + outcols <- c("acid", "spid", "apid", "rowi", "coli", "wllt", "wllq", "conc", + "rval", "srcf") + if (any(!names(dat) %in% outcols)) { + not_used <- names(dat)[!names(dat) %in% outcols] + warning(paste(not_used, collapse = ","), " not inserted to databse.") + } + tcplWriteData(dat = dat[ , .SD, .SDcols = outcols], lvl = 0L, type = type) + +} + +#------------------------------------------------------------------------------- diff --git a/build/vignette.rds b/build/vignette.rds index 91260bf..1dd17c8 100644 Binary files a/build/vignette.rds and b/build/vignette.rds differ diff --git a/inst/TCPL.config b/inst/TCPL.config deleted file mode 100644 index 2dfef62..0000000 --- a/inst/TCPL.config +++ /dev/null @@ -1,14 +0,0 @@ -################################################################### - -## Detailed information about this file available in the help file for -## tcplConf (?tcplConf). - -DRVR <- "SQLite" -HOST <- NA_character_ -USER <- NA_character_ -PASS <- NA_character_ -DB <- file.path(system.file(package = "tcpl"), - "sql", - "tcpldb.sqlite") - -################################################################### diff --git a/inst/doc/tcpl_Overview.R b/inst/doc/tcpl_Overview.R index f6191cc..012891f 100644 --- a/inst/doc/tcpl_Overview.R +++ b/inst/doc/tcpl_Overview.R @@ -1,414 +1,419 @@ -### R code from vignette source 'tcpl_Overview.Rnw' - -################################################### -### code chunk number 1: tcpl_Overview.Rnw:43-49 -################################################### -options(continue = " ", width = 60, warn = -1) -pdf.options(pointsize = 10) -library(tcpl) -tbls <- unlist(tcplQuery("SELECT name FROM sqlite_master WHERE type='table';")) -keep <- grepl("methods|categories", tbls) -for (i in tbls[!keep]) tcplSendQuery(paste("DELETE FROM", i)) - - -################################################### -### code chunk number 2: tcpl_Overview.Rnw:91-95 -################################################### -library(data.table) -library(tcpl) -## Store the path the tcpl directory for loading data -pkg_dir <- system.file(package = "tcpl") - - -################################################### -### code chunk number 3: tcpl_Overview.Rnw:118-123 (eval = FALSE) -################################################### -## tcplConf(drvr = "MySQL", -## user = "root", -## pass = "", -## host = "localhost", -## db = "toxcastdb") - - -################################################### -### code chunk number 4: tcpl_Overview.Rnw:157-161 -################################################### -## Add a new assay source, call it CTox, -## that produced the data -tcplRegister(what = "asid", flds = list(asnm = "CTox")) -tcplLoadAsid() - - -################################################### -### code chunk number 5: tcpl_Overview.Rnw:166-170 -################################################### -tcplRegister(what = "aid", - flds = list(asid = 1, - anm = "Steroidogenesis", - assay_footprint = "96 well")) - - -################################################### -### code chunk number 6: tcpl_Overview.Rnw:177-188 -################################################### -tcplRegister(what = "acid", - flds = list(aid = 1, acnm = "CTox_CORT")) -tcplRegister(what = "aeid", - flds = list(acid = c(1, 1), - aenm = c("CTox_CORT_up", - "CTox_CORT_dn"), - normalized_data_type = - rep("log2_fold_induction", 2), - export_ready = c(1, 1), - burst_assay = c(0, 0), - fit_all = c(0, 0))) - - -################################################### -### code chunk number 7: tcpl_Overview.Rnw:199-207 -################################################### -ch <- fread(file.path(pkg_dir, "sql", "chdat.csv")) -head(ch) - -## Register the unique chemicals -tcplRegister(what = "chid", - flds = ch[ , - unique(.SD), - .SDcols = c("casn", "chnm")]) - - -################################################### -### code chunk number 8: tcpl_Overview.Rnw:212-217 -################################################### -cmap <- tcplLoadChem() -tcplRegister(what = "spid", - flds = merge(ch[ , list(spid, casn)], - cmap[ , list(casn, chid)], - by = "casn")[ , list(spid, chid)]) - - -################################################### -### code chunk number 9: tcpl_Overview.Rnw:222-228 -################################################### -grp1 <- cmap[chid %% 2 == 0, unique(chid)] -grp2 <- cmap[chid %% 2 == 1, unique(chid)] -tcplRegister(what = "clib", - flds = list(clib = "group_1", chid = grp1)) -tcplRegister(what = "clib", - flds = list(clib = "group_2", chid = grp2)) - - -################################################### -### code chunk number 10: tcpl_Overview.Rnw:233-236 -################################################### -tcplRegister(what = "clib", - flds = list(clib = "other", chid = 1:2)) -tcplLoadClib(field = "chid", val = 1:2) - - -################################################### -### code chunk number 11: tcpl_Overview.Rnw:241-244 -################################################### -scdat <- fread(file.path(pkg_dir, "sql", "scdat.csv")) -mcdat <- fread(file.path(pkg_dir, "sql", "mcdat.csv")) -c(unique(scdat$acsn), unique(mcdat$acsn)) - - -################################################### -### code chunk number 12: tcpl_Overview.Rnw:249-251 -################################################### -tcplRegister(what = "acsn", - flds = list(acid = 1, acsn = "cort")) - - -################################################### -### code chunk number 13: tcpl_Overview.Rnw:256-258 -################################################### -tcplWriteLvl0(dat = scdat, type = "sc") -tcplWriteLvl0(dat = mcdat, type = "mc") - - -################################################### -### code chunk number 14: tcpl_Overview.Rnw:263-264 -################################################### -tcplLoadData(lvl = 0, fld = "acid", val = 1, type = "sc") - - -################################################### -### code chunk number 15: tcpl_Overview.Rnw:321-338 -################################################### -## For illustrative purposes, assign level 2 MC methods to -## ACIDs 98, 99. First check for available methods. -mthds <- tcplMthdList(lvl = 2, type = "mc") -mthds[1:2] -## Assign some methods to ACID 97, 98 & 99 -tcplMthdAssign(lvl = 2, - id = 97:99, - mthd_id = c(3, 4, 2), - ordr = 1:3, - type = "mc") -tcplMthdLoad(lvl = 2, id = 97:99, type = "mc") -## Methods can be cleared one at a time for the given id(s) -tcplMthdClear(lvl = 2, id = 99, mthd_id = 2, type = "mc") -tcplMthdLoad(lvl = 2, id = 99, type = "mc") -## Or all methods can be cleared for the given id(s) -tcplMthdClear(lvl = 2, id = 97:98, type = "mc") -tcplMthdLoad(lvl = 2, id = 97:98, type = "mc") - - -################################################### -### code chunk number 16: tcpl_Overview.Rnw:420-421 -################################################### -tcplLoadAeid(fld = "acid", val = 1) - - -################################################### -### code chunk number 17: tcpl_Overview.Rnw:428-438 -################################################### -tcplMthdAssign(lvl = 1, - id = 1:2, - mthd_id = c(1, 11, 13), - ordr = 1:3, - type = "sc") -tcplMthdAssign(lvl = 1, - id = 2, - mthd_id = 16, - ordr = 4, - type = "sc") - - -################################################### -### code chunk number 18: tcpl_Overview.Rnw:446-448 -################################################### -## Do level 1 processing for acid 1 -sc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "sc") - - -################################################### -### code chunk number 19: tcpl_Overview.Rnw:464-469 -################################################### -## Assign a cutoff value of log2(1.2) -tcplMthdAssign(lvl = 2, - id = 1:2, - mthd_id = 3, - type = "sc") - - -################################################### -### code chunk number 20: tcpl_Overview.Rnw:477-479 -################################################### -## Do level 1 processing for acid 1 -sc2_res <- tcplRun(id = 1:2, slvl = 2, elvl = 2, type = "sc") - - -################################################### -### code chunk number 21: tcpl_Overview.Rnw:522-524 -################################################### -## Do level 1 processing for acid 1 -mc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "mc") - - -################################################### -### code chunk number 22: tcpl_Overview.Rnw:529-537 -################################################### -## Load the level 1 data and look at the cndx and repi values -m1dat <- tcplLoadData(lvl = 1, - fld = "acid", - val = 1, - type = "mc") -m1dat <- tcplPrepOtpt(m1dat) -setkeyv(m1dat, c("repi", "cndx")) -m1dat[chnm == "3-Phenylphenol", list(chnm, conc, cndx, repi)] - - -################################################### -### code chunk number 23: l1apid -################################################### -tcplPlotPlate(dat = m1dat, apid = "09Apr2014.Plate.17") - - -################################################### -### code chunk number 24: tcpl_Overview.Rnw:558-563 -################################################### -tcplMthdAssign(lvl = 2, - id = 1, - mthd_id = 1, - ordr = 1, - type = "mc") - - -################################################### -### code chunk number 25: tcpl_Overview.Rnw:568-570 -################################################### -## Do level 2 processing for acid 1 -mc2_res <- tcplRun(id = 1, slvl = 2, elvl = 2, type = "mc") - - -################################################### -### code chunk number 26: tcpl_Overview.Rnw:582-584 -################################################### -## Look at the assay endpoints for acid 1 -tcplLoadAeid(fld = "acid", val = 1) - - -################################################### -### code chunk number 27: tcpl_Overview.Rnw:588-598 -################################################### -tcplMthdAssign(lvl = 3, - id = 1:2, - mthd_id = c(17, 9, 7), - ordr = 1:3, - type = "mc") -tcplMthdAssign(lvl = 3, - id = 2, - mthd_id = 6, - ordr = 4, - type = "mc") - - -################################################### -### code chunk number 28: tcpl_Overview.Rnw:604-606 -################################################### -## Do level 3 processing for acid 1 -mc3_res <- tcplRun(id = 1, slvl = 3, elvl = 3, type = "mc") - - -################################################### -### code chunk number 29: tcpl_Overview.Rnw:696-698 -################################################### -## Do level 4 processing for aeid 1 and load the data -mc4_res <- tcplRun(id = 1:2, slvl = 4, elvl = 4, type = "mc") - - -################################################### -### code chunk number 30: tcpl_Overview.Rnw:703-708 -################################################### -## Load the level 4 data -m4dat <- tcplLoadData(lvl = 4, type = "mc") -## List the first m4ids where the hill model convered -## for AEID 1 -m4dat[hill == 1 & aeid == 1, head(m4id)] - - -################################################### -### code chunk number 31: l4plt -################################################### -## Plot a fit for m4id 21 -tcplPlotM4ID(m4id = 686, lvl = 4) - - -################################################### -### code chunk number 32: tcpl_Overview.Rnw:747-752 -################################################### -## Assign a cutoff value of bmad*6 -tcplMthdAssign(lvl = 5, - id = 1:2, - mthd_id = 6, - type = "mc") - - -################################################### -### code chunk number 33: podplt -################################################### -par(family = "mono", mar = rep(1, 4), pty = "m") -plot.new() -plot.window(xlim = c(0, 30), ylim = c(-30, 100)) -# axis(side = 2, lwd = 2, col = "gray35") -rect(xleft = par()$usr[1], - xright = par()$usr[2], - ybottom = -15, - ytop = 15, - border = NA, - col = "gray45", - density = 15, - angle = 45) -abline(h = 26, lwd = 3, lty = "dashed", col = "gray30") -tmp <- list(modl = "gnls", gnls_ga = 12, gnls_tp = 80, - gnls_gw = 0.18, gnls_lw = 0.7, gnls_la = 25) -tcplAddModel(pars = tmp, lwd = 3, col = "dodgerblue2") - -abline(v = 8.46, lwd = 3, lty = "solid", col = "firebrick") -text(x = 8.46, y = par()$usr[4]*0.9, - font = 2, labels = "ACB", cex = 2, pos = 2, srt = 90) -abline(v = 10.24, lwd = 3, lty = "solid", col = "yellow2") -text(x = 10.24, y = par()$usr[4]*0.9, - font = 2, labels = "ACC", cex = 2, pos = 2, srt = 90) -abline(v = 12, lwd = 3, lty = "solid", col = "dodgerblue2") -text(x = 12, y = par()$usr[4]*0.9, - font = 2, labels = "AC50", cex = 2, pos = 2, srt = 90) - -points(x = c(8.46, 10.24, 12), y = c(15, 26, 40), - pch = 21, cex = 2, col = "gray30", lwd = 2, - bg = c("firebrick", "yellow2", "dodgerblue2")) - - -################################################### -### code chunk number 34: fitc1 -################################################### -tcplPlotFitc() - - -################################################### -### code chunk number 35: tcpl_Overview.Rnw:818-820 -################################################### -## Do level 5 processing for aeid 1 and load the data -mc5_res <- tcplRun(id = 1:2, slvl = 5, elvl = 5, type = "mc") - - -################################################### -### code chunk number 36: l5plt1 -################################################### -tcplPlotM4ID(m4id = 370, lvl = 5) - - -################################################### -### code chunk number 37: fitc2 -################################################### -m5dat <- tcplLoadData(lvl = 5, type = "mc") -tcplPlotFitc(fitc = m5dat$fitc) - - -################################################### -### code chunk number 38: tcpl_Overview.Rnw:845-848 -################################################### -head(m5dat[fitc == 21, - list(m4id, hill_tp, gnls_tp, - max_med, coff, hitc)]) - - -################################################### -### code chunk number 39: l5plt2 -################################################### -tcplPlotM4ID(m4id = 45, lvl = 5) - - -################################################### -### code chunk number 40: tcpl_Overview.Rnw:867-872 -################################################### -tcplMthdAssign(lvl = 6, - id = 1:2, - mthd_id = c(6:8, 10:12, 15:16), - type = "mc") -tcplMthdLoad(lvl = 6, id = 1, type = "mc") - - -################################################### -### code chunk number 41: tcpl_Overview.Rnw:879-882 -################################################### -## Do level 6 processing -mc6_res <- tcplRun(id = 1:2, slvl = 6, elvl = 6, type = "mc") -m6dat <- tcplLoadData(lvl = 6, type = "mc") - - -################################################### -### code chunk number 42: tcpl_Overview.Rnw:887-888 -################################################### -m6dat[m4id == 46] - - -################################################### -### code chunk number 43: l6plt -################################################### -tcplPlotM4ID(m4id = 46, lvl = 6) - - +### R code from vignette source 'tcpl_Overview.Rnw' + +################################################### +### code chunk number 1: tcpl_Overview.Rnw:43-54 +################################################### +options(continue = " ", width = 60, warn = -1) +pdf.options(pointsize = 10) +library(tcpl) + +## This chunk copies the sqlite db to the temp directory used in installation +## to comply with CRAN policies on not writing to the installation directory +dbfile <- file.path(system.file(package = "tcpl"), "sql", "tcpldb.sqlite") +dbfile_temp <- file.path(tempdir(), "tcpldb.sqlite") +file.copy(from = dbfile, dbfile_temp) +tcplConf(db = dbfile_temp) +tcpl:::.clearSQLite(dbfile_temp) + + +################################################### +### code chunk number 2: tcpl_Overview.Rnw:96-100 +################################################### +library(data.table) +library(tcpl) +## Store the path the tcpl directory for loading data +pkg_dir <- system.file(package = "tcpl") + + +################################################### +### code chunk number 3: tcpl_Overview.Rnw:123-128 (eval = FALSE) +################################################### +## tcplConf(drvr = "MySQL", +## user = "root", +## pass = "", +## host = "localhost", +## db = "toxcastdb") + + +################################################### +### code chunk number 4: tcpl_Overview.Rnw:162-166 +################################################### +## Add a new assay source, call it CTox, +## that produced the data +tcplRegister(what = "asid", flds = list(asnm = "CTox")) +tcplLoadAsid() + + +################################################### +### code chunk number 5: tcpl_Overview.Rnw:171-175 +################################################### +tcplRegister(what = "aid", + flds = list(asid = 1, + anm = "Steroidogenesis", + assay_footprint = "96 well")) + + +################################################### +### code chunk number 6: tcpl_Overview.Rnw:182-193 +################################################### +tcplRegister(what = "acid", + flds = list(aid = 1, acnm = "CTox_CORT")) +tcplRegister(what = "aeid", + flds = list(acid = c(1, 1), + aenm = c("CTox_CORT_up", + "CTox_CORT_dn"), + normalized_data_type = + rep("log2_fold_induction", 2), + export_ready = c(1, 1), + burst_assay = c(0, 0), + fit_all = c(0, 0))) + + +################################################### +### code chunk number 7: tcpl_Overview.Rnw:204-212 +################################################### +ch <- fread(file.path(pkg_dir, "sql", "chdat.csv")) +head(ch) + +## Register the unique chemicals +tcplRegister(what = "chid", + flds = ch[ , + unique(.SD), + .SDcols = c("casn", "chnm")]) + + +################################################### +### code chunk number 8: tcpl_Overview.Rnw:217-222 +################################################### +cmap <- tcplLoadChem() +tcplRegister(what = "spid", + flds = merge(ch[ , list(spid, casn)], + cmap[ , list(casn, chid)], + by = "casn")[ , list(spid, chid)]) + + +################################################### +### code chunk number 9: tcpl_Overview.Rnw:227-233 +################################################### +grp1 <- cmap[chid %% 2 == 0, unique(chid)] +grp2 <- cmap[chid %% 2 == 1, unique(chid)] +tcplRegister(what = "clib", + flds = list(clib = "group_1", chid = grp1)) +tcplRegister(what = "clib", + flds = list(clib = "group_2", chid = grp2)) + + +################################################### +### code chunk number 10: tcpl_Overview.Rnw:238-241 +################################################### +tcplRegister(what = "clib", + flds = list(clib = "other", chid = 1:2)) +tcplLoadClib(field = "chid", val = 1:2) + + +################################################### +### code chunk number 11: tcpl_Overview.Rnw:246-249 +################################################### +scdat <- fread(file.path(pkg_dir, "sql", "scdat.csv")) +mcdat <- fread(file.path(pkg_dir, "sql", "mcdat.csv")) +c(unique(scdat$acsn), unique(mcdat$acsn)) + + +################################################### +### code chunk number 12: tcpl_Overview.Rnw:254-256 +################################################### +tcplRegister(what = "acsn", + flds = list(acid = 1, acsn = "cort")) + + +################################################### +### code chunk number 13: tcpl_Overview.Rnw:261-263 +################################################### +tcplWriteLvl0(dat = scdat, type = "sc") +tcplWriteLvl0(dat = mcdat, type = "mc") + + +################################################### +### code chunk number 14: tcpl_Overview.Rnw:268-269 +################################################### +tcplLoadData(lvl = 0, fld = "acid", val = 1, type = "sc") + + +################################################### +### code chunk number 15: tcpl_Overview.Rnw:326-343 +################################################### +## For illustrative purposes, assign level 2 MC methods to +## ACIDs 98, 99. First check for available methods. +mthds <- tcplMthdList(lvl = 2, type = "mc") +mthds[1:2] +## Assign some methods to ACID 97, 98 & 99 +tcplMthdAssign(lvl = 2, + id = 97:99, + mthd_id = c(3, 4, 2), + ordr = 1:3, + type = "mc") +tcplMthdLoad(lvl = 2, id = 97:99, type = "mc") +## Methods can be cleared one at a time for the given id(s) +tcplMthdClear(lvl = 2, id = 99, mthd_id = 2, type = "mc") +tcplMthdLoad(lvl = 2, id = 99, type = "mc") +## Or all methods can be cleared for the given id(s) +tcplMthdClear(lvl = 2, id = 97:98, type = "mc") +tcplMthdLoad(lvl = 2, id = 97:98, type = "mc") + + +################################################### +### code chunk number 16: tcpl_Overview.Rnw:425-426 +################################################### +tcplLoadAeid(fld = "acid", val = 1) + + +################################################### +### code chunk number 17: tcpl_Overview.Rnw:433-443 +################################################### +tcplMthdAssign(lvl = 1, + id = 1:2, + mthd_id = c(1, 11, 13), + ordr = 1:3, + type = "sc") +tcplMthdAssign(lvl = 1, + id = 2, + mthd_id = 16, + ordr = 4, + type = "sc") + + +################################################### +### code chunk number 18: tcpl_Overview.Rnw:451-453 +################################################### +## Do level 1 processing for acid 1 +sc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "sc") + + +################################################### +### code chunk number 19: tcpl_Overview.Rnw:469-474 +################################################### +## Assign a cutoff value of log2(1.2) +tcplMthdAssign(lvl = 2, + id = 1:2, + mthd_id = 3, + type = "sc") + + +################################################### +### code chunk number 20: tcpl_Overview.Rnw:482-484 +################################################### +## Do level 1 processing for acid 1 +sc2_res <- tcplRun(id = 1:2, slvl = 2, elvl = 2, type = "sc") + + +################################################### +### code chunk number 21: tcpl_Overview.Rnw:527-529 +################################################### +## Do level 1 processing for acid 1 +mc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "mc") + + +################################################### +### code chunk number 22: tcpl_Overview.Rnw:534-542 +################################################### +## Load the level 1 data and look at the cndx and repi values +m1dat <- tcplLoadData(lvl = 1, + fld = "acid", + val = 1, + type = "mc") +m1dat <- tcplPrepOtpt(m1dat) +setkeyv(m1dat, c("repi", "cndx")) +m1dat[chnm == "3-Phenylphenol", list(chnm, conc, cndx, repi)] + + +################################################### +### code chunk number 23: l1apid +################################################### +tcplPlotPlate(dat = m1dat, apid = "09Apr2014.Plate.17") + + +################################################### +### code chunk number 24: tcpl_Overview.Rnw:563-568 +################################################### +tcplMthdAssign(lvl = 2, + id = 1, + mthd_id = 1, + ordr = 1, + type = "mc") + + +################################################### +### code chunk number 25: tcpl_Overview.Rnw:573-575 +################################################### +## Do level 2 processing for acid 1 +mc2_res <- tcplRun(id = 1, slvl = 2, elvl = 2, type = "mc") + + +################################################### +### code chunk number 26: tcpl_Overview.Rnw:587-589 +################################################### +## Look at the assay endpoints for acid 1 +tcplLoadAeid(fld = "acid", val = 1) + + +################################################### +### code chunk number 27: tcpl_Overview.Rnw:593-603 +################################################### +tcplMthdAssign(lvl = 3, + id = 1:2, + mthd_id = c(17, 9, 7), + ordr = 1:3, + type = "mc") +tcplMthdAssign(lvl = 3, + id = 2, + mthd_id = 6, + ordr = 4, + type = "mc") + + +################################################### +### code chunk number 28: tcpl_Overview.Rnw:609-611 +################################################### +## Do level 3 processing for acid 1 +mc3_res <- tcplRun(id = 1, slvl = 3, elvl = 3, type = "mc") + + +################################################### +### code chunk number 29: tcpl_Overview.Rnw:701-703 +################################################### +## Do level 4 processing for aeid 1 and load the data +mc4_res <- tcplRun(id = 1:2, slvl = 4, elvl = 4, type = "mc") + + +################################################### +### code chunk number 30: tcpl_Overview.Rnw:708-713 +################################################### +## Load the level 4 data +m4dat <- tcplLoadData(lvl = 4, type = "mc") +## List the first m4ids where the hill model convered +## for AEID 1 +m4dat[hill == 1 & aeid == 1, head(m4id)] + + +################################################### +### code chunk number 31: l4plt +################################################### +## Plot a fit for m4id 21 +tcplPlotM4ID(m4id = 686, lvl = 4) + + +################################################### +### code chunk number 32: tcpl_Overview.Rnw:752-757 +################################################### +## Assign a cutoff value of bmad*6 +tcplMthdAssign(lvl = 5, + id = 1:2, + mthd_id = 6, + type = "mc") + + +################################################### +### code chunk number 33: podplt +################################################### +par(family = "mono", mar = rep(1, 4), pty = "m") +plot.new() +plot.window(xlim = c(0, 30), ylim = c(-30, 100)) +# axis(side = 2, lwd = 2, col = "gray35") +rect(xleft = par()$usr[1], + xright = par()$usr[2], + ybottom = -15, + ytop = 15, + border = NA, + col = "gray45", + density = 15, + angle = 45) +abline(h = 26, lwd = 3, lty = "dashed", col = "gray30") +tmp <- list(modl = "gnls", gnls_ga = 12, gnls_tp = 80, + gnls_gw = 0.18, gnls_lw = 0.7, gnls_la = 25) +tcplAddModel(pars = tmp, lwd = 3, col = "dodgerblue2") + +abline(v = 8.46, lwd = 3, lty = "solid", col = "firebrick") +text(x = 8.46, y = par()$usr[4]*0.9, + font = 2, labels = "ACB", cex = 2, pos = 2, srt = 90) +abline(v = 10.24, lwd = 3, lty = "solid", col = "yellow2") +text(x = 10.24, y = par()$usr[4]*0.9, + font = 2, labels = "ACC", cex = 2, pos = 2, srt = 90) +abline(v = 12, lwd = 3, lty = "solid", col = "dodgerblue2") +text(x = 12, y = par()$usr[4]*0.9, + font = 2, labels = "AC50", cex = 2, pos = 2, srt = 90) + +points(x = c(8.46, 10.24, 12), y = c(15, 26, 40), + pch = 21, cex = 2, col = "gray30", lwd = 2, + bg = c("firebrick", "yellow2", "dodgerblue2")) + + +################################################### +### code chunk number 34: fitc1 +################################################### +tcplPlotFitc() + + +################################################### +### code chunk number 35: tcpl_Overview.Rnw:823-825 +################################################### +## Do level 5 processing for aeid 1 and load the data +mc5_res <- tcplRun(id = 1:2, slvl = 5, elvl = 5, type = "mc") + + +################################################### +### code chunk number 36: l5plt1 +################################################### +tcplPlotM4ID(m4id = 370, lvl = 5) + + +################################################### +### code chunk number 37: fitc2 +################################################### +m5dat <- tcplLoadData(lvl = 5, type = "mc") +tcplPlotFitc(fitc = m5dat$fitc) + + +################################################### +### code chunk number 38: tcpl_Overview.Rnw:850-853 +################################################### +head(m5dat[fitc == 21, + list(m4id, hill_tp, gnls_tp, + max_med, coff, hitc)]) + + +################################################### +### code chunk number 39: l5plt2 +################################################### +tcplPlotM4ID(m4id = 45, lvl = 5) + + +################################################### +### code chunk number 40: tcpl_Overview.Rnw:872-877 +################################################### +tcplMthdAssign(lvl = 6, + id = 1:2, + mthd_id = c(6:8, 10:12, 15:16), + type = "mc") +tcplMthdLoad(lvl = 6, id = 1, type = "mc") + + +################################################### +### code chunk number 41: tcpl_Overview.Rnw:884-887 +################################################### +## Do level 6 processing +mc6_res <- tcplRun(id = 1:2, slvl = 6, elvl = 6, type = "mc") +m6dat <- tcplLoadData(lvl = 6, type = "mc") + + +################################################### +### code chunk number 42: tcpl_Overview.Rnw:892-893 +################################################### +m6dat[m4id == 46] + + +################################################### +### code chunk number 43: l6plt +################################################### +tcplPlotM4ID(m4id = 46, lvl = 6) + + diff --git a/inst/doc/tcpl_Overview.Rnw b/inst/doc/tcpl_Overview.Rnw index b6f9950..81bd8cb 100644 --- a/inst/doc/tcpl_Overview.Rnw +++ b/inst/doc/tcpl_Overview.Rnw @@ -1,1472 +1,1477 @@ -\documentclass{article} - -%\usepackage{hyperref} -\usepackage{url} -\usepackage{Sweave} -\usepackage{rotating} -\usepackage{enumitem} -\usepackage{color} -\usepackage{makebox} -\usepackage{float} -\usepackage{array} -\usepackage{fancyhdr} -\usepackage{multirow} -%\usepackage[usenames,dvipsnames]{color} - -\pagestyle{fancy} -\fancyhead{} -\fancyfoot{} -\renewcommand{\headrulewidth}{0pt} -\fancyhead[C]{\leftmark} -\fancyfoot[C]{\thepage} - -\renewcommand{\arraystretch}{1.5} -%\setlength{\parskip}{10pt} - -\definecolor{gray50}{gray}{0.5} - -\DefineVerbatimEnvironment{Sinput}{Verbatim} {xleftmargin=0em, - frame=single, - rulecolor=\color{gray50}, - framesep=3mm, - label=\tiny{R Input}, - samepage=true} -\DefineVerbatimEnvironment{Soutput}{Verbatim}{xleftmargin=0em, - frame=single, - rulecolor=\color{gray50}, - framesep=3mm, - label=\tiny{R Output}, - samepage=true} - -\newcommand{\Lagr}{\mathop{\mathcal{L}}} - -<>= -options(continue = " ", width = 60, warn = -1) -pdf.options(pointsize = 10) -library(tcpl) -tbls <- unlist(tcplQuery("SELECT name FROM sqlite_master WHERE type='table';")) -keep <- grepl("methods|categories", tbls) -for (i in tbls[!keep]) tcplSendQuery(paste("DELETE FROM", i)) -@ - -%\VignetteIndexEntry{tcpl Overview} - -\begin{document} -\SweaveOpts{concordance=true} -\hyphenpenalty=10000 -\tolerance=10000 - -\title{The ToxCast\texttrademark{} Analysis Pipeline:\\ An R Package for Processing and Modeling Chemical Screening Data \\ \hfill \newline \large Version \Sexpr{packageVersion("tcpl")}} -\author{Dayne L. Filer, Parth Kothiya, Woodrow R. Setzer,\\ Richard S. Judson, Matthew T. Martin} -\maketitle - -\clearpage - -\tableofcontents -%\listoffigures -%\listoftables - -\clearpage -\section*{Introduction} -\label{sec:intro} -\markboth{Introduction}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Introduction} -\subsection*{Overview} -\label{subsec:overview} -\addcontentsline{toc}{subsection}{Overview} -The \texttt{tcpl} package was developed to process high-throughput and high-content screening data generated by the U.S. Environmental Protection Agency (EPA) ToxCast\texttrademark{} program.\footnote{\url{}} ToxCast is screening thousands of chemicals with hundreds of assays coming from numerous and diverse biochemical and cell-based technology platforms. The diverse data, received in heterogeneous formats from numerous vendors, are transformed to a standard computable format and loaded into the \texttt{tcpl} database by vendor-specific R scripts. Once data is loaded into the database, ToxCast utilizes the generalized processing functions provided in this package to process, normalize, model, qualify, flag, inspect, and visualize the data. While developed primarily for ToxCast, we have attempted to make the \texttt{tcpl} package generally applicable to chemical-screening community. - -The \texttt{tcpl} package includes processing functionality for two screening paradigms: (1) single-concentration screening and (2) multiple-concentration screening. Single-concentration screening consists of testing chemicals at one concentration, often for the purpose of identifying potentially active chemicals to test in the multiple-concentration format. Multiple-concentration screening consists of testing chemicals across a concentration range, such that the modeled activity can give an estimate of potency, efficacy, etc. - -Prior to the pipeline processing provided in this package, all the data must go through pre-processing (level 0). Level 0 pre-processing utilizes dataset-specific R scripts to process the heterogeneous data into a uniform format and to load the uniform data into the \texttt{tcpl} database. Level 0 pre-processing is outside the scope of this package, but can be done for virtually any high-throughput or high-content chemical screening effort, provided the resulting data includes the minimum required information. - -In addition to storing the data, the \texttt{tcpl} database stores every processing/analysis decision at the assay component or assay endpoint level to facilitate transparency and reproducibility. For the illustrative purposes of this vignette we have included a SQLite version of the \texttt{tcpl} database containing a small subset of data from the ToxCast program. Because of differences in database capabilities, not all functionality of the package will work with the SQLite version. To best utilize the package the user should work with a MySQL database and the \texttt{RMySQL} package. The package includes a SQL file to initialize the MySQL database on the user's server of choice. Additionally, the MySQL version of the ToxCast database containing all the publicly available ToxCast data is available for download at: \url{}. - -\subsection*{Package Settings} -\label{subsec:pkgsettings} -\addcontentsline{toc}{subsection}{Package Settings} -First, it is highly recommended for users to utilize the \texttt{data.table} package. The \texttt{tcpl} package utilizes the \texttt{data.table} package for all data frame-like objects. -\hfill \newline -<>= -library(data.table) -library(tcpl) -## Store the path the tcpl directory for loading data -pkg_dir <- system.file(package = "tcpl") -@ -\hfill \par -Every time the package is loaded in a new R session, a message similar to the following will print showing the default package settings: -\hfill \newline -\begin{Schunk} -\begin{Soutput} -tcpl (v1.0) loaded with the following settings: - TCPL_DB: /usr/local/lib64/R/library/tcpl/sql/xmpl.sqlite - TCPL_USER: NA - TCPL_HOST: NA - TCPL_DRVR: SQLite -Default settings stored in TCPL.conf. See ?tcplConf for -more information. -\end{Soutput} -\end{Schunk} -\hfill \par - -The package consists of five settings: (1) \texttt{\$TCPL\_DB} points to the \texttt{tcpl} database (either the SQLite file, as in the given example above, or the name of the MySQL database), (2) \texttt{\$TCPL\_USER} stores the username for accessing the database, (3) \texttt{\$TCPL\_PASS} stores the password for accessing the database, (4) \texttt{\$TCPL\_HOST} points to the MySQL server host, and (5) \texttt{\$TCPL\_DRVR} indicates which database driver to use (either ``MySQL'' or ``SQLite''). - -Refer to \texttt{?tcplConf} for more information. At any time users can check the settings using \texttt{tcplConfList()}. An example of database settings would be as follows: - -\hfill \newline -<>= -tcplConf(drvr = "MySQL", - user = "root", - pass = "", - host = "localhost", - db = "toxcastdb") -@ -\hfill \par - -Note, \texttt{tcplSetOpts} will only make changes to the parameters given. The package is always loaded with the settings stored in the TCPL.config file located within the package directory. The user can edit the file, such that the package loads with the desired settings, rather than having to call the \texttt{tcplSetOpts} function every time. The TCPL.config file has to be edited whenever the package is updated or re-installed. - -\subsection*{Assay Structure} -\label{subsec:assaystruc} -\addcontentsline{toc}{subsection}{Assay Structure} -The definition of an ``assay'' is, for the purposes of this package, broken into: -\begin{description}[labelindent=1cm] - \item[assay\_source] -- the vendor/origination of the data - \item[assay] -- the procedure to generate the component data - \item[assay\_component] -- the raw data readout(s) - \item[assay\_component\_endpoint] -- the normalized component data -\end{description} -Each assay element is represented by a separate table in the \texttt{tcpl} database. In general, we refer to an ``assay\_component\_endpoint'' as an ``assay endpoint.'' As we move down the hierarchy, each additional layer has a one-to-many relationship with the previous layer. For example, an assay component can have multiple assay endpoints, but an assay endpoint can derive only from a single assay component. - -All processing occurs by assay component or assay endpoint, depending on the processing type (single-concentration or multiple-concentration) and level. No data are stored at the assay or assay source level. The ``assay'' and ``assay\_source'' tables store annotations to help in the processing and down-stream understanding/analysis of the data. For more information about the assay annotations and the ToxCast assays please refer to \url{}. - -Throughout the package the levels of assay hierarchy are defined and referenced by their primary keys (IDs) in the \texttt{tcpl} database: $\mathit{asid}$ (assay source ID), $\mathit{aid}$ (assay ID), $\mathit{acid}$ (assay component ID), and $\mathit{aeid}$ (assay endpoint ID). In addition, the package abbreviates the fields for the assay hierarchy names. The abbreviations mirror the abbreviations for the IDs with ``nm'' in place of ``id'' in the abbreviations, e.g. assay\_component\_name is abbreviated $\mathit{acnm}$. - -\clearpage -\section*{Register and Upload New Data} -\label{sec:newdata} -\markboth{Register and Upload New Data}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Register and Upload New Data} -This section explains how to register and upload new data into the \texttt{tcpl} database using a small subset of ToxCast data showing changes intracellular cortisol hormone. The subset of data comes from an assay measuring steroidogenesis through cellular levels of mutliple steroid hormones. - -The \texttt{tcpl} package provides three functions for adding new data: (1) \texttt{tcplRegister} to register a new assay or chemical ID, (2) \texttt{tcplUpdate} to change or add additional information for existing assay or chemical IDs, and (3) \texttt{tcplWriteLvl0} for loading data. Before writing any data to the \texttt{tcpl} database, the user has to register the assay and chemical information. - -The first step in registering new assays is to register the assay source. As discussed in the previous section, the package refers to the levels of the assay hierarchy by their ID names, e.g. $\mathit{asid}$ for assay source.The following code shows how to register an assay source, then ensure the assay source was properly registered. -\hfill \newline -<<>>= -## Add a new assay source, call it CTox, -## that produced the data -tcplRegister(what = "asid", flds = list(asnm = "CTox")) -tcplLoadAsid() -@ -\hfill \par -The \texttt{tcplRegister} function takes the abbreviation for $\mathit{assay\_source\_name}$, but the function will also take the unabbreviated form. The same is true of the \texttt{tcplLoadA-} functions, which load the information for the assay annotations stored in the database. The next steps show how to register, in order, an assay, assay component, and assay endpoints. -\hfill \newline -<<>>= -tcplRegister(what = "aid", - flds = list(asid = 1, - anm = "Steroidogenesis", - assay_footprint = "96 well")) -@ -\hfill \par -When registering an assay ($\mathit{aid}$), the user must give an $\mathit{asid}$ to map the assay to the correct assay source. Registering an assay, in addition to an assay\_name ($\mathit{anm}$) and $\mathit{asid}$, requires $\mathit{assay\_footprint}$. The $\mathit{assay\_footprint}$ field is used in the assay plate visualization functions (discussed later) to define the appropriate plate size. The $\mathit{assay\_footprint}$ field can take most string values, but only the numeric value will be extracted, e.g. the text string ``hello 384'' would indicate to draw a 384-well microtitier plate. Values containing multiple numeric values in $\mathit{assay\_footprint}$ may cause errors in plotting plate diagrams. - -With the assay registered, the next step is to register an assay component. The example data presented here only contains data for one of the many steroids measured and only requires one assay component, but at this step the user could add multiple assay components to the ``Steroidogenesis'' assay. -\hfill \newline -<<>>= -tcplRegister(what = "acid", - flds = list(aid = 1, acnm = "CTox_CORT")) -tcplRegister(what = "aeid", - flds = list(acid = c(1, 1), - aenm = c("CTox_CORT_up", - "CTox_CORT_dn"), - normalized_data_type = - rep("log2_fold_induction", 2), - export_ready = c(1, 1), - burst_assay = c(0, 0), - fit_all = c(0, 0))) -@ -\hfill \par -In the example above two assay endpoints were assigned to the assay component. Multiple endpoints allow for different normalization approaches of the data, in this case to detect activity in both the positive and negative directions (up and down). Notice registering an assay endpoint also requires the $\mathit{normalized\_data\_type}$ field. The $\mathit{normalized\_data\_type}$ field gives some default values for plotting. Currently the package supports three $\mathit{normalized\_data\_type}$ values: (1) ``percent\_activity,'' (2) ``log2\_fold\_induction,'' and (3) ``log10\_fold\_induction.'' Any other values will be treated as ``percent\_activity.'' - -The other three additional fields when registering an assay endpoint do not have to be explicitly defined when working in the MySQL environment and will default to the values given above. All three fields represent Boolean values (1 or 0, 1 being \texttt{TRUE}). The $\mathit{export\_ready}$ field indicates (1) the data is done and ready for export or (0) still in progress. The $\mathit{burst\_assay}$ field is specific to multiple-concentration processing and indicates (1) the assay endpoint is included in the burst distribution calculation or (0) not (Appendix \ref{app:cyto}). The $\mathit{fit\_all}$ field is specific to multiple-concentration processing and indicates (1) the package should try to fit every concentration series, or (0) only attempt to fit concentration series that show evidence of activity (page \pageref{subsec:mc4}). - -The final piece of assay information needed is the assay component source name (abbreviated $\mathit{acsn}$), stored in the ``assay\_component\_map'' table. The assay component source name is intended to simplify level 0 pre-processing by defining unique character strings (concatenating information if necessary) from the source files that identify the specific assay components. The unique character strings ($\mathit{acsn}$) get mapped to $\mathit{acid}$. An example of how to register a new $\mathit{acsn}$ will be given later in this section. - -With the minimal assay information registered, the next step is to register the necessary chemical and sample information. The ``chdat.csv'' file included in the package contains the sample and chemical information for the data that will be loaded. The following shows an example of how to load chemical information. Similar to the order in registering assay information, the user must first register chemicals, then register samples that map to chemical. -\hfill \newline -<<>>= -ch <- fread(file.path(pkg_dir, "sql", "chdat.csv")) -head(ch) - -## Register the unique chemicals -tcplRegister(what = "chid", - flds = ch[ , - unique(.SD), - .SDcols = c("casn", "chnm")]) -@ -\hfill \par -The ``chdat.csv'' file contains a map of sample to chemical information, but chemical and sample information have to be registered separately because a chemical could potentially have multiple samples. Registering chemicals only takes a chemical CAS registry number ($\mathit{casn}$) and name ($\mathit{chnm}$). In the above example only the unique chemicals were loaded. The $\mathit{casn}$ and $\mathit{chnm}$ fields have unique constraints; trying to register multiple chemicals with the same name or CAS registry number is not possible and will result in an error. With the chemicals loaded the samples can be registered by mapping the sample ID ($\mathit{spid}$) to chemical ID. Note, the user needs to load the chemical information to get the chemical IDs then merge the new chemical IDs with the sample IDs from the original file by chemical name or CASRN. -\hfill \newline -<<>>= -cmap <- tcplLoadChem() -tcplRegister(what = "spid", - flds = merge(ch[ , list(spid, casn)], - cmap[ , list(casn, chid)], - by = "casn")[ , list(spid, chid)]) -@ -\hfill \par -Optionally, the user user can subdivide the chemcial IDs into different groups or libraries. For illustration, the chemical IDs will be arbitrarily divided into two chemical libraries, with the even numbered chemical IDs in group 1 and the odd numbered chemicals IDs in group 2. -\hfill \newline -<<>>= -grp1 <- cmap[chid %% 2 == 0, unique(chid)] -grp2 <- cmap[chid %% 2 == 1, unique(chid)] -tcplRegister(what = "clib", - flds = list(clib = "group_1", chid = grp1)) -tcplRegister(what = "clib", - flds = list(clib = "group_2", chid = grp2)) -@ -\hfill \par -Chemical IDs can belong to more than one library, and will be listed as seperate entries when loading chemical library information. -\hfill \newline -<<>>= -tcplRegister(what = "clib", - flds = list(clib = "other", chid = 1:2)) -tcplLoadClib(field = "chid", val = 1:2) -@ -\hfill \par -After registering the chemical and assay information the data can be loaded into the \texttt{tcpl} database. The package includes two files from the ToxCast program, ``scdat.csv'' and ``mcdat.csv,'' with a subset of single- and multiple-concentration data, respectively. The single- and multiple-concentration processing require the same level 0 fields; more information about level 0 pre-processing in Appendix \ref{app:l0}. -\hfill \newline -<<>>= -scdat <- fread(file.path(pkg_dir, "sql", "scdat.csv")) -mcdat <- fread(file.path(pkg_dir, "sql", "mcdat.csv")) -c(unique(scdat$acsn), unique(mcdat$acsn)) -@ -\hfill \par -As discussed above, the final step before loading data is mapping the assay component source name ($\mathit{acsn}$) to the correct $\mathit{acid}$. An assay component can have multiple $\mathit{acsn}$ values, but an $\mathit{acsn}$ must be unique to one assay component. Assay components can have multiple $\mathit{acsn}$ values to minimize the amount of data manipulation required (and therefore potential errors) during the level 0 pre-processing if assay source files change or are inconsistent. The example data presented here only has one $\mathit{acsn}$ value, ``cort.'' -\hfill \newline -<<>>= -tcplRegister(what = "acsn", - flds = list(acid = 1, acsn = "cort")) -@ -\hfill \par -The data are now ready to be loaded with the \texttt{tcplWriteLvl0} function. -\hfill \newline -<>= -tcplWriteLvl0(dat = scdat, type = "sc") -tcplWriteLvl0(dat = mcdat, type = "mc") -@ -\hfill \par -The \texttt{type} argument is used throughout the package to distinguish the type of data/processing: ``sc'' indicates single-concentration; ``mc'' indicates multiple-concentration. The \texttt{tcplLoadData} function can be used to load the data from the database. -\hfill \newline -<<>>= -tcplLoadData(lvl = 0, fld = "acid", val = 1, type = "sc") -@ -\hfill \par -Notice in the loaded data the \texttt{acsn} is replaced by the correct $\mathit{acid}$ and the $\mathit{s0id}$ field is added. The ``s\#'' fields, and corresponding ``m\#'' fields in the multiple-concentration data, are the primary keys for each level of data. These primary keys link the various levels of data. All of the keys are auto-generated and will change anytime data are reloaded or processed. Note, the primary keys only change for the levels affected, e.g. if the user reprocesses level 1, the level 0 keys will remain the same. - -\clearpage -\section*{Data Processing and the tcplRun Function} -\label{sec:tcplrun} -\markboth{Data Processing and the tcplRun Function}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Data Processing and the tcplRun Function} -This section is intended help the user understand the general aspects of how the data is processed before diving into the specifics of each processing level for both screening paradigms. The details of the two screening paradigms are provided in later sections. - -All processing in the \texttt{tcpl} package occurs at the assay component or assay endpoint level. There is no capability within either screening paradigm to do any processing which combines data from multiple assay components or assay endpoints. Any combining of data must occur before or after the pipeline processing. For example, a ratio of two values could be processed through the pipeline if the user calculated the ratio during the level 0 pre-processing and uploaded a single ``component.'' - -Once data are uploaded in the database, data processing occurs through the \texttt{tcplRun} function for both single- and multiple-concentration screening. The \texttt{tcplRun} function can either take a single ID ($\mathit{acid}$ or $\mathit{aeid}$, depending on the processing type and level) or an $\mathit{asid}$. If given an $\mathit{asid}$ the \texttt{tcplRun} function will attempt to process all corresponding components/endpoints. When processing by $\mathit{acid}$ or $\mathit{aeid}$, the user must know which ID to give for each level (Table \ref{tab:proccheck}). - -The processing is sequential, and every level of processing requires successful processing at the antecedent level. Any processing changes will cause a ``delete cascade,'' removing any subsequent data affected by the processing change to ensure complete data fidelity at any given time. For example, processing level 3 data will cause the data from levels 4 through 6 to be deleted for the corresponding IDs. Changing any method assignments will also trigger a delete cascade for any corresponding data (more on method assignments below). - -The user must give a start and end level when using the \texttt{tcplRun} function. If processing more than one assay component or endpoint, the function will not stop if one component or endpoint fails. If a component or endpoint fails while processing multiple levels, the function will not attempt to processes the failed component/endpoint in subsequent levels. When finished processing, the \texttt{tcplRun} function returns a list indicating the processing success of each id. For each level processed the list will contain two elements: (1) ``l\#'' a named Boolean vector where \texttt{TRUE} indicates successful processing, and (2) ``l\#\_failed'' containing the names of any ids that failed processing where ``\#'' is the processing level. - -The processing functions print messages to the console indicating the four steps of the processing. First, data for the given assay component ID are loaded, the data are processed, data for the same ID in subsequent levels are deleted, then the processed data is written to the database. The `outfile' parameter in the \texttt{tcplRun} function gives the user the option of printing all of the output text to a file. - -The \texttt{tcplRun} function will attempt to use multiple processors on Unix-based systems (does not include Windows). Depending on the system environment, or if the user is running into memory constraints, the user may wish to use less processing power and can do so by setting the `mc.cores' parameter in the \texttt{tcplRun} function. - -\begin{table}[h!] - \centering - \caption{Processing checklist} - \noindent\makebox[\textwidth]{% - \begin{tabular}{c c c c} - Type & Level & Input ID & Method ID\\ - SC & Lvl 1 & \texttt{acid} & \texttt{aeid} \\ \hline - SC & Lvl 2 & \texttt{aeid} & \texttt{aeid} \\ \hline \hline - MC & Lvl 1 & \texttt{acid} & \texttt{N/A} \\ \hline - MC & Lvl 2 & \texttt{acid} & \texttt{acid} \\ \hline - MC & Lvl 3 & \texttt{acid} & \texttt{aeid} \\ \hline - MC & Lvl 4 & \texttt{aeid} & \texttt{N/A} \\ \hline - MC & Lvl 5 & \texttt{aeid} & \texttt{aeid} \\ \hline - MC & Lvl 6 & \texttt{aeid} & \texttt{aeid} \\ \hline - \multicolumn{4}{p{8cm}}{\footnotesize{The Input ID column indicates the ID used for each processing step; Method ID indicates the ID used for assigning methods for data processing, when necessary. SC = single-concentration; MC = multiple-concentration.}} - \end{tabular}} - \label{tab:proccheck} -\end{table} - -The processing requirements vary by screening paradigm and level. Later sections will cover the details, but in general, many of the processing steps require specific methods to accommodate different experimental designs or data processing approaches. - -Notice from Table \ref{tab:proccheck} that level 1 single-concentration processing (SC1) requires an $\mathit{acid}$ input (Table \ref{tab:proccheck}), but the methods are assigned by $\mathit{aeid}$. The same is true for MC3 processing. SC1 and MC3 are the normalization steps and convert $\mathit{acid}$ to $\mathit{aeid}$. (Only MC2 has methods assigned by $\mathit{acid}$.) The normalization process is discussed in the following section. - -To promote reproducibility, all method assignments must occur through the database. Methods cannot be passed to either the \texttt{tcplRun} function or the low-level processing functions called by \texttt{tcplRun}. - -In general, method data are stored in the ``\_methods'' and ``\_id'' tables that correspond to the data-storing tables. For example, the ``sc1'' table is accompanied by the ``sc1\_methods'' table which stores the available methods for SC1, and the ``sc1\_aeid'' table which stores the method assignments and execution order. - -The \texttt{tcpl} package provides three functions for easily modifying and loading the method assignments for the given assay components or endpoints: (1) \texttt{tcplMthdAssign} allows the user to assign methods, (2) \texttt{tcplMthdClear} clears method assignments, and (3) \texttt{tcplMthdLoad} queries the \texttt{tcpl} database and returns the method assignments. The package also includes the \texttt{tcplMthdList} function that queries the \texttt{tcpl} database and returns the list of available methods. - -The following code blocks will give some examples of how to use the method-related functions. - -\hfill \newline -<<>>= -## For illustrative purposes, assign level 2 MC methods to -## ACIDs 98, 99. First check for available methods. -mthds <- tcplMthdList(lvl = 2, type = "mc") -mthds[1:2] -## Assign some methods to ACID 97, 98 & 99 -tcplMthdAssign(lvl = 2, - id = 97:99, - mthd_id = c(3, 4, 2), - ordr = 1:3, - type = "mc") -tcplMthdLoad(lvl = 2, id = 97:99, type = "mc") -## Methods can be cleared one at a time for the given id(s) -tcplMthdClear(lvl = 2, id = 99, mthd_id = 2, type = "mc") -tcplMthdLoad(lvl = 2, id = 99, type = "mc") -## Or all methods can be cleared for the given id(s) -tcplMthdClear(lvl = 2, id = 97:98, type = "mc") -tcplMthdLoad(lvl = 2, id = 97:98, type = "mc") -@ -\hfill \par - -\clearpage -\section*{Data Normalization} -\label{sec:datanorm} -\markboth{Data Normalization}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Data Normalization} - -Data normalization occurs in both single- and multiple-concentration processing at levels 1 and 3, respectively. While the two paradigms use different methods, the normalization approach is the same for both single- and multiple-concentration processing. Data normalization does not have to occur within the package, and normalized data can be loaded into the database at level 0. However, \textbf{data must be zero-centered and will only be fit in the positive direction}. - -The \texttt{tcpl} package supports fold-change and a percent of control approaches to normalization. All data must be zero-centered so all fold-change data must be log-transformed. Normalizing to a control requires three normalization methods: (1) one to define the baseline value, (2) one to define the control value, and (3) one to calculate percent of control (``resp.pc''). Normalizing to fold-change also requires three methods: (1) one to define the baseline value, (2) one to calculate the fold-change, and (3) one to log-transform the fold-change values. Methods defining a baseline value ($\mathit{bval}$) have the ``bval'' prefix, methods defining the control value ($\mathit{pval}$) have the ``pval'' prefix, and methods that calculate or modify the final response value have the ``resp'' prefix. For example, ``resp.log2'' does a log-transformation of the response value using a base value of 2. The formluae for calculating the percent of control and fold-change response values are listed in equations \ref{eq:pc} and \ref{eq:fc}, respectively. - -The percent of control and fold-change values, respectively: -\begin{equation} -\label{eq:pc} \mathit{resp} = \frac{\mathit{cval} - \mathit{bval}}{\mathit{pval} - \mathit{bval}}100 -\end{equation} -\begin{equation} -\label{eq:fc} \mathit{resp} = \mathit{cval}/\mathit{bval} -\end{equation} - -Order matters when assigning normalization methods. The $\mathit{bval}$, and $\mathit{pval}$ if normalizing as a percent of control, need to be calculated prior to calculating the response value. Table \ref{tab:normxmpl} shows some possible normalization schemes. - -\begin{table}[h!] - \centering - \caption{Example normalization method assignments.} - \noindent\makebox[\textwidth]{% - \begin{tabular}{c|p{4cm}|p{4cm}|p{4cm}|} - \cline{2-4} - \parbox[t]{2mm}{\multirow{4}{*}{\rotatebox[origin=c]{90}{Fold-Change}}} & 1. bval.apid.nwlls.med & 1. bval.apid.lowconc.med & 1. none \\ - & 2. resp.fc & 2. resp.fc & 2. resp.log10 \\ - & 3. resp.log2 & 3. resp.log2 & 3. resp.blineshift.50.spid \\ - & 4. resp.mult.neg1 & 4. & 4. \\ \cline{2-4} - \parbox[t]{2mm}{\multirow{4}{*}{\rotatebox[origin=c]{90}{\% Control}}} & 1. bval.apid.lowconc.med & 1. bval.spid.lowconc.med & 1. none \\ - & 2. pval.apid.pwlls.med & 2. pval.apid.mwlls.med & 2. resp.multneg1 \\ - & 3. resp.pc & 3. resp.pc & 3. \\ - & 4. resp.multneg1 & 4. & 4. \\ \cline{2-4} - \end{tabular}} - \label{tab:normxmpl} -\end{table} - -If the data does not require any normalization the ``none'' method must be assigned for normalization. The ``none'' method simply copies the input data to the response field. Without assigning ``none'' the response field will not get generated and the processing will not complete. - -To reiterate, the package only models response in the positive direction. Therefore, signal in the negative direction must transformed to the positive direction during normalization. Negative direction data are inverted by multiplying the final response values by ${-1}$ (see the ``resp.mult.neg`'' methods in Table \ref{tab:normxmpl}). - -In addition to the required normalization methods, the user can add additional methods to transform the normalized values. For example, the third fold-change example in Table \ref{tab:normxmpl} includes ``resp.blineshift.50.spid,'' which corrects for baseline deviations by $\mathit{spid}$. A complete list of available methods, by processing type and level, can be listed with \texttt{tcplMthdList}. More information is available in the package documentation, and can be found by running \texttt{??tcpl::Methods}. - -As discussed in the Assay Structure section (page \pageref{subsec:assaystruc}), an assay component can have more than one assay endpoint. Creating multiple endpoints for one component enables multiple normalization approaches. Multiple normalization approaches may become necessary when the assay component detects signal in both positive and negative directions. - -\clearpage -\section*{Single-concentration Screening} -\label{sec:snglconc} -\markboth{Single-concentration Screening}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Single-concentration Screening} -This section will cover the \texttt{tcpl} process for handling single-concentration data\footnote{This section assumes a working knowledge of the concepts covered in the Data Processing and Data Normalization sections (pages \pageref{sec:tcplrun} and \pageref{sec:datanorm}, respectively).}. The goal of single-concentration processing is to identify potentially active compounds from a broad screen at a single concentration. After the data is loaded into the \texttt{tcpl} database, the single-concentration processing consists of 2 levels (Table \ref{tab:scsummary}). - -\begin{table}[h!] - \centering - \caption{Summary of the \texttt{tcpl} single-concentration pipeline} - \noindent\makebox[\textwidth]{% - \begin{tabular}{c p{10cm}} - & Description \\ \hline - Lvl 0 & Pre-processing: Vendor/dataset-specific pre-processing to organize heterogeneous raw data to the uniform format for processing by the \texttt{tcpl} package$^\dagger$ \\ \hline - Lvl 1 & Normalize: Apply assay endpoint-specific normalization listed in the ``sc1\_aeid'' table to the raw data to define response \\ \hline - Lvl 2 & Activity Call: Collapse replicates by median response, define the response cutoff based on methods in the ``sc2\_aeid'' table, and determine activity \\ \hline - \multicolumn{2}{l}{\footnotesize{$^\dagger$Level 0 pre-processing is outside the scope of this package}} - \end{tabular}} - \label{tab:scsummary} -\end{table} - -\subsection*{Level 1} -\label{subsec:sc1} -\addcontentsline{toc}{subsection}{Level 1} -Level 1 processing converts the assay component to assay endpoint(s) and defines the normalized-response value field ($\mathit{resp}$); logarithm-concentration field ($\mathit{logc}$); and optionally, the baseline value ($\mathit{bval}$) and positive control value ($\mathit{pval}$) fields. The purpose of level 1 is to normalize the raw values to either the percentage of a control or to fold-change from baseline. The normalization process is discussed in greater detail in the Data Normalization section (page \pageref{sec:datanorm}). - -Before beginning the normalization process, all wells with well quality ($\mathit{wllq}$) equal to 0 are removed. - -The first step in beginning the processing is to identify which assay endpoints stem from the assay component(s) being processed. -\hfill \newline -<<>>= -tcplLoadAeid(fld = "acid", val = 1) -@ -\hfill \par - -With the corresponding endpoints identified, the appropriate methods can be assigned. - -\hfill \newline -<<>>= -tcplMthdAssign(lvl = 1, - id = 1:2, - mthd_id = c(1, 11, 13), - ordr = 1:3, - type = "sc") -tcplMthdAssign(lvl = 1, - id = 2, - mthd_id = 16, - ordr = 4, - type = "sc") -@ -\hfill \par - -Above, methods 1, 11, and 13 were assigned for both endpoints. The method assignments instruct the processing to: (1) calculate $\mathit{bval}$ for each assay plate ID by taking the median of all data where the well type equals ``n;'' (2) calculate a fold-change over $\mathit{bval}$; (3) log-transform the fold-change values with base 2. The second method assignment (only for AEID 2) indicates to multiply all response values by $-1$. - -For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 1, type = "sc")} or \texttt{?SC1\_Methods}. With the assay endpoints and normalization methods defined, the data are ready for level 1 processing. -\hfill \newline -<<>>= -## Do level 1 processing for acid 1 -sc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "sc") -@ -\hfill \par -\textbf{Notice that level 1 processing takes an assay component ID, not an assay endpoint ID, as the input ID.} As mentioned in previously, the user must assign normalization methods by assay endpoint, then do the processing by assay component. The level 1 processing will attempt to process all endpoints in the database for a given component. If one endpoint fails for any reason (e.g., does not have appropriate methods assigned), the processing for the entire component fails. - -\subsection*{Level 2} -\label{subsec:sc2} -\addcontentsline{toc}{subsection}{Level 2} -Level 2 processing defines the baseline median absolute deviation ($\mathit{bmad}$), collapses any replicates by sample ID, and determines the activity. - -Before the data are collapsed by sample ID, the $\mathit{bmad}$ is calculated as the median absolute deviation of all wells with well type equal to ``t.'' The calculation to define $\mathit{bmad}$ is done once across the entire assay endpoint. \textbf{If additional data is added to the database for an assay component, the $\mathit{bmad}$ values for all associated assay endpoints will change.} Note, this $\mathit{bmad}$ definition is different from the $\mathit{bmad}$ definition used for multiple-concentration screening. - -To collapse the data by sample ID, the median response value is calculated at each concentration. The data are then further collapsed by taking the maximum of those median values ($\mathit{max\_med}$). - -Once the data are collapsed, such that each assay endpoint-sample pair only has one value, the activity is determined. For a sample to get an active hit-call, the $\mathit{max\_med}$ must be greater than an efficacy cutoff. The efficacy cutoff is determined by the level 2 methods. The efficacy cutoff value ($\mathit{coff}$) is defined as the maximum of all values given by the assigned level 2 methods. Failing to assign a level 2 method will result in every sample being called active. For a complete list of level 5 methods see \texttt{tcplMthdList(lvl = 2, type = "sc")} or \texttt{?SC2\_Methods}. -\hfill \newline -<<>>= -## Assign a cutoff value of log2(1.2) -tcplMthdAssign(lvl = 2, - id = 1:2, - mthd_id = 3, - type = "sc") -@ -\hfill \par -For the example data the cutoff value is $log_2(1.2)$. If the maximum median value ($\mathit{max\_med}$) is greater than or equal to the efficacy cutoff ($\mathit{coff}$), the sample ID is considered active and the hit-call ($\mathit{hitc}$) is set to 1. - -With the methods assigned, the level 2 processing can be completed. - -\hfill \newline -<<>>= -## Do level 1 processing for acid 1 -sc2_res <- tcplRun(id = 1:2, slvl = 2, elvl = 2, type = "sc") -@ -\hfill \par - -\clearpage -\section*{Multiple-concentration Screening} -\label{sec:multiconc} -\markboth{Multiple-concentration Screening}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Multiple-concentration Screening} -This section will cover the \texttt{tcpl} process for handling multiple-concentration data\footnote{This section assumes a working knowledge of the concepts covered in the Data Processing and Data Normalization sections (pages \pageref{sec:tcplrun} and \pageref{sec:datanorm}, respectively).}. The goal of multiple-concentration processing is to estimate the activity, potency, efficacy, and other parameters for sample-assay pairs. After the data is loaded into the \texttt{tcpl} database, the multiple-concentration processing consists of six levels (Table \ref{tab:mcsummary}). - -\begin{table}[h!] - \centering - \caption{Summary of the \texttt{tcpl} multiple-concentration pipeline} - \noindent\makebox[\textwidth]{% - \begin{tabular}{c p{10cm}} - & Description \\ \hline - Lvl 0 & Pre-processing: Vendor/dataset-specific pre-processing to organize heterogeneous raw data to the uniform format for processing by the \texttt{tcpl} package$^\dagger$ \\ \hline - Lvl 1 & Index: Define the replicate and concentration indices to facilitate all subsequent processing \\ \hline - Lvl 2 & Transform: Apply assay component-specific transformations listed in the ``mc2\_acid'' table to the raw data to define the corrected data \\ \hline - Lvl 3 & Normalize: Apply assay endpoint-specific normalization listed in the ``mc3\_aeid'' table to the corrected data to define response \\ \hline - Lvl 4 & Fit: Model the concentration-response data utilizing three objective functions: (1) constant, (2) hill, and (3) gain-loss \\ \hline - Lvl 5 & Model Selection/Acitivty Call: Select the winning model, define the response cutoff based on methods in the ``mc5\_aeid'' table, and determine activity \\ \hline - Lvl 6 & Flag: Flag potential false positive and false negative findings based on methods in the ``mc6\_aeid'' table \\ \hline - \multicolumn{2}{l}{\footnotesize{$^\dagger$Level 0 pre-processing is outside the scope of this package}} - \end{tabular}} - \label{tab:mcsummary} -\end{table} - -\subsection*{Level 1} -\label{subsec:mc1} -\addcontentsline{toc}{subsection}{Level 1} -Level 1 processing defines the replicate and concentration index fields to facilitate downstream processing. Because of cost, availability, physicochemical, and technical constraints screening-level efforts utilize numerous experimental designs and test compound (sample) stock concentrations. The resulting data may contain inconsistent numbers of concentrations, concentration values, and technical replicates. To enable quick and uniform processing, level 1 processing explicitly defines concentration and replicate indices, giving integer values $1 \dots N$ to increasing concentrations and technical replicates, where $1$ represents the lowest concentration or first technical replicate. - -To assign replicate and concentration indices we assume one of two experimental designs. The first design assumes samples are plated in multiple concentrations on each assay plate, such that the concentration series all falls on a single assay plate. The second design assumes samples are plated in a single concentration on each assay plate, such that the concentration series falls across many assay plates. - -For both experimental designs, data are ordered by source file ($\mathit{srcf}$), assay plate ID ($\mathit{apid}$), column index ($\mathit{coli}$), row index ($\mathit{rowi}$), sample ID ($\mathit{spid}$), and concentration ($\mathit{conc}$). Concentration is rounded to three significant figures to correct for potential rounding errors. After ordering the data we create a temporary replicate ID, identifying an individual concentration series. For test compounds in experimental designs with the concentration series on a single plate and all control compounds, the temporary replicate ID consists of the sample ID, well type ($\mathit{wllt}$), source file, assay plate ID, and concentration. The temporary replicate ID for test compounds in experimental designs with concentration series that span multiple assay plates is defined similarly, but does not include assay plate ID. - -Once the data are ordered, and the temporary replicate ID is defined, the data are scanned from top to bottom and increment the replicate index ($\mathit{repi}$) every time a replicate ID is duplicated. Then, for each replicate, the concentration index ($\mathit{cndx}$) is defined by ranking the unique concentrations, with the lowest concentration starting at 1. - -The following demonstrates how to carry out the level 1 processing and look at the resulting data: -\hfill \newline -<<>>= -## Do level 1 processing for acid 1 -mc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "mc") -@ -\hfill \par -With the processing complete, the resulting level 1 data can be loaded to check the processing: -\hfill \newline -<<>>= -## Load the level 1 data and look at the cndx and repi values -m1dat <- tcplLoadData(lvl = 1, - fld = "acid", - val = 1, - type = "mc") -m1dat <- tcplPrepOtpt(m1dat) -setkeyv(m1dat, c("repi", "cndx")) -m1dat[chnm == "3-Phenylphenol", list(chnm, conc, cndx, repi)] -@ -\hfill \par -3-phenylphenol contains two replicates, each with six distinct concentrations. The package also contains a tool for visualizing the data at the assay plate level. -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h!] -<>= -tcplPlotPlate(dat = m1dat, apid = "09Apr2014.Plate.17") -@ -\caption{An assay plate diagram. The color indicates the raw values according to the key on the right. The bold lines on the key show the distribution of values for the plate on the scale of values across the entire assay. The text inside each well shows the well type and concentration index. For example, ``t4'' indicates a test compound at the fourth concentration. The wells with an ``X'' have a well quality of 0.} -\label{fig:l1apid} -\end{figure} -In Figure \ref{fig:l1apid} we see the results of \texttt{tcplPlotPlate}. The \texttt{tcplPlotPlate} function can be used to visualize the data at levels 1 to 3. The row and column indices are printed along the edge of the plate, with the values in each well represented by color. While the plate does not give sample ID information, the letter/number codes in the wells indicate the well type and concentration index, respectively. The plate display also shows the wells with poor quality (as defined by the well quality, $\mathit{wllq}$, field at level 0) with an ``X.'' Plotting plates in subsequent levels wells with poor quality will appear empty. The title of the plate display lists the assay component/assay endpoint and the assay plate ID ($\mathit{apid}$). - -\subsection*{Level 2} -\label{subsec:mc2} -\addcontentsline{toc}{subsection}{Level 2} -Level 2 processing removes data where the well quality ($\mathit{wllq}$) equals 0 and defines the corrected value ($\mathit{cval}$) field. Level 2 processing allows for any transformation of the raw values at the assay component level. Examples of transformation methods could range from basic logarithm transformations, to complex spacial noise reduction algorithms. Currently the \texttt{tcpl} package only consists of basic transformations, but could be expanded in future releases. Level 2 processing does not include normalization methods; normalization should occur during level 3 processing. - -For the example data used in this vignette, no transformations are necessary at level 2. To not apply any transformation methods, assign the ``none'' method: -\hfill \newline -<<>>= -tcplMthdAssign(lvl = 2, - id = 1, - mthd_id = 1, - ordr = 1, - type = "mc") -@ -\hfill \par -Every assay component needs at least one transformation method assigned to complete level 2 processing. With the method assigned, the processing can be completed. -\hfill \newline -<<>>= -## Do level 2 processing for acid 1 -mc2_res <- tcplRun(id = 1, slvl = 2, elvl = 2, type = "mc") -@ -\hfill \par -For the complete list of level 2 transformation methods currently available, see \texttt{tcplMthdList(lvl = 2, type = "mc")} or \texttt{?MC2\_Methods} for more detail. The coding methodology used to implement the methods is beyond the scope of this vignette, but, in brief, the method names in the database correspond to a function name in the list of functions returned by \texttt{mc2\_mthds()} (the \texttt{mc2\_mthds} function is not exported, and not intended for use by the user). Each of the functions in the list given by \texttt{mc2\_mthds()} only return expression objects that processing function called by \texttt{tcplRun} executes in the local function environment to avoid making additional copies of the data in memory. We encourage suggestions for new methods. - -\subsection*{Level 3} -\label{subsec:mc3} -\addcontentsline{toc}{subsection}{Level 3} -Level 3 processing converts the assay component to assay endpoint(s) and defines the normalized-response value field ($\mathit{resp}$); logarithm-concentration field ($\mathit{logc}$); and optionally, the baseline value ($\mathit{bval}$) and positive control value ($\mathit{pval}$) fields. The purpose of level 3 processing is to normalize the corrected values to either the percentage of a control or to fold-change from baseline. The normalization process is discussed in greater detail in the Data Normalization section (page \pageref{sec:datanorm}). The processing aspect of level 3 is almost completely analogous to level 2, except the user has to be careful about using assay component versus assay endpoint. - -The user first needs to check which assay endpoints stem from the the assay component queued for processing. -\hfill \newline -<<>>= -## Look at the assay endpoints for acid 1 -tcplLoadAeid(fld = "acid", val = 1) -@ -\hfill \par -With the corresponding assay endpoints listed, the normalization methods can be assigned. -<<>>= -tcplMthdAssign(lvl = 3, - id = 1:2, - mthd_id = c(17, 9, 7), - ordr = 1:3, - type = "mc") -tcplMthdAssign(lvl = 3, - id = 2, - mthd_id = 6, - ordr = 4, - type = "mc") -@ -Above, methods 17, 9, and 7 were assigned for both endpoints. The method assignments instruct the processing to: (1) calculate $\mathit{bval}$ for each assay plate ID by taking the median of all data where the well type equals ``n'' or the well type equals ``t'' and the concentration index is 1 or 2; (2) calculate a fold-change over $\mathit{bval}$; (3) log-transform the fold-change values with base 2. The second method assignment (only for AEID 2) tells the processing to multiply all response values by $-1$. - -For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 3, type = "mc")} or \texttt{?MC3\_Methods}. With the assay endpoints and normalization methods defined, the data are ready for level 3 processing. -\hfill \newline -<<>>= -## Do level 3 processing for acid 1 -mc3_res <- tcplRun(id = 1, slvl = 3, elvl = 3, type = "mc") -@ -\hfill \par -\textbf{Notice that level 3 processing takes an assay component ID, not an assay endpoint ID, as the input ID.} As mentioned in previous sections, the user must assign normalization methods by assay endpoint, then do the processing by assay component. The level 3 processing will attempt to process all endpoints in the database for a given component. If one endpoint fails for any reason (e.g., does not have appropriate methods assigned), the processing for the entire component fails. - -\subsection*{Level 4} -\label{subsec:mc4} -\addcontentsline{toc}{subsection}{Level 4} -Level 4 processing splits the data into concentration series by sample and assay endpoint, then models the activity of each concentration series. Activity is modeled only in the positive direction. More information on readouts with both directions is available in the previous section. - -The first step in level 4 processing is to remove the well types with only one concentration. To establish the noise-band for the assay endpoint, the baseline median absolute deviation ($\mathit{bmad}$) is calculated as the median absolute deviation of the response values for test compounds where the concentration index equals 1 or 2. The calculation to define $\mathit{bmad}$ is done once across the entire assay endpoint. \textbf{If additional data is added to the database for an assay component, the $\mathit{bmad}$ values for all associated assay endpoints will change.} Note, this $\mathit{bmad}$ definition is different from the $\mathit{bmad}$ definition used for single-concentration screening. - -Before the model parameters are estimated, a set of summary values are calculated for each concentration series: the minimum and maximum response; minimum and maximum log concentration; the number of concentrations, points, and replicates; the maximum mean and median with the concentration at which they occur; and the number of medians greater than $3\mathit{bmad}$. When referring to the concentration series the ``mean'' and ``median'' values are defined as the mean or median of the response values at every concentration. In other words, the maximum median is the maximum of all median values across the concentration series. - -Concentration series must have at least four concentrations to enter the fitting algorithm. By default, concentration series must additionally have at least one median value greater than $3\mathit{bmad}$ to enter the fitting algorithm. The median value above $3\mathit{bmad}$ requirement can be ignored by setting $\mathit{fit\_all}$ to 1 in the assay endpoint annotation. - -All models draw from the Student's t-distribution with four degrees of freedom. The wider tails in the t-distribution diminish the influence of outlier values, and produce more robust estimates than do the more commonly used normal distribution. The robust fitting removes the need for any outlier elimination before fitting. The fitting algorithm utilizes maximum likelihood estimates parameters for three models as defined below in equations \ref{eq:z} through \ref{eq:gnlsc6}. - -Let $t(z,\nu)$ be the Student's t-distribution with $\nu$ degrees of freedom, $y_{i}$ be the observed response at the $i^{th}$ observation, and $\mu_{i}$ be the estimated response at the $i^{th}$ observation. We calculate $z_{i}$ as -\begin{equation} -\label{eq:z} -z_{i} = \frac{y_{i} - \mu_{i}}{\exp(\sigma)}\mathrm{,} -\end{equation} -where $\sigma$ is the scale term. Then the log-likelihood is -\begin{equation} -\label{eq:ll} -\sum_{i=1}^{n} [\ln\left(t(z_{i}, 4)\right) - \sigma]\mathrm{,} -\end{equation} -where $n$ is the number of observations. - -The first model fit in the fitting algorithm is a constant model at 0, abbreviated ``cnst.'' The constant model only has one parameter, the scale term. For the constant model $\mu_{i}$ is given by -\begin{equation} -\label{eq:cnst} -\mu_{i} = 0\mathrm{.} -\end{equation} - -The second model in the fitting algorithm is a constrained Hill model (hill), where the bottom asymptote is forced to 0. Including the scale parameter, the Hill model has four parameters. Let $\mathit{tp}$ be the top asymptote, $\mathit{ga}$ be the AC$_{50}$\footnote{The AC$_{50}$ is the activity concentration at 50\%, or the concentration where the modeled activity equals 50\% of the top asymptote.} in the gain direction, $\mathit{gw}$ be the Hill coefficient in the gain direction, and $x_{i}$ be the log concentration at the $i^{th}$ observation. Then $\mu_{i}$ for the Hill model is given by -\begin{equation} -\label{eq:hill} -\mu_{i} = \frac{tp}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}}\mathrm{,} -\end{equation} -with the constraints -\begin{equation} -\label{eq:hillc1} -0 \leq \mathit{tp} \leq 1.2\mathrm{max\;resp,} -\end{equation} -\begin{equation} -\label{eq:hillc2} -\mathrm{min\;logc} - 2 \leq \mathit{ga} \leq \mathrm{max\;logc} + 0.5\mathrm{,} -\end{equation} -and -\begin{equation} -\label{eq:hillc3} -0.3 \leq \mathit{gw} \leq 8\mathit{.} -\end{equation} - -The third model in the fitting algorithm is a constrained gain-loss model (gnls), defined as a product of two Hill models, with a shared top asymptote and both bottom asymptote values equal to 0. Including the scale term, the gain-loss model has six parameters. Let $\mathit{tp}$ be the shared top asymptote, $\mathit{ga}$ be the AC$_{50}$ in the gain direction, $\mathit{gw}$ be the Hill coefficient in the gain direction, $\mathit{la}$ be the AC$_{50}$ in the loss direction, $\mathit{lw}$ be the Hill coefficient in the loss direction, and $x_{i}$ be the log concentration at the $i^{th}$ observation. Then $\mu_{i}$ for the gain-loss model is given by -\begin{equation} -\label{eq:gnls} -\mu_{i} = \mathit{tp}\left(\frac{1}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}}\right)\left(\frac{1}{1 + 10^{(x_{i} - \mathit{la})\mathit{lw}}}\right)\mathrm{,} -\end{equation} -with the constraints -\begin{equation} -\label{eq:gnlsc1} -0 \leq \mathit{tp} \leq 1.2\mathrm{max\;resp,} -\end{equation} -\begin{equation} -\label{eq:gnlsc2} -\mathrm{min\;logc} - 2 \leq \mathit{ga} \leq \mathrm{max\;logc,} -\end{equation} -\begin{equation} -\label{eq:gnlsc3} -0.3 \leq \mathit{gw} \leq 8\mathrm{,} -\end{equation} -\begin{equation} -\label{eq:gnlsc4} -\mathrm{min\;logc} - 2 \leq \mathit{la} \leq \mathrm{max\;logc} + 2\mathrm{,} -\end{equation} -\begin{equation} -\label{eq:gnlsc5} -0.3 \leq \mathit{lw} \leq 18\mathrm{,} -\end{equation} -and -\begin{equation} -\label{eq:gnlsc6} -\mathit{la}-\mathit{ga} > 0.25\mathrm{.} -\end{equation} - -Level 4 does not utilize any assay endpoint-specific methods; the user only needs to run the \texttt{tcplRun} function. \textbf{Level 4 processing and all subsequent processing is done by assay endpoint, not assay component}. The previous section showed how to find the assay endpoints for an assay component using the \texttt{tcplLoadAeid} function. The example dataset includes two assay endpoints with aeid values of 1 and 2. -\hfill \newline -<<>>= -## Do level 4 processing for aeid 1 and load the data -mc4_res <- tcplRun(id = 1:2, slvl = 4, elvl = 4, type = "mc") -@ -\hfill \par -The level 4 data include 52 variables, including the ID fields. A complete list of level 4 fields is available in Appendix \ref{app:dbstruc}. The level 4 data include the fields $\mathit{cnst}$, $\mathit{hill}$, and $\mathit{gnls}$ indicating the convergence of the model where a value of 1 means the model converged and a value of 0 means the model did not converge. N/A values indicate the fitting algorithm did not attempt to fit the model. $\mathit{cnst}$ will be N/A when the concentration series had less than 4 concentrations; $\mathit{hill}$ and $\mathit{gnls}$ will be N/A when none of the medians were greater than or equal to $3\mathit{bmad}$. Similarly, the $\mathit{hcov}$ and $\mathit{gcov}$ fields indicate the success in inverting the Hessian matrix. Where the Hessian matrix did not invert, the parameter standard deviation estimates will be N/A. NaN values in the parameter standard deviation fields indicate the covariance matrix was not positive definite. In Figure \ref{fig:l4plt} the $\mathit{hill}$ field is used to find potentially active compounds to visualize with the \texttt{tcplPlotL4ID} function. -\hfill \newline -<<>>= -## Load the level 4 data -m4dat <- tcplLoadData(lvl = 4, type = "mc") -## List the first m4ids where the hill model convered -## for AEID 1 -m4dat[hill == 1 & aeid == 1, head(m4id)] -@ -\hfill \par -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h!] -<>= -## Plot a fit for m4id 21 -tcplPlotM4ID(m4id = 686, lvl = 4) -@ -\caption{An example level 4 plot for a single concentration series. The orange dashed line shows the constant model, the red dashed line shows the Hill model, and the blue dashed line shows the gain-loss model. The gray striped box shows the baseline region, $0 \pm 3\mathit{bmad}$. The summary panel shows assay endpoint and sample information, the parameter values (val) and standard deviations (sd) for the Hill and gain-loss models, and summary values for each model.} -\label{fig:l4plt} -\end{figure} -\par -The model summary values in Figure \ref{fig:l4plt} include Akaike Information Criterion (AIC), probability, and the root mean square error (RMSE). Let $\log(\Lagr(\hat{\theta}, y))$ be the log-likelihood of the model $\hat{\theta}$ given the observed values $y$, and $K$ be the number of parameters in $\hat{\theta}$, then, -\begin{equation} -\label{eq:aic} -\mathrm{AIC} = -2\log(\Lagr(\hat{\theta}, y)) + 2K\mathrm{.} -\end{equation} -The probability, $\omega_{i}$, is defined as the weight of evidence that model $i$ is the best model, given that one of the models must be the best model. Let $\Delta_{i}$ be the difference $\mathrm{AIC}_{i} - \mathrm{AIC}_{min}$ for the $i^{th}$ model. If $R$ is the set of models, then $\omega_{i}$ is given by -\begin{equation} -\label{eq:prob} -\omega_{i} = \frac{\exp\left(-\frac{1}{2}\Delta_{i}\right)}{\sum_{i=1}^{R} \exp\left(-\frac{1}{2}\Delta_{r}\right)}\mathrm{.} -\end{equation} -The RMSE is given by -\begin{equation} -\label{eq:rmse} -\mathrm{RMSE} = \sqrt{\frac{\sum_{i=1}^{N} (y_{i} - \mu_{i})^2}{N}}\mathrm{,} -\end{equation} -where $N$ is the number of observations, and $\mu_{i}$ and $y_{i}$ are the estimated and observed values at the $i^{th}$ observation, respectively. - -\subsection*{Level 5} -\label{subsec:mc5} -\addcontentsline{toc}{subsection}{Level 5} -Level 5 processing determines the winning model and activity for the concentration series, bins all of the concentration series into categories, and calculates additional point-of-departure estimates based on the activity cutoff. - -\textbf{The model with lowest AIC value is selected as the winning model ($\mathit{modl}$)}, and is used to determine the activity or hit-call for the concentration series. If two models have equal AIC values, the simpler model (the model with fewer parameters) wins the tie. All of the parameters for the winning model are stored at level 5 with the prefix ``modl\_'' to facilitate easier queries. For a concentration series to get an active hit-call, either the Hill or gain-loss must be selected as the winning model. In addition to selecting the Hill or gain-loss model, the modeled and observed response must meet an efficacy cutoff. - -The efficacy cutoff is defined by the level 5 methods. The efficacy cutoff value ($\mathit{coff}$) is defined as the maximum of all values given by the assigned level 5 methods. Failing to assign a level 5 method will result in every concentration series being called active. For a complete list of level 5 methods see \texttt{tcplMthdList(lvl = 5)} or \texttt{?MC5\_Methods}. -\hfill \newline -<<>>= -## Assign a cutoff value of bmad*6 -tcplMthdAssign(lvl = 5, - id = 1:2, - mthd_id = 6, - type = "mc") -@ -\hfill \par -For the example data the cutoff value is $6\mathit{bmad}$. If the Hill or gain-loss model wins, and the estimated top parameter for the winning model ($\mathit{modl\_tp}$) and the maximum median value ($\mathit{max\_med}$) are both greater than or equal to the efficacy cutoff ($\mathit{coff}$), the concentration series is considered active and the hit-call ($\mathit{hitc}$) is set to 1. - -The hit-call can be 1, 0, or -1. A hit-call of 1 or 0 indicates the concentration series is active or inactive, respectively, according to the analysis; a hit-call of -1 indicates the concentration series had less than four concentrations. - -For active concentration series, two additional point-of-departure estimates are calculated for the winning model: (1) the activity concentration at baseline (ACB or $\mathit{modl\_acb}$) and (2) the activity concentration at cutoff (ACC or $\mathit{modl\_acc}$). The ACB and ACC are defined as the concentration where the estimated model value equals $3\mathit{bmad}$ and the cutoff, respectively. The point-of-departure estimates are summarized in Figure \ref{fig:podplt}. - -\hfill \newline -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h] -<>= -par(family = "mono", mar = rep(1, 4), pty = "m") -plot.new() -plot.window(xlim = c(0, 30), ylim = c(-30, 100)) -# axis(side = 2, lwd = 2, col = "gray35") -rect(xleft = par()$usr[1], - xright = par()$usr[2], - ybottom = -15, - ytop = 15, - border = NA, - col = "gray45", - density = 15, - angle = 45) -abline(h = 26, lwd = 3, lty = "dashed", col = "gray30") -tmp <- list(modl = "gnls", gnls_ga = 12, gnls_tp = 80, - gnls_gw = 0.18, gnls_lw = 0.7, gnls_la = 25) -tcplAddModel(pars = tmp, lwd = 3, col = "dodgerblue2") - -abline(v = 8.46, lwd = 3, lty = "solid", col = "firebrick") -text(x = 8.46, y = par()$usr[4]*0.9, - font = 2, labels = "ACB", cex = 2, pos = 2, srt = 90) -abline(v = 10.24, lwd = 3, lty = "solid", col = "yellow2") -text(x = 10.24, y = par()$usr[4]*0.9, - font = 2, labels = "ACC", cex = 2, pos = 2, srt = 90) -abline(v = 12, lwd = 3, lty = "solid", col = "dodgerblue2") -text(x = 12, y = par()$usr[4]*0.9, - font = 2, labels = "AC50", cex = 2, pos = 2, srt = 90) - -points(x = c(8.46, 10.24, 12), y = c(15, 26, 40), - pch = 21, cex = 2, col = "gray30", lwd = 2, - bg = c("firebrick", "yellow2", "dodgerblue2")) -@ -\caption{The point-of-departure estimates calculated by the \texttt{tcpl} package. The shaded rectangle represents the baseline region, $0 \pm 3\mathit{bmad}$. The dark stripped line represents the efficacy cutoff ($\mathit{coff}$). The vertical lines show where the point-of-departure estimates are defined: the red line shows the ACB, the yellow line shows the ACC, and the blue line shows the AC$_{50}$.} -\label{fig:podplt} -\end{figure} -\par - -All concentration series fall into a single fit category ($\mathit{fitc}$), defined by the leaves on the tree structure in Figure \ref{fig:fitc1}. Concentration series in the same category will have similar characteristics, and often look very similar. Categorizing all of the series enables faster quality control checking and easier identification of potential false results. The first split differentiates series by hit-call. Series with a hit-call of -1 go into fit category 2. The following two paragraphs will outline the logic for the active and inactive branches. -\setkeys{Gin}{width=1.2\textwidth} -\begin{sidewaysfigure}[!p] -\centering -<>= -tcplPlotFitc() -@ -\caption{The categories used to bin each fit. Each fit falls into one leaf of the tree. The leaves are indicated by bold green font. (Figure created by calling \texttt{tcplPlotFitc()}.)} -\label{fig:fitc1} -\end{sidewaysfigure} - -The first split in the active branch differentiates series by the model winner, Hill or gain-loss. For each model, the next split is defined by the efficacy of it's top parameter in relation to the cutoff. The top value is either less than $1.2\mathit{coff}$ or greater than or equal to $1.2\mathit{coff}$. Finally, series on the active branch go into leaves based on the position of the AC$_{50}$ parameter in relation to the tested concentration range. For comparison purposes, the activity concentration at 95\% (AC95) is calculated, but not stored.\footnote{The \texttt{tcplHill-} functions can be used to calculate values, concentrations, and activity concentrations for the Hill model.} Series with AC$_{50}$ values less than the minimum concentration tested ($\mathit{logc\_min}$) go into the ``$<=$'' leaves, series with AC$_{50}$ values greater than the minimum tested concentration and AC95 values less than maximum tested concentration ($\mathit{logc\_max}$) go into the ``$==$'' leaves, and series with AC95 values greater than the maximum concentration tested go into the ``$>=$'' leaves. - -The inactive branch is first divided by whether any median values were greater than or equal to $3\mathit{bmad}$. Series with no evidence of activity go into fit category 4. Similar to the active branch, series with evidence for activity are separated by the model winner. The Hill and gain-loss portions of the inactive branch follow the same logic. First, series diverge by the efficacy of their top parameter in relation to the cutoff: $\mathit{modl\_tp < 0.8\mathit{coff}}$ or $\mathit{modl\_tp \geq 0.8\mathit{coff}}$. Then the same comparison is made on the top values of the losing model. If the losing model did not converge, then the series go into the ``DNC'' category. If the losing model top value is greater than or equal to $0.8\mathit{coff}$, then the series are split based on whether the losing model top surpassed the cutoff. On the constant model branch, if neither top parameter is greater than or equal to $0.8\mathit{bmad}$, then the series goes into fit category 7. If one of the top parameters is greater than or equal to $0.8\mathit{coff}$, the series goes into fit category 9 or 10 based on whether one of the top values surpassed the cutoff. - -With the level 5 methods assigned, the data are ready for level 5 processing: -\hfill \newline -<<>>= -## Do level 5 processing for aeid 1 and load the data -mc5_res <- tcplRun(id = 1:2, slvl = 5, elvl = 5, type = "mc") -@ -\hfill \par -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h] -<>= -tcplPlotM4ID(m4id = 370, lvl = 5) -@ -\caption{An example level 5 plot for a single concentration series. The solid line and model highlighting indicate the model winner. The horizontal line shows the cutoff value. In addition to the information from the level 4 plots, the summary panel includes the cutoff ($\mathit{coff}$), hit-call ($\mathit{hitc}$), fit category ($\mathit{fitc}$) and activity probability ($\mathit{actp}$) values.} -\label{fig:l5plt1} -\end{figure} -\par -Figure \ref{fig:l5plt1} shows an example of a concentration series in fit category 37, indicating the series is active and the Hill model won with a top value less than or equal to $1.2\mathit{coff}$, and an AC$_{50}$ value within the tested concentration range. The \texttt{tcplPlotFitc} function shows the distribution of concentration series across the fit category tree (Figure \ref{fig:fitc2}). -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h] -<>= -m5dat <- tcplLoadData(lvl = 5, type = "mc") -tcplPlotFitc(fitc = m5dat$fitc) -@ -\caption{The distribution of concentration series by fit category for the example data. Both the size and color of the circles indicate the number of concentration series. The legend gives the range for number of concentration series by color.} -\label{fig:fitc2} -\end{figure} -\hfill \par -The distribution in Figure \ref{fig:fitc2} shows 24-40 concentration series fell into fit category 21. Following the logic discussed previously, fit category 21 indicates an inactive series where the Hill model was selected, the top asymptote for the Hill model was greater than $0.8\mathit{coff}$, and the gain-loss top asymptote was greater than or equal to the cutoff. The series in fit category 21 can be found easily in the level 5 data. -\hfill \newline -<<>>= -head(m5dat[fitc == 21, - list(m4id, hill_tp, gnls_tp, - max_med, coff, hitc)]) -@ -\hfill \par -The plot in Figure \ref{fig:l5plt2} shows a concentration series in fit category 21. In the example given by Figure \ref{fig:l5plt2}, the $\mathit{hill\_tp}$ and $\mathit{gnls\_tp}$ parameters are equal and greater than $\mathit{coff}$; however, the maximum median value ($\mathit{max\_med}$) is not greater than the cutoff making the series inactive. -\hfill \par -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h] -<>= -tcplPlotM4ID(m4id = 45, lvl = 5) -@ -\caption{Level 5 plot for m4id 45 showing an example series in fit category 21.} -\label{fig:l5plt2} -\end{figure} - -\subsection*{Level 6} -\label{subsec:mc6} -\addcontentsline{toc}{subsection}{Level 6} -Level 6 processing uses various methods to identify concentration series with etiologies that may suggest false positive/false negative results or explain apparent anomalies in the data. Each flag has is defined by a level 6 method that has to be assigned to each assay endpoint. Similar to level 5, an assay endpoint does not need any level 6 methods assigned to complete processing. -\hfill \newline -<<>>= -tcplMthdAssign(lvl = 6, - id = 1:2, - mthd_id = c(6:8, 10:12, 15:16), - type = "mc") -tcplMthdLoad(lvl = 6, id = 1, type = "mc") -@ -\hfill \par -The example above assigns the most common flags. Some of the available flags only apply to specific experimental designs and do not apply to all data. For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 6)} or \texttt{?MC6\_Methods}. - -The additional $\mathit{nddr}$ field in the ``mc6\_methods'' (and the output from \texttt{tcplMthdLoad()}/\texttt{tcplMthdList()} for level 6) indicates whether the method requires additional data. Methods with an $\mathit{nddr}$ value of 0 only require the modeled/summary information from levels 4 and 5. Methods with an $\mathit{nddr}$ value of 1 also require the individual response and concentration values from level 3. Methods requiring data from level 3 can greatly increase the processing time. -\hfill \newline -<<>>= -## Do level 6 processing -mc6_res <- tcplRun(id = 1:2, slvl = 6, elvl = 6, type = "mc") -m6dat <- tcplLoadData(lvl = 6, type = "mc") -@ -\hfill \par -For the two assay endpoints, \Sexpr{nrow(m6dat)} out of the \Sexpr{nrow(m5dat)} concentration series were flagged in the level 6 processing. Series not flagged in the level 6 processing do not get stored at level 6. Each series-flag combination is a separate entry in the level 6 data. Or, in other words, if a series has multiple flags it will show up on multiple rows in the output. For example, consider the following results: -\hfill \newline -<<>>= -m6dat[m4id == 46] -@ -\hfill \par -The data above lists two flags: ``Multiple points above baseline, inactive'' and ``Borderline inactive.'' Without knowing much about the flags one might assume this concentration series had some evidence of activity but was not called a hit, and could potentially be a false negative. In cases of borderline results, plotting the curve is often helpful. - -\hfill \par -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h!] -<>= -tcplPlotM4ID(m4id = 46, lvl = 6) -@ -\caption{An example level 6 plot for a single concentration series. All level 6 method ID ($\mathit{l6\_mthd\_id}$) values are concatenated in the flags section. If flags have an associated value ($\mathit{fval}$), the value will be shown in parentheses to the right of the level 6 method ID.} -\label{fig:l6plt} -\end{figure} -The evidence of true activity shown in Figure \ref{fig:l6plt} could be argued either way. Level 6 processing does not attempt to define truth in the matter of borderline compounds or data anomalies, but rather attempts to identify concentration series for closer consideration. - -\appendix -\clearpage -\section{Field Explanation/Database Structure} -\markboth{Field Explanation/Database Structure}{} -\thispagestyle{plain} -\label{app:dbstruc} - -This appendix contains reference tables that describe the structure and table fields found in the \texttt{tcpl} database. The first sections of this appendix describe the data-containing tables, followed by a section describing the additional annotation tables. - -In general, the single-concentration data and accompanying methods are found in the ``sc\#'' tables, where the number indications the processing level. Likewise, the multiple-concentration data and accompanying methods are found in the ``mc\#'' tables. Each processing level that has accompanying methods will also have a tables with the ``\_methods'' and ``\_id'' naming scheme. For example, the database contains the following tables: ``mc5'' storing the data from multiple-concentration level 5 processing, ``mc5\_methods'' storing the available level 5 methods, and ``mc5\_aeid'' storing the method assignments for level 5. Note, the table storing the method assignments for level 2 multiple-concentration processing is called ``mc2\_acid'' because MC2 methods are assigned by assay component ID. - -There are two additional tables, ``sc2\_agg'' and ``mc4\_agg,'' that link the data in tables ``sc2'' and ``mc4'' to the data in tables ``sc1'' and ``mc3,'' respectively. This is necessary because each entry in the database before SC2 and MC4 processing represents a single value; subsequent entries represent summary/modeled values that encompass many values. To know what values were used in calculating the summary/modeled values, the user must use the ``\_agg'' look-up tables. - -Each of the methods tables have fields analogous to $\mathit{mc5\_mthd\_id}$, $\mathit{mc5\_mthd}$, and $\mathit{desc}$. These fields represent the unique key for the method, the abbreviated method name (used to call the method from the corresponding \texttt{mc5\_mthds} function), and a brief description of the method, respectively. The ``mc6\_methods'' table may also includes $\mathit{nddr}$ field. More information about $\mathit{nddr}$ is available in the discussion of multiple-concentration level 6 processing (page \pageref{subsec:mc6}). - -The method assignment tables will have fields analogous to $\mathit{mc5\_mthd\_id}$ matching the method ID from the methods tables, an assay component or assay endpoint ID, and possibly an $\mathit{exec\_ordr}$ field indicating the order in which to execute the methods. - -The method and method assignment tables will not be listed in the tables below to reduce redundancy. - -Many of the tables also include the $\mathit{created\_date}$, $\mathit{modified\_date}$, and $\mathit{modified\_by}$ fields that store information helpful for tracking changes to the data. These fields will not be discussed further or included in the tables below. - -Many of the tables specific to the assay annotation are not utilized by the \texttt{tcpl} package. The full complexity of the assay annotation used by the ToxCast program is beyond the scope of this vignette and the \texttt{tcpl} package. More information about the ToxCast assay annotation can be found at: \url{}. - -\clearpage - -\subsection*{Single-concentration data-containing tables} -\label{subsec:sctabs} -\addcontentsline{toc}{subsection}{Single-concentration tables} - -\begin{table}[H] - \centering - \caption{Fields in sc0 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - s0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - spid & Sample ID \\ \hline - cpid & Chemical plate ID \\ \hline - apid & Assay plate ID \\ \hline - rowi & Assay plate row index \\ \hline - coli & Assay plate column index \\ \hline - wllt & Well type$^\dagger$\\ \hline - wllq & 1 if the well quality was good, else 0$^\ddagger$\\ \hline - conc & Concentration in micromolar \\ \hline - rval & Raw assay component value/readout from vendor \\ \hline - srcf & Filename of the source file containing the data \\ \hline - \multicolumn{2}{l}{\footnotesize{$^\dagger$Information about the different well types is available in Appendix \ref{app:l0}.}} \\[-8pt] - \end{tabular}} -\label{tab:sc0} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in sc1 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - s1id & Level 1 ID \\ \hline - s0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - aeid & Assay component endpoint ID \\ \hline - logc & Log base 10 concentration \\ \hline - bval & Baseline value \\ \hline - pval & Positive control value \\ \hline - resp & Normalized response value \\ \hline - \end{tabular}} -\label{tab:sc1} - -\end{table}\begin{table}[H] - \centering - \caption{Fields in sc2\_agg table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - aeid & Assay component endpoint ID \\ \hline - s0id & Level 0 ID \\ \hline - s1id & Level 1 ID \\ \hline - s2id & Level 2 ID \\ \hline - \end{tabular}} -\label{tab:sc2agg} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in sc2 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - s2id & Level 2 ID \\ \hline - aeid & Assay component endpoint ID \\ \hline - spid & Sample ID \\ \hline - bmad & Baseline median absolute deviation \\ \hline - max\_med & Maximum median response value \\ \hline - hitc & Hit-/activity-call, 1 if active, 0 if inactive\\ \hline - coff & Efficacy cutoff value \\ \hline - tmpi & Ignore, temporary index used for uploading purposes\\ \hline - \end{tabular}} -\label{tab:sc2} -\end{table} - -\clearpage - -\subsection*{Multiple-concentration data-containing tables} -\label{subsec:mctabs} -\addcontentsline{toc}{subsection}{Multiple-concentration tables} - -The ``mc0'' table, other than containing $\mathit{m0id}$ rather than $\mathit{s0id}$, is identical to the ``sc0'' described in the section above. - -\begin{table}[H] - \centering - \caption{Fields in mc1 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m1id & Level 1 ID \\ \hline - m0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - cndx & Concentration index \\ \hline - repi & Replicate index \\ \hline - \end{tabular}} -\label{tab:mc1} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc2 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m2id & Level 2 ID \\ \hline - m0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - m1id & Level 1 ID \\ \hline - cval & Corrected value \\ \hline - \end{tabular}} -\label{tab:mc2} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc3 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m3id & Level 3 ID \\ \hline - aeid & Assay endpoint ID \\ \hline - m0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - m1id & Level 1 ID \\ \hline - m2id & Level 2 ID \\ \hline - bval & Baseline value \\ \hline - pval & Positive control value \\ \hline - logc & Log base 10 concentration \\ \hline - resp & Normalized response value \\ \hline - \end{tabular}} -\label{tab:mc3} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc4\_agg table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - aeid & Assay endpoint ID \\ \hline - m0id & Level 0 ID \\ \hline - m1id & Level 1 ID \\ \hline - m2id & Level 2 ID \\ \hline - m3id & Level 3 ID \\ \hline - m4id & Level 4 ID \\ \hline - \end{tabular}} -\label{tab:mc4agg} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc4 table (Part 1).} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m4id & Level 4 ID \\ \hline - aeid & Assay endpoint ID \\ \hline - spid & Sample ID \\ \hline - bmad & Baseline median absolute deviation \\ \hline - resp\_max & Maximum response value \\ \hline - resp\_min & Minimum response value \\ \hline - max\_mean & Maximum mean response value \\ \hline - max\_mean\_conc & Log concentration at $\mathit{max\_mean}$ \\ \hline - max\_med & Maximum median response value \\ \hline - max\_med\_conc & Log concentration at $\mathit{max\_med}$ \\ \hline - logc\_max & Maximum log concentration tested \\ \hline - logc\_min & Minimum log concentration tested \\ \hline - cnst & 1 if the constant model converged, 0 if it failed to converge, N/A if series had less than four concentrations\\ \hline - hill & 1 if the Hill model converged, 0 if it failed to converge, N/A if series had less than four concentrations or if $\mathit{max\_med} < 3\mathit{bmad}$ \\ \hline - hcov & 1 if the Hill model Hessian matrix could be inverted, else 0 \\ \hline - gnls & 1 if the gain-loss model converged, 0 if it failed to converge, N/A if series had less than four concentrations or if $\mathit{max\_med} < 3\mathit{bmad}$ \\ \hline - gcov & 1 if the gain-loss model Hessian matrix could be inverted, else 0\\ \hline - cnst\_er & Scale term for the constant model \\ \hline - cnst\_aic & AIC for the constant model \\ \hline - cnst\_rmse & RMSE for the constant model \\ \hline - cnst\_prob & Probability the constant model is the true model \\ \hline - hill\_tp & Top asymptote for the Hill model \\ \hline - hill\_tp\_sd & Standard deviation for $\mathit{hill\_tp}$ \\ \hline - hill\_ga & AC$_{50}$ for the Hill model \\ \hline - hill\_ga\_sd & Standard deviation for $\mathit{hill\_ga}$ \\ \hline - \end{tabular}} -\label{tab:mc4p1} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc4 table (Part 2).} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - hill\_gw & Hill coefficient \\ \hline - hill\_gw\_sd & Standard deviation for $\mathit{hill\_gw}$ \\ \hline - hill\_er & Scale term for the Hill model \\ \hline - hill\_er\_sd & Standard deviation for $\mathit{hill\_er}$ \\ \hline - hill\_aic & AIC for the Hill model \\ \hline - hill\_rmse & RMSE for the Hill model \\ \hline - hill\_prob & Probability the Hill model is the true model \\ \hline - gnls\_tp & Top asymptote for the gain-loss model \\ \hline - gnls\_tp\_sd & Standard deviation for $\mathit{gnls\_tp}$ \\ \hline - gnls\_ga & AC$_{50}$ in the gain direction for the gain-loss model \\ \hline - gnls\_ga\_sd & Standard deviation for $\mathit{gnls\_ga}$ \\ \hline - gnls\_gw & Hill coefficient in the gain direction \\ \hline - gnls\_gw\_sd & Standard deviation for $\mathit{gnls\_gw}$ \\ \hline - gnls\_la & AC$_{50}$ in the loss direction for the gain-loss model \\ \hline - gnls\_la\_sd & Standard deviation for $\mathit{gnls\_la}$ \\ \hline - gnls\_lw & Hill coefficient in the loss direction \\ \hline - gnls\_lw\_sd & Standard deviation for $\mathit{gnls\_lw}$ \\ \hline - gnls\_er & Scale term for the gain-loss model \\ \hline - gnls\_er\_sd & Standard deviation for $\mathit{gnls\_er}$ \\ \hline - gnls\_aic & AIC for the gain-loss model \\ \hline - gnls\_rmse & RMSE for the gain-loss model \\ \hline - gnls\_prob & Probability the gain-loss model is the true model \\ \hline - nconc & Number of concentrations tested \\ \hline - npts & Number of points in the concentration series \\ \hline - nrep & Number of replicates in the concentration series \\ \hline - nmed\_gtbl & Number of median values greater than $3\mathit{bmad}$ \\ \hline - tmpi & Ignore, temporary index used for uploading purposes\\ \hline - \end{tabular}} -\label{tab:mc4p2} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc5 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m5id & Level 5 ID \\ \hline - m4id & Level 4 ID \\ \hline - aeid & Assay endpoint ID \\ \hline - modl & Winning model: ``cnst'', ``hill'', or ``gnls'' \\ \hline - hitc & Hit-/activity-call, 1 if active, 0 if inactive, -1 if cannot determine\\ \hline - fitc & Fit category \\ \hline - coff & Efficacy cutoff value \\ \hline - actp & Activity probability ($1 - \mathit{cnst\_prob}$)\\ \hline - modl\_er & Scale term for the winning model \\ \hline - modl\_tp & Top asymptote for the winning model \\ \hline - modl\_ga & Gain AC$_{50}$ for the winning model \\ \hline - modl\_gw & Gain Hill coefficient for the winning model \\ \hline - modl\_la & Loss AC$_{50}$ for the winning model \\ \hline - modl\_lw & Loss Hill coefficient for the winning model \\ \hline - modl\_prob & Probability for the winning model \\ \hline - modl\_rmse & RMSE for the winning model \\ \hline - modl\_acc & Activity concentration at cutoff for the winning model \\ \hline - modl\_acb & Activity concentration at baseline for the winning model \\ \hline - modl\_ac10 & AC10 for the winning model \\ \hline - \end{tabular}} -\label{tab:mc5} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc6 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m6id & Level 6 ID \\ \hline - m5id & Level 5 ID \\ \hline - m4id & Level 4 ID \\ \hline - aeid & Assay endpoint ID \\ \hline - m6\_mthd\_id & Level 6 method ID \\ \hline - flag & Text text output for the level 6 method \\ \hline - fval & Value from the flag method, if applicable \\ \hline - fval\_unit & Units for $\mathit{fval}$, if applicable \\ \hline - \end{tabular}} -\label{tab:mc6} -\end{table} - -\clearpage - -\subsection*{Auxiliary annotation tables} -\label{subsec:auxtabs} -\addcontentsline{toc}{subsection}{Auxiliary annotation tables} - -As mentioned in the introduction to this appendix, a full description of the assay annotation is beyond the scope of this vignette. The fields pertinent to the \texttt{tcpl} package are listed in the tables below. - -\begin{table}[H] - \centering - \caption{List of annotation tables.} - \noindent\makebox[\textwidth]{% - \begin{tabular}{l p{10cm}} - Table Name & Description \\ \hline - assay & Assay-level annotation \\ \hline - assay\_component & Assay component-level annotation \\ \hline - assay\_component\_endpoint & Assay endpoint-level annotation \\ \hline - assay\_component\_map & Assay component source names and their corresponding assay component ids \\ \hline - assay\_reagent* & Assay reagent information \\ \hline - assay\_reference* & Map of citations to assay \\ \hline - assay\_source & Assay source-level annotation \\ \hline - chemical & List of chemicals and associated identifiers \\ \hline - chemical\_library & Map of chemicals to different chemical libraries \\ \hline - citations* & List of citations \\ \hline - gene & Gene* identifiers and descriptions \\ \hline - intended\_target* & Intended assay target at the assay endpoint level \\ \hline - mc5\_fit\_categories & The level 5 fit categories \\ \hline - organism* & Organism identifiers and descriptions \\ \hline - sample & Sample ID information and chemical ID mapping \\ \hline - technological\_target* & Technological assay target at the assay component level \\ \hline - \multicolumn{2}{p{15cm}}{\footnotesize{* indicates tables not currently used by the \texttt{tcpl} package}} - \end{tabular}} - \label{tab:datatbllist} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - aid & Assay ID \\ \hline - asid & Assay source ID \\ \hline - assay\_name & Assay name (abbreviated ``anm'' within the package) \\ \hline - assay\_desc & Assay description \\ \hline - timepoint\_hr & Treatment duration in hours \\ \hline - assay\_footprint & Microtiter plate size$^\dagger$ \\ \hline - \multicolumn{2}{p{12cm}}{\footnotesize{$^\dagger$ discussed further in the ``Register and Upload New Data'' section (page \pageref{sec:newdata})}} - \end{tabular}} -\label{tab:assay} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay\_component.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - acid & Assay component ID \\ \hline - aid & Assay ID \\ \hline - assay\_component\_name & Assay component name (abbreviated ``acnm'' within the package) \\ \hline - assay\_component\_desc & Assay component description \\ \hline - \end{tabular}} -\label{tab:assaycomp} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay\_source.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - asid & Assay source ID \\ \hline - assay\_source\_name & Assay source name (typically an abbreviation of the assay\_source\_long\_name, abbreviated ``asnm'' within the package) \\ \hline - assay\_source\_long\_name & The full assay source name \\ \hline - assay\_source\_description & Assay source description \\ \hline - \end{tabular}} -\label{tab:assaysource} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay\_component\_endpoint.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - aeid & Assay component endpoint ID \\ \hline - acid & Assay component ID \\ \hline - assay\_component\_endpoint\_name & Assay component endpoint name (abbreviated ``aenm'' within the package) \\ \hline - assay\_component\_endpoint\_desc & Assay component endpoint description \\ \hline - export\_ready & 0 or 1, used to flag data as ``done'' \\ \hline - normalized\_data\_type & The units of the normalized data$^\dagger$ \\ \hline - burst\_assay & 0 or 1, 1 indicates the assay results should be used in calculating the burst z-score \\ \hline - fit\_all & 0 or 1, 1 indicates all results should be fit, regardless of whether the $\mathit{max\_med}$ surpasses $3\mathit{bmad}$ \\ \hline - \multicolumn{2}{p{12cm}}{\footnotesize{$^\dagger$ discussed further in the ``Register and Upload New Data'' section (page \pageref{sec:newdata})}} - \end{tabular}} -\label{tab:assaycompend} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay\_component\_map table.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - acid & Assay component ID \\ \hline - acsn & Assay component source name \\ \hline - \end{tabular}} -\label{tab:assaycompmap} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in chemical.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - chid & Chemical ID$^\dagger$ \\ \hline - casn & CAS Registry Number \\ \hline - chnm & Chemical name \\ \hline - \multicolumn{2}{p{10cm}}{\footnotesize{$^\dagger$ this is the DSSTox GSID within the ToxCast data, but can be any integer and will be auto-generated (if not explicitly defined) for newly registered chemicals}} - \end{tabular}} -\label{tab:chemical} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in chemical\_library.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - chid & Chemical ID \\ \hline - clib & Chemical library \\ \hline - \end{tabular}} -\label{tab:chemlib} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc5\_fit\_categories table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - fitc & Fit category \\ \hline - parent\_fitc & Parent fit category \\ \hline - name & Fit category name \\ \hline - xloc & x-axis location for plotting purposes \\ \hline - yloc & y-axis location for plotting purposes \\ \hline - \end{tabular}} -\label{tab:l5fitcategories} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in sample.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - spid & Sample ID \\ \hline - chid & Chemical ID \\ \hline - stkc & Stock concentration \\ \hline - stkc\_unit & Stock concentration unit \\ \hline - tested\_conc\_unit & The concentration unit for the concentration values in the data-containing tables \\ \hline - spid\_legacy & A place-holder for previous sample ID strings - \end{tabular}} -\label{tab:sample} -\end{table} - -The stock concentration fields in the ``sample'' table allow the user to track the original concentration when the neat sample is solubilized in vehicle before any serial dilutions for testing purposes. - -\clearpage -\section{Level 0 Pre-processing} -\label{app:l0} -\markboth{Level 0 Pre-processing}{} -\thispagestyle{plain} -Level 0 pre-processing can be done on virtually any high-throughput/high-content screening application. In the ToxCast program, level 0 processing is done in R by vendor/dataset-specific scripts. The individual R scripts act as the ``laboratory notebook'' for the data, with all pre-processing decisions clearly commented and explained. - -Level 0 pre-processing has to reformat the raw data into the standard format for the pipeline, and also can make manual changes to the data. All manual changes to the data should be very well documented with justification. Common examples of manual changes include fixing a sample ID typo, or changing well quality value(s) to 0 after finding obvious problems like a plate row/column missing an assay reagent. - -Each row in the level 0 pre-processing data represents one well-assay component combination, containing 11 fields (Table \ref{tab:preproc}). The only field in level 0 pre-processing not stored at level 0 is the assay component source name ($\mathit{acsn}$). The assay component source name should be some concatenation of data from the assay source file that identifies the unique assay components. When the data are loaded into the database, the assay component source name is mapped to assay component ID through the assay\_component\_map table in the \texttt{tcpl} database. Assay components can have multiple assay component source names, but each assay component source name can only map to a single assay component. - -\begin{table}[h!] - \centering - \caption{Required fields in level 0 pre-processing.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{8cm} c} - Field & Description & N/A \\ \hline - acsn & Assay component source name & No \\ \hline - spid & Sample ID & No \\ \hline - cpid & Chemical plate ID & Yes \\ \hline - apid & Assay plate ID & Yes \\ \hline - rowi & Assay plate row index, as an integer & Yes \\ \hline - coli & Assay plate column index, as an integer & Yes \\ \hline - wllt & Well type & No \\ \hline - wllq & 1 if the well quality was good, else 0 & No \\ \hline - conc & Concentration in micromolar & No$^\dagger$ \\ \hline - rval & Raw assay component value/readout from vendor & Yes$^\ddagger$ \\ \hline - srcf & Filename of the source file containing the data & No \\ \hline - \multicolumn{3}{l}{\footnotesize{The N/A column indicates whether the field can be N/A in the pre-processed data.}} \\[-8pt] - \multicolumn{3}{p{10cm}}{\footnotesize{$^\dagger$Concentration can be N/A for control values only tested at a single concentration. Concentration cannot be N/A for any test compound (well type of ``t'') data.}} \\[-8pt] - \multicolumn{3}{p{10cm}}{\footnotesize{$^\ddagger$If the raw value is N/A, well type has to be 0.}} - \end{tabular}} -\label{tab:preproc} -\end{table} - -The well type field is used in the processing to differentiate controls from test compounds in numerous applications, including normalization and definition of the assay noise level. Currently, the \texttt{tcpl} package includes the eight well types in Table \ref{tab:wllt}. Package users are encouraged to suggest new well types and methods to better accommodate their data. - - \begin{table}[h!] - \centering - \caption{Well types} - \noindent\makebox[\textwidth]{ - \begin{tabular}{c p{10cm}} - Well Type & Description \\ \hline - t & Test compound \\ \hline - c & Gain-of-signal control in multiple concentrations \\ \hline - p & Gain-of-signal control in single concentration \\ \hline - n & Neutral/negative control \\ \hline - m & Loss-of-signal control in multiple concentrations \\ \hline - o & Loss-of-signal control in single concentration \\ \hline - b & Blank well \\ \hline - v & Viability control \\ \hline - \end{tabular}} -\label{tab:wllt} -\end{table} - -The final step in level 0 pre-processing is loading the data into the \texttt{tcpl} database. The \texttt{tcpl} package includes the \texttt{tcplWriteLvl0} function to load data into the database. The \texttt{tcplWriteLvl0} function maps the assay component source name to the appropriate assay component ID, checks each field for the correct class, and checks the database for the sample IDs with well type ``t.'' Each test compound sample ID must be included in the \texttt{tcpl} database before loading data. The \texttt{tcplWriteLvl0} also checks each test compound for concentration values. - -\clearpage -\section{Cytotoxicity Distribution} -\label{app:cyto} -\markboth{Cytotoxicity Distribution}{} -\thispagestyle{plain} -Recognizing the susbtantial impact of cytotoxicity in confounding high-throughput and high-content screening results, the \texttt{tcpl} package includes methodology for defining chemical-specific cytotoxicity estimates. Our observations based on ToxCast data suggest a complex, and not-yet fully understood, cellular biology that includes non-specific activation of many targets as cells approach death. For example, a chemical may induce activity in an estrogen-related assay, but if that chemical also causes activity in hundreds of other assays at or around the same concentration as cytotoxicity, should the chemical be called an estrogen agonist? The \texttt{tcplCytoPt} function provides an estimate of chemical-specific cytotoxicity points to provide some context to the ``burst'' phenomenon. - -The cytotoxicity point is simply the median AC$_{50}$ for a set of assay endpoints, either given by the user or defined within the \texttt{tcpl} database. By default, the \texttt{tcplCytoPt} function uses the assay endpoints listed in the $\mathit{burst\_assay}$ field of the ``assay\_component\_endpoint'' table, where 1 indicates to include the assay endpoint in the calculation. The ``burst'' assay endpoints can be indentified by running \texttt{tcplLoadAeid(fld = "burst\_assay", val = 1)}. - -In addition to the cytotoxicity point, \texttt{tcplCytoPt} provides two additional estimates: (1) the MAD of the AC$_{50}$ ($\mathit{modl\_ga}$) values used to calculate the cytotoxicity point, and (2) the global MAD. Note, only active assay endpoints (where the hit-call, $\mathit{hitc}$, equals $1$) are included in the calculations. Once the burst distribution (cytotoxicity point and MAD) is defined for each chemical, the global burst MAD is defined as the median of the MAD values. Not every chemcial may be tested in every ``burst'' assay, so the user can determine the minimum number of tested assays as a condition for the MAD value for a particular chemical to be included in the global MAD calculation. By default, if ``aeid'' is the vector of assay endpoints used in the calculation, \texttt{tcplCytoPt} requires the chemical to tested in at least \texttt{floor(0.8 * length(aeid))} assay endpoints to be included in the calculation. The user can specify to include all calculated MAD values (note, there must be at least two active assay endpoints to calculate the MAD) by setting `min.test' to \texttt{FALSE}. The `min.test' parameter also accepts a number, allowing the user to explicitly set the requirement. - -The global MAD gives an estimate of overall cytotoxicity window, and allows for a cytotoxicity distrubtion to be determined for chemicals with less than two active ``burst'' assay endpoints. The cytotoxicity point for chemicals with less two active ``burst'' endpoints is set to the value given to the `default.pt' parameter. By default the \texttt{tcplCytoPt} assigns `default.pt' to 3.\footnote{$10^3 = 1000$, therefore, when using micromolar units, $3$ is equivalent to $1$ millimolar. $1$ millimolar was chosen as an arbitrary high concentration (outside the testing range for ToxCast data), based on the principle all compounds are toxic if given in high enough concentration.} - - -\clearpage -\section{Build Variable Matrices} -\label{app:mats} -\markboth{Build Variable Matrices}{} -\thispagestyle{plain} -The \texttt{tcplVarMat} function creates chemical-by-assay matrices for the level 4 and level 5 data. When multiple sample-assay series exist for one chemical, a single series is selected by the \texttt{tcplSubsetChid} function. See \texttt{?tcplSubsetChid} for more information. - -\begin{enumerate} - \item ``modl\_ga'' -- The $\log_{10}\mathit{AC_{50}}$ (in the gain direction) for the winning model. - \item ``hitc'' -- The hit-call for the winning model. - \item ``m4id'' -- The m4id, listing the concentration series selected by \texttt{tcplSubsetChid}. - \item ``zscore'' -- The z-score (described below). - \item ``tested'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in either the single- or multiple-concentration format. - \item ``tested\_sc'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in the single-concentration format - \item ``tested\_mc'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in the multiple-concentration format - \item ``ac50'' -- a modified AC$_{50}$ table (in non-log units) where assay/chemical pairs that were not tested, or tested and had a hitcall of $0$ or $-1$ have the value $1e6$. - \item ``neglogac50'' -- $-\log_{10}\frac{\mathit{AC_{50}}}{1e6}$ where assay/chemical pairs that were not tested, or tested and had a hitcall of $0$ or $-1$ have the value $0$. -\end{enumerate} - -The z-score calculation is based on the output from \texttt{tcplCytoPt} (Appendix \ref{app:cyto}), and is calculated for each AC$_{50}$ value as follows: -\begin{equation} -\label{eq:zscore} -\mathit{z\-score} = -\frac{\mathit{modl\_ga} - \mathit{cyto\_pt}}{\mathit{global\_mad}}\mathrm{,} -\end{equation} -Note: the burst z-score values are multiplied by -1 to make values that are more potent relative to the burst distribution a higher positive z-score. - -In addition the the standard matrices, additional matrices can be defined by the `add.vars' parameter in the \texttt{tcplVarMat} function. The `add.vars' function will take any level 4 or level 5 field and create the respective matrix. - - -\end{document} - - - - +\documentclass{article} + +%\usepackage{hyperref} +\usepackage{url} +\usepackage{Sweave} +\usepackage{rotating} +\usepackage{enumitem} +\usepackage{color} +\usepackage{makebox} +\usepackage{float} +\usepackage{array} +\usepackage{fancyhdr} +\usepackage{multirow} +%\usepackage[usenames,dvipsnames]{color} + +\pagestyle{fancy} +\fancyhead{} +\fancyfoot{} +\renewcommand{\headrulewidth}{0pt} +\fancyhead[C]{\leftmark} +\fancyfoot[C]{\thepage} + +\renewcommand{\arraystretch}{1.5} +%\setlength{\parskip}{10pt} + +\definecolor{gray50}{gray}{0.5} + +\DefineVerbatimEnvironment{Sinput}{Verbatim} {xleftmargin=0em, + frame=single, + rulecolor=\color{gray50}, + framesep=3mm, + label=\tiny{R Input}, + samepage=true} +\DefineVerbatimEnvironment{Soutput}{Verbatim}{xleftmargin=0em, + frame=single, + rulecolor=\color{gray50}, + framesep=3mm, + label=\tiny{R Output}, + samepage=true} + +\newcommand{\Lagr}{\mathop{\mathcal{L}}} + +<>= +options(continue = " ", width = 60, warn = -1) +pdf.options(pointsize = 10) +library(tcpl) + +## This chunk copies the sqlite db to the temp directory used in installation +## to comply with CRAN policies on not writing to the installation directory +dbfile <- file.path(system.file(package = "tcpl"), "sql", "tcpldb.sqlite") +dbfile_temp <- file.path(tempdir(), "tcpldb.sqlite") +file.copy(from = dbfile, dbfile_temp) +tcplConf(db = dbfile_temp) +tcpl:::.clearSQLite(dbfile_temp) +@ + +%\VignetteIndexEntry{tcpl Overview} + +\begin{document} +\SweaveOpts{concordance=true} +\hyphenpenalty=10000 +\tolerance=10000 + +\title{The ToxCast\texttrademark{} Analysis Pipeline:\\ An R Package for Processing and Modeling Chemical Screening Data \\ \hfill \newline \large Version \Sexpr{packageVersion("tcpl")}} +\author{Dayne L. Filer, Parth Kothiya, Woodrow R. Setzer,\\ Richard S. Judson, Matthew T. Martin} +\maketitle + +\clearpage + +\tableofcontents +%\listoffigures +%\listoftables + +\clearpage +\section*{Introduction} +\label{sec:intro} +\markboth{Introduction}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Introduction} +\subsection*{Overview} +\label{subsec:overview} +\addcontentsline{toc}{subsection}{Overview} +The \texttt{tcpl} package was developed to process high-throughput and high-content screening data generated by the U.S. Environmental Protection Agency (EPA) ToxCast\texttrademark{} program.\footnote{\url{}} ToxCast is screening thousands of chemicals with hundreds of assays coming from numerous and diverse biochemical and cell-based technology platforms. The diverse data, received in heterogeneous formats from numerous vendors, are transformed to a standard computable format and loaded into the \texttt{tcpl} database by vendor-specific R scripts. Once data is loaded into the database, ToxCast utilizes the generalized processing functions provided in this package to process, normalize, model, qualify, flag, inspect, and visualize the data. While developed primarily for ToxCast, we have attempted to make the \texttt{tcpl} package generally applicable to chemical-screening community. + +The \texttt{tcpl} package includes processing functionality for two screening paradigms: (1) single-concentration screening and (2) multiple-concentration screening. Single-concentration screening consists of testing chemicals at one concentration, often for the purpose of identifying potentially active chemicals to test in the multiple-concentration format. Multiple-concentration screening consists of testing chemicals across a concentration range, such that the modeled activity can give an estimate of potency, efficacy, etc. + +Prior to the pipeline processing provided in this package, all the data must go through pre-processing (level 0). Level 0 pre-processing utilizes dataset-specific R scripts to process the heterogeneous data into a uniform format and to load the uniform data into the \texttt{tcpl} database. Level 0 pre-processing is outside the scope of this package, but can be done for virtually any high-throughput or high-content chemical screening effort, provided the resulting data includes the minimum required information. + +In addition to storing the data, the \texttt{tcpl} database stores every processing/analysis decision at the assay component or assay endpoint level to facilitate transparency and reproducibility. For the illustrative purposes of this vignette we have included a SQLite version of the \texttt{tcpl} database containing a small subset of data from the ToxCast program. Because of differences in database capabilities, not all functionality of the package will work with the SQLite version. To best utilize the package the user should work with a MySQL database and the \texttt{RMySQL} package. The package includes a SQL file to initialize the MySQL database on the user's server of choice. Additionally, the MySQL version of the ToxCast database containing all the publicly available ToxCast data is available for download at: \url{}. + +\subsection*{Package Settings} +\label{subsec:pkgsettings} +\addcontentsline{toc}{subsection}{Package Settings} +First, it is highly recommended for users to utilize the \texttt{data.table} package. The \texttt{tcpl} package utilizes the \texttt{data.table} package for all data frame-like objects. +\hfill \newline +<>= +library(data.table) +library(tcpl) +## Store the path the tcpl directory for loading data +pkg_dir <- system.file(package = "tcpl") +@ +\hfill \par +Every time the package is loaded in a new R session, a message similar to the following will print showing the default package settings: +\hfill \newline +\begin{Schunk} +\begin{Soutput} +tcpl (v1.0) loaded with the following settings: + TCPL_DB: /usr/local/lib64/R/library/tcpl/sql/xmpl.sqlite + TCPL_USER: NA + TCPL_HOST: NA + TCPL_DRVR: SQLite +Default settings stored in TCPL.conf. See ?tcplConf for +more information. +\end{Soutput} +\end{Schunk} +\hfill \par + +The package consists of five settings: (1) \texttt{\$TCPL\_DB} points to the \texttt{tcpl} database (either the SQLite file, as in the given example above, or the name of the MySQL database), (2) \texttt{\$TCPL\_USER} stores the username for accessing the database, (3) \texttt{\$TCPL\_PASS} stores the password for accessing the database, (4) \texttt{\$TCPL\_HOST} points to the MySQL server host, and (5) \texttt{\$TCPL\_DRVR} indicates which database driver to use (either ``MySQL'' or ``SQLite''). + +Refer to \texttt{?tcplConf} for more information. At any time users can check the settings using \texttt{tcplConfList()}. An example of database settings would be as follows: + +\hfill \newline +<>= +tcplConf(drvr = "MySQL", + user = "root", + pass = "", + host = "localhost", + db = "toxcastdb") +@ +\hfill \par + +Note, \texttt{tcplSetOpts} will only make changes to the parameters given. The package is always loaded with the settings stored in the TCPL.config file located within the package directory. The user can edit the file, such that the package loads with the desired settings, rather than having to call the \texttt{tcplSetOpts} function every time. The TCPL.config file has to be edited whenever the package is updated or re-installed. + +\subsection*{Assay Structure} +\label{subsec:assaystruc} +\addcontentsline{toc}{subsection}{Assay Structure} +The definition of an ``assay'' is, for the purposes of this package, broken into: +\begin{description}[labelindent=1cm] + \item[assay\_source] -- the vendor/origination of the data + \item[assay] -- the procedure to generate the component data + \item[assay\_component] -- the raw data readout(s) + \item[assay\_component\_endpoint] -- the normalized component data +\end{description} +Each assay element is represented by a separate table in the \texttt{tcpl} database. In general, we refer to an ``assay\_component\_endpoint'' as an ``assay endpoint.'' As we move down the hierarchy, each additional layer has a one-to-many relationship with the previous layer. For example, an assay component can have multiple assay endpoints, but an assay endpoint can derive only from a single assay component. + +All processing occurs by assay component or assay endpoint, depending on the processing type (single-concentration or multiple-concentration) and level. No data are stored at the assay or assay source level. The ``assay'' and ``assay\_source'' tables store annotations to help in the processing and down-stream understanding/analysis of the data. For more information about the assay annotations and the ToxCast assays please refer to \url{}. + +Throughout the package the levels of assay hierarchy are defined and referenced by their primary keys (IDs) in the \texttt{tcpl} database: $\mathit{asid}$ (assay source ID), $\mathit{aid}$ (assay ID), $\mathit{acid}$ (assay component ID), and $\mathit{aeid}$ (assay endpoint ID). In addition, the package abbreviates the fields for the assay hierarchy names. The abbreviations mirror the abbreviations for the IDs with ``nm'' in place of ``id'' in the abbreviations, e.g. assay\_component\_name is abbreviated $\mathit{acnm}$. + +\clearpage +\section*{Register and Upload New Data} +\label{sec:newdata} +\markboth{Register and Upload New Data}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Register and Upload New Data} +This section explains how to register and upload new data into the \texttt{tcpl} database using a small subset of ToxCast data showing changes intracellular cortisol hormone. The subset of data comes from an assay measuring steroidogenesis through cellular levels of mutliple steroid hormones. + +The \texttt{tcpl} package provides three functions for adding new data: (1) \texttt{tcplRegister} to register a new assay or chemical ID, (2) \texttt{tcplUpdate} to change or add additional information for existing assay or chemical IDs, and (3) \texttt{tcplWriteLvl0} for loading data. Before writing any data to the \texttt{tcpl} database, the user has to register the assay and chemical information. + +The first step in registering new assays is to register the assay source. As discussed in the previous section, the package refers to the levels of the assay hierarchy by their ID names, e.g. $\mathit{asid}$ for assay source.The following code shows how to register an assay source, then ensure the assay source was properly registered. +\hfill \newline +<<>>= +## Add a new assay source, call it CTox, +## that produced the data +tcplRegister(what = "asid", flds = list(asnm = "CTox")) +tcplLoadAsid() +@ +\hfill \par +The \texttt{tcplRegister} function takes the abbreviation for $\mathit{assay\_source\_name}$, but the function will also take the unabbreviated form. The same is true of the \texttt{tcplLoadA-} functions, which load the information for the assay annotations stored in the database. The next steps show how to register, in order, an assay, assay component, and assay endpoints. +\hfill \newline +<<>>= +tcplRegister(what = "aid", + flds = list(asid = 1, + anm = "Steroidogenesis", + assay_footprint = "96 well")) +@ +\hfill \par +When registering an assay ($\mathit{aid}$), the user must give an $\mathit{asid}$ to map the assay to the correct assay source. Registering an assay, in addition to an assay\_name ($\mathit{anm}$) and $\mathit{asid}$, requires $\mathit{assay\_footprint}$. The $\mathit{assay\_footprint}$ field is used in the assay plate visualization functions (discussed later) to define the appropriate plate size. The $\mathit{assay\_footprint}$ field can take most string values, but only the numeric value will be extracted, e.g. the text string ``hello 384'' would indicate to draw a 384-well microtitier plate. Values containing multiple numeric values in $\mathit{assay\_footprint}$ may cause errors in plotting plate diagrams. + +With the assay registered, the next step is to register an assay component. The example data presented here only contains data for one of the many steroids measured and only requires one assay component, but at this step the user could add multiple assay components to the ``Steroidogenesis'' assay. +\hfill \newline +<<>>= +tcplRegister(what = "acid", + flds = list(aid = 1, acnm = "CTox_CORT")) +tcplRegister(what = "aeid", + flds = list(acid = c(1, 1), + aenm = c("CTox_CORT_up", + "CTox_CORT_dn"), + normalized_data_type = + rep("log2_fold_induction", 2), + export_ready = c(1, 1), + burst_assay = c(0, 0), + fit_all = c(0, 0))) +@ +\hfill \par +In the example above two assay endpoints were assigned to the assay component. Multiple endpoints allow for different normalization approaches of the data, in this case to detect activity in both the positive and negative directions (up and down). Notice registering an assay endpoint also requires the $\mathit{normalized\_data\_type}$ field. The $\mathit{normalized\_data\_type}$ field gives some default values for plotting. Currently the package supports three $\mathit{normalized\_data\_type}$ values: (1) ``percent\_activity,'' (2) ``log2\_fold\_induction,'' and (3) ``log10\_fold\_induction.'' Any other values will be treated as ``percent\_activity.'' + +The other three additional fields when registering an assay endpoint do not have to be explicitly defined when working in the MySQL environment and will default to the values given above. All three fields represent Boolean values (1 or 0, 1 being \texttt{TRUE}). The $\mathit{export\_ready}$ field indicates (1) the data is done and ready for export or (0) still in progress. The $\mathit{burst\_assay}$ field is specific to multiple-concentration processing and indicates (1) the assay endpoint is included in the burst distribution calculation or (0) not (Appendix \ref{app:cyto}). The $\mathit{fit\_all}$ field is specific to multiple-concentration processing and indicates (1) the package should try to fit every concentration series, or (0) only attempt to fit concentration series that show evidence of activity (page \pageref{subsec:mc4}). + +The final piece of assay information needed is the assay component source name (abbreviated $\mathit{acsn}$), stored in the ``assay\_component\_map'' table. The assay component source name is intended to simplify level 0 pre-processing by defining unique character strings (concatenating information if necessary) from the source files that identify the specific assay components. The unique character strings ($\mathit{acsn}$) get mapped to $\mathit{acid}$. An example of how to register a new $\mathit{acsn}$ will be given later in this section. + +With the minimal assay information registered, the next step is to register the necessary chemical and sample information. The ``chdat.csv'' file included in the package contains the sample and chemical information for the data that will be loaded. The following shows an example of how to load chemical information. Similar to the order in registering assay information, the user must first register chemicals, then register samples that map to chemical. +\hfill \newline +<<>>= +ch <- fread(file.path(pkg_dir, "sql", "chdat.csv")) +head(ch) + +## Register the unique chemicals +tcplRegister(what = "chid", + flds = ch[ , + unique(.SD), + .SDcols = c("casn", "chnm")]) +@ +\hfill \par +The ``chdat.csv'' file contains a map of sample to chemical information, but chemical and sample information have to be registered separately because a chemical could potentially have multiple samples. Registering chemicals only takes a chemical CAS registry number ($\mathit{casn}$) and name ($\mathit{chnm}$). In the above example only the unique chemicals were loaded. The $\mathit{casn}$ and $\mathit{chnm}$ fields have unique constraints; trying to register multiple chemicals with the same name or CAS registry number is not possible and will result in an error. With the chemicals loaded the samples can be registered by mapping the sample ID ($\mathit{spid}$) to chemical ID. Note, the user needs to load the chemical information to get the chemical IDs then merge the new chemical IDs with the sample IDs from the original file by chemical name or CASRN. +\hfill \newline +<<>>= +cmap <- tcplLoadChem() +tcplRegister(what = "spid", + flds = merge(ch[ , list(spid, casn)], + cmap[ , list(casn, chid)], + by = "casn")[ , list(spid, chid)]) +@ +\hfill \par +Optionally, the user user can subdivide the chemcial IDs into different groups or libraries. For illustration, the chemical IDs will be arbitrarily divided into two chemical libraries, with the even numbered chemical IDs in group 1 and the odd numbered chemicals IDs in group 2. +\hfill \newline +<<>>= +grp1 <- cmap[chid %% 2 == 0, unique(chid)] +grp2 <- cmap[chid %% 2 == 1, unique(chid)] +tcplRegister(what = "clib", + flds = list(clib = "group_1", chid = grp1)) +tcplRegister(what = "clib", + flds = list(clib = "group_2", chid = grp2)) +@ +\hfill \par +Chemical IDs can belong to more than one library, and will be listed as seperate entries when loading chemical library information. +\hfill \newline +<<>>= +tcplRegister(what = "clib", + flds = list(clib = "other", chid = 1:2)) +tcplLoadClib(field = "chid", val = 1:2) +@ +\hfill \par +After registering the chemical and assay information the data can be loaded into the \texttt{tcpl} database. The package includes two files from the ToxCast program, ``scdat.csv'' and ``mcdat.csv,'' with a subset of single- and multiple-concentration data, respectively. The single- and multiple-concentration processing require the same level 0 fields; more information about level 0 pre-processing in Appendix \ref{app:l0}. +\hfill \newline +<<>>= +scdat <- fread(file.path(pkg_dir, "sql", "scdat.csv")) +mcdat <- fread(file.path(pkg_dir, "sql", "mcdat.csv")) +c(unique(scdat$acsn), unique(mcdat$acsn)) +@ +\hfill \par +As discussed above, the final step before loading data is mapping the assay component source name ($\mathit{acsn}$) to the correct $\mathit{acid}$. An assay component can have multiple $\mathit{acsn}$ values, but an $\mathit{acsn}$ must be unique to one assay component. Assay components can have multiple $\mathit{acsn}$ values to minimize the amount of data manipulation required (and therefore potential errors) during the level 0 pre-processing if assay source files change or are inconsistent. The example data presented here only has one $\mathit{acsn}$ value, ``cort.'' +\hfill \newline +<<>>= +tcplRegister(what = "acsn", + flds = list(acid = 1, acsn = "cort")) +@ +\hfill \par +The data are now ready to be loaded with the \texttt{tcplWriteLvl0} function. +\hfill \newline +<>= +tcplWriteLvl0(dat = scdat, type = "sc") +tcplWriteLvl0(dat = mcdat, type = "mc") +@ +\hfill \par +The \texttt{type} argument is used throughout the package to distinguish the type of data/processing: ``sc'' indicates single-concentration; ``mc'' indicates multiple-concentration. The \texttt{tcplLoadData} function can be used to load the data from the database. +\hfill \newline +<<>>= +tcplLoadData(lvl = 0, fld = "acid", val = 1, type = "sc") +@ +\hfill \par +Notice in the loaded data the \texttt{acsn} is replaced by the correct $\mathit{acid}$ and the $\mathit{s0id}$ field is added. The ``s\#'' fields, and corresponding ``m\#'' fields in the multiple-concentration data, are the primary keys for each level of data. These primary keys link the various levels of data. All of the keys are auto-generated and will change anytime data are reloaded or processed. Note, the primary keys only change for the levels affected, e.g. if the user reprocesses level 1, the level 0 keys will remain the same. + +\clearpage +\section*{Data Processing and the tcplRun Function} +\label{sec:tcplrun} +\markboth{Data Processing and the tcplRun Function}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Data Processing and the tcplRun Function} +This section is intended help the user understand the general aspects of how the data is processed before diving into the specifics of each processing level for both screening paradigms. The details of the two screening paradigms are provided in later sections. + +All processing in the \texttt{tcpl} package occurs at the assay component or assay endpoint level. There is no capability within either screening paradigm to do any processing which combines data from multiple assay components or assay endpoints. Any combining of data must occur before or after the pipeline processing. For example, a ratio of two values could be processed through the pipeline if the user calculated the ratio during the level 0 pre-processing and uploaded a single ``component.'' + +Once data are uploaded in the database, data processing occurs through the \texttt{tcplRun} function for both single- and multiple-concentration screening. The \texttt{tcplRun} function can either take a single ID ($\mathit{acid}$ or $\mathit{aeid}$, depending on the processing type and level) or an $\mathit{asid}$. If given an $\mathit{asid}$ the \texttt{tcplRun} function will attempt to process all corresponding components/endpoints. When processing by $\mathit{acid}$ or $\mathit{aeid}$, the user must know which ID to give for each level (Table \ref{tab:proccheck}). + +The processing is sequential, and every level of processing requires successful processing at the antecedent level. Any processing changes will cause a ``delete cascade,'' removing any subsequent data affected by the processing change to ensure complete data fidelity at any given time. For example, processing level 3 data will cause the data from levels 4 through 6 to be deleted for the corresponding IDs. Changing any method assignments will also trigger a delete cascade for any corresponding data (more on method assignments below). + +The user must give a start and end level when using the \texttt{tcplRun} function. If processing more than one assay component or endpoint, the function will not stop if one component or endpoint fails. If a component or endpoint fails while processing multiple levels, the function will not attempt to processes the failed component/endpoint in subsequent levels. When finished processing, the \texttt{tcplRun} function returns a list indicating the processing success of each id. For each level processed the list will contain two elements: (1) ``l\#'' a named Boolean vector where \texttt{TRUE} indicates successful processing, and (2) ``l\#\_failed'' containing the names of any ids that failed processing where ``\#'' is the processing level. + +The processing functions print messages to the console indicating the four steps of the processing. First, data for the given assay component ID are loaded, the data are processed, data for the same ID in subsequent levels are deleted, then the processed data is written to the database. The `outfile' parameter in the \texttt{tcplRun} function gives the user the option of printing all of the output text to a file. + +The \texttt{tcplRun} function will attempt to use multiple processors on Unix-based systems (does not include Windows). Depending on the system environment, or if the user is running into memory constraints, the user may wish to use less processing power and can do so by setting the `mc.cores' parameter in the \texttt{tcplRun} function. + +\begin{table}[h!] + \centering + \caption{Processing checklist} + \noindent\makebox[\textwidth]{% + \begin{tabular}{c c c c} + Type & Level & Input ID & Method ID\\ + SC & Lvl 1 & \texttt{acid} & \texttt{aeid} \\ \hline + SC & Lvl 2 & \texttt{aeid} & \texttt{aeid} \\ \hline \hline + MC & Lvl 1 & \texttt{acid} & \texttt{N/A} \\ \hline + MC & Lvl 2 & \texttt{acid} & \texttt{acid} \\ \hline + MC & Lvl 3 & \texttt{acid} & \texttt{aeid} \\ \hline + MC & Lvl 4 & \texttt{aeid} & \texttt{N/A} \\ \hline + MC & Lvl 5 & \texttt{aeid} & \texttt{aeid} \\ \hline + MC & Lvl 6 & \texttt{aeid} & \texttt{aeid} \\ \hline + \multicolumn{4}{p{8cm}}{\footnotesize{The Input ID column indicates the ID used for each processing step; Method ID indicates the ID used for assigning methods for data processing, when necessary. SC = single-concentration; MC = multiple-concentration.}} + \end{tabular}} + \label{tab:proccheck} +\end{table} + +The processing requirements vary by screening paradigm and level. Later sections will cover the details, but in general, many of the processing steps require specific methods to accommodate different experimental designs or data processing approaches. + +Notice from Table \ref{tab:proccheck} that level 1 single-concentration processing (SC1) requires an $\mathit{acid}$ input (Table \ref{tab:proccheck}), but the methods are assigned by $\mathit{aeid}$. The same is true for MC3 processing. SC1 and MC3 are the normalization steps and convert $\mathit{acid}$ to $\mathit{aeid}$. (Only MC2 has methods assigned by $\mathit{acid}$.) The normalization process is discussed in the following section. + +To promote reproducibility, all method assignments must occur through the database. Methods cannot be passed to either the \texttt{tcplRun} function or the low-level processing functions called by \texttt{tcplRun}. + +In general, method data are stored in the ``\_methods'' and ``\_id'' tables that correspond to the data-storing tables. For example, the ``sc1'' table is accompanied by the ``sc1\_methods'' table which stores the available methods for SC1, and the ``sc1\_aeid'' table which stores the method assignments and execution order. + +The \texttt{tcpl} package provides three functions for easily modifying and loading the method assignments for the given assay components or endpoints: (1) \texttt{tcplMthdAssign} allows the user to assign methods, (2) \texttt{tcplMthdClear} clears method assignments, and (3) \texttt{tcplMthdLoad} queries the \texttt{tcpl} database and returns the method assignments. The package also includes the \texttt{tcplMthdList} function that queries the \texttt{tcpl} database and returns the list of available methods. + +The following code blocks will give some examples of how to use the method-related functions. + +\hfill \newline +<<>>= +## For illustrative purposes, assign level 2 MC methods to +## ACIDs 98, 99. First check for available methods. +mthds <- tcplMthdList(lvl = 2, type = "mc") +mthds[1:2] +## Assign some methods to ACID 97, 98 & 99 +tcplMthdAssign(lvl = 2, + id = 97:99, + mthd_id = c(3, 4, 2), + ordr = 1:3, + type = "mc") +tcplMthdLoad(lvl = 2, id = 97:99, type = "mc") +## Methods can be cleared one at a time for the given id(s) +tcplMthdClear(lvl = 2, id = 99, mthd_id = 2, type = "mc") +tcplMthdLoad(lvl = 2, id = 99, type = "mc") +## Or all methods can be cleared for the given id(s) +tcplMthdClear(lvl = 2, id = 97:98, type = "mc") +tcplMthdLoad(lvl = 2, id = 97:98, type = "mc") +@ +\hfill \par + +\clearpage +\section*{Data Normalization} +\label{sec:datanorm} +\markboth{Data Normalization}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Data Normalization} + +Data normalization occurs in both single- and multiple-concentration processing at levels 1 and 3, respectively. While the two paradigms use different methods, the normalization approach is the same for both single- and multiple-concentration processing. Data normalization does not have to occur within the package, and normalized data can be loaded into the database at level 0. However, \textbf{data must be zero-centered and will only be fit in the positive direction}. + +The \texttt{tcpl} package supports fold-change and a percent of control approaches to normalization. All data must be zero-centered so all fold-change data must be log-transformed. Normalizing to a control requires three normalization methods: (1) one to define the baseline value, (2) one to define the control value, and (3) one to calculate percent of control (``resp.pc''). Normalizing to fold-change also requires three methods: (1) one to define the baseline value, (2) one to calculate the fold-change, and (3) one to log-transform the fold-change values. Methods defining a baseline value ($\mathit{bval}$) have the ``bval'' prefix, methods defining the control value ($\mathit{pval}$) have the ``pval'' prefix, and methods that calculate or modify the final response value have the ``resp'' prefix. For example, ``resp.log2'' does a log-transformation of the response value using a base value of 2. The formluae for calculating the percent of control and fold-change response values are listed in equations \ref{eq:pc} and \ref{eq:fc}, respectively. + +The percent of control and fold-change values, respectively: +\begin{equation} +\label{eq:pc} \mathit{resp} = \frac{\mathit{cval} - \mathit{bval}}{\mathit{pval} - \mathit{bval}}100 +\end{equation} +\begin{equation} +\label{eq:fc} \mathit{resp} = \mathit{cval}/\mathit{bval} +\end{equation} + +Order matters when assigning normalization methods. The $\mathit{bval}$, and $\mathit{pval}$ if normalizing as a percent of control, need to be calculated prior to calculating the response value. Table \ref{tab:normxmpl} shows some possible normalization schemes. + +\begin{table}[h!] + \centering + \caption{Example normalization method assignments.} + \noindent\makebox[\textwidth]{% + \begin{tabular}{c|p{4cm}|p{4cm}|p{4cm}|} + \cline{2-4} + \parbox[t]{2mm}{\multirow{4}{*}{\rotatebox[origin=c]{90}{Fold-Change}}} & 1. bval.apid.nwlls.med & 1. bval.apid.lowconc.med & 1. none \\ + & 2. resp.fc & 2. resp.fc & 2. resp.log10 \\ + & 3. resp.log2 & 3. resp.log2 & 3. resp.blineshift.50.spid \\ + & 4. resp.mult.neg1 & 4. & 4. \\ \cline{2-4} + \parbox[t]{2mm}{\multirow{4}{*}{\rotatebox[origin=c]{90}{\% Control}}} & 1. bval.apid.lowconc.med & 1. bval.spid.lowconc.med & 1. none \\ + & 2. pval.apid.pwlls.med & 2. pval.apid.mwlls.med & 2. resp.multneg1 \\ + & 3. resp.pc & 3. resp.pc & 3. \\ + & 4. resp.multneg1 & 4. & 4. \\ \cline{2-4} + \end{tabular}} + \label{tab:normxmpl} +\end{table} + +If the data does not require any normalization the ``none'' method must be assigned for normalization. The ``none'' method simply copies the input data to the response field. Without assigning ``none'' the response field will not get generated and the processing will not complete. + +To reiterate, the package only models response in the positive direction. Therefore, signal in the negative direction must transformed to the positive direction during normalization. Negative direction data are inverted by multiplying the final response values by ${-1}$ (see the ``resp.mult.neg`'' methods in Table \ref{tab:normxmpl}). + +In addition to the required normalization methods, the user can add additional methods to transform the normalized values. For example, the third fold-change example in Table \ref{tab:normxmpl} includes ``resp.blineshift.50.spid,'' which corrects for baseline deviations by $\mathit{spid}$. A complete list of available methods, by processing type and level, can be listed with \texttt{tcplMthdList}. More information is available in the package documentation, and can be found by running \texttt{??tcpl::Methods}. + +As discussed in the Assay Structure section (page \pageref{subsec:assaystruc}), an assay component can have more than one assay endpoint. Creating multiple endpoints for one component enables multiple normalization approaches. Multiple normalization approaches may become necessary when the assay component detects signal in both positive and negative directions. + +\clearpage +\section*{Single-concentration Screening} +\label{sec:snglconc} +\markboth{Single-concentration Screening}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Single-concentration Screening} +This section will cover the \texttt{tcpl} process for handling single-concentration data\footnote{This section assumes a working knowledge of the concepts covered in the Data Processing and Data Normalization sections (pages \pageref{sec:tcplrun} and \pageref{sec:datanorm}, respectively).}. The goal of single-concentration processing is to identify potentially active compounds from a broad screen at a single concentration. After the data is loaded into the \texttt{tcpl} database, the single-concentration processing consists of 2 levels (Table \ref{tab:scsummary}). + +\begin{table}[h!] + \centering + \caption{Summary of the \texttt{tcpl} single-concentration pipeline} + \noindent\makebox[\textwidth]{% + \begin{tabular}{c p{10cm}} + & Description \\ \hline + Lvl 0 & Pre-processing: Vendor/dataset-specific pre-processing to organize heterogeneous raw data to the uniform format for processing by the \texttt{tcpl} package$^\dagger$ \\ \hline + Lvl 1 & Normalize: Apply assay endpoint-specific normalization listed in the ``sc1\_aeid'' table to the raw data to define response \\ \hline + Lvl 2 & Activity Call: Collapse replicates by median response, define the response cutoff based on methods in the ``sc2\_aeid'' table, and determine activity \\ \hline + \multicolumn{2}{l}{\footnotesize{$^\dagger$Level 0 pre-processing is outside the scope of this package}} + \end{tabular}} + \label{tab:scsummary} +\end{table} + +\subsection*{Level 1} +\label{subsec:sc1} +\addcontentsline{toc}{subsection}{Level 1} +Level 1 processing converts the assay component to assay endpoint(s) and defines the normalized-response value field ($\mathit{resp}$); logarithm-concentration field ($\mathit{logc}$); and optionally, the baseline value ($\mathit{bval}$) and positive control value ($\mathit{pval}$) fields. The purpose of level 1 is to normalize the raw values to either the percentage of a control or to fold-change from baseline. The normalization process is discussed in greater detail in the Data Normalization section (page \pageref{sec:datanorm}). + +Before beginning the normalization process, all wells with well quality ($\mathit{wllq}$) equal to 0 are removed. + +The first step in beginning the processing is to identify which assay endpoints stem from the assay component(s) being processed. +\hfill \newline +<<>>= +tcplLoadAeid(fld = "acid", val = 1) +@ +\hfill \par + +With the corresponding endpoints identified, the appropriate methods can be assigned. + +\hfill \newline +<<>>= +tcplMthdAssign(lvl = 1, + id = 1:2, + mthd_id = c(1, 11, 13), + ordr = 1:3, + type = "sc") +tcplMthdAssign(lvl = 1, + id = 2, + mthd_id = 16, + ordr = 4, + type = "sc") +@ +\hfill \par + +Above, methods 1, 11, and 13 were assigned for both endpoints. The method assignments instruct the processing to: (1) calculate $\mathit{bval}$ for each assay plate ID by taking the median of all data where the well type equals ``n;'' (2) calculate a fold-change over $\mathit{bval}$; (3) log-transform the fold-change values with base 2. The second method assignment (only for AEID 2) indicates to multiply all response values by $-1$. + +For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 1, type = "sc")} or \texttt{?SC1\_Methods}. With the assay endpoints and normalization methods defined, the data are ready for level 1 processing. +\hfill \newline +<<>>= +## Do level 1 processing for acid 1 +sc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "sc") +@ +\hfill \par +\textbf{Notice that level 1 processing takes an assay component ID, not an assay endpoint ID, as the input ID.} As mentioned in previously, the user must assign normalization methods by assay endpoint, then do the processing by assay component. The level 1 processing will attempt to process all endpoints in the database for a given component. If one endpoint fails for any reason (e.g., does not have appropriate methods assigned), the processing for the entire component fails. + +\subsection*{Level 2} +\label{subsec:sc2} +\addcontentsline{toc}{subsection}{Level 2} +Level 2 processing defines the baseline median absolute deviation ($\mathit{bmad}$), collapses any replicates by sample ID, and determines the activity. + +Before the data are collapsed by sample ID, the $\mathit{bmad}$ is calculated as the median absolute deviation of all wells with well type equal to ``t.'' The calculation to define $\mathit{bmad}$ is done once across the entire assay endpoint. \textbf{If additional data is added to the database for an assay component, the $\mathit{bmad}$ values for all associated assay endpoints will change.} Note, this $\mathit{bmad}$ definition is different from the $\mathit{bmad}$ definition used for multiple-concentration screening. + +To collapse the data by sample ID, the median response value is calculated at each concentration. The data are then further collapsed by taking the maximum of those median values ($\mathit{max\_med}$). + +Once the data are collapsed, such that each assay endpoint-sample pair only has one value, the activity is determined. For a sample to get an active hit-call, the $\mathit{max\_med}$ must be greater than an efficacy cutoff. The efficacy cutoff is determined by the level 2 methods. The efficacy cutoff value ($\mathit{coff}$) is defined as the maximum of all values given by the assigned level 2 methods. Failing to assign a level 2 method will result in every sample being called active. For a complete list of level 5 methods see \texttt{tcplMthdList(lvl = 2, type = "sc")} or \texttt{?SC2\_Methods}. +\hfill \newline +<<>>= +## Assign a cutoff value of log2(1.2) +tcplMthdAssign(lvl = 2, + id = 1:2, + mthd_id = 3, + type = "sc") +@ +\hfill \par +For the example data the cutoff value is $log_2(1.2)$. If the maximum median value ($\mathit{max\_med}$) is greater than or equal to the efficacy cutoff ($\mathit{coff}$), the sample ID is considered active and the hit-call ($\mathit{hitc}$) is set to 1. + +With the methods assigned, the level 2 processing can be completed. + +\hfill \newline +<<>>= +## Do level 1 processing for acid 1 +sc2_res <- tcplRun(id = 1:2, slvl = 2, elvl = 2, type = "sc") +@ +\hfill \par + +\clearpage +\section*{Multiple-concentration Screening} +\label{sec:multiconc} +\markboth{Multiple-concentration Screening}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Multiple-concentration Screening} +This section will cover the \texttt{tcpl} process for handling multiple-concentration data\footnote{This section assumes a working knowledge of the concepts covered in the Data Processing and Data Normalization sections (pages \pageref{sec:tcplrun} and \pageref{sec:datanorm}, respectively).}. The goal of multiple-concentration processing is to estimate the activity, potency, efficacy, and other parameters for sample-assay pairs. After the data is loaded into the \texttt{tcpl} database, the multiple-concentration processing consists of six levels (Table \ref{tab:mcsummary}). + +\begin{table}[h!] + \centering + \caption{Summary of the \texttt{tcpl} multiple-concentration pipeline} + \noindent\makebox[\textwidth]{% + \begin{tabular}{c p{10cm}} + & Description \\ \hline + Lvl 0 & Pre-processing: Vendor/dataset-specific pre-processing to organize heterogeneous raw data to the uniform format for processing by the \texttt{tcpl} package$^\dagger$ \\ \hline + Lvl 1 & Index: Define the replicate and concentration indices to facilitate all subsequent processing \\ \hline + Lvl 2 & Transform: Apply assay component-specific transformations listed in the ``mc2\_acid'' table to the raw data to define the corrected data \\ \hline + Lvl 3 & Normalize: Apply assay endpoint-specific normalization listed in the ``mc3\_aeid'' table to the corrected data to define response \\ \hline + Lvl 4 & Fit: Model the concentration-response data utilizing three objective functions: (1) constant, (2) hill, and (3) gain-loss \\ \hline + Lvl 5 & Model Selection/Acitivty Call: Select the winning model, define the response cutoff based on methods in the ``mc5\_aeid'' table, and determine activity \\ \hline + Lvl 6 & Flag: Flag potential false positive and false negative findings based on methods in the ``mc6\_aeid'' table \\ \hline + \multicolumn{2}{l}{\footnotesize{$^\dagger$Level 0 pre-processing is outside the scope of this package}} + \end{tabular}} + \label{tab:mcsummary} +\end{table} + +\subsection*{Level 1} +\label{subsec:mc1} +\addcontentsline{toc}{subsection}{Level 1} +Level 1 processing defines the replicate and concentration index fields to facilitate downstream processing. Because of cost, availability, physicochemical, and technical constraints screening-level efforts utilize numerous experimental designs and test compound (sample) stock concentrations. The resulting data may contain inconsistent numbers of concentrations, concentration values, and technical replicates. To enable quick and uniform processing, level 1 processing explicitly defines concentration and replicate indices, giving integer values $1 \dots N$ to increasing concentrations and technical replicates, where $1$ represents the lowest concentration or first technical replicate. + +To assign replicate and concentration indices we assume one of two experimental designs. The first design assumes samples are plated in multiple concentrations on each assay plate, such that the concentration series all falls on a single assay plate. The second design assumes samples are plated in a single concentration on each assay plate, such that the concentration series falls across many assay plates. + +For both experimental designs, data are ordered by source file ($\mathit{srcf}$), assay plate ID ($\mathit{apid}$), column index ($\mathit{coli}$), row index ($\mathit{rowi}$), sample ID ($\mathit{spid}$), and concentration ($\mathit{conc}$). Concentration is rounded to three significant figures to correct for potential rounding errors. After ordering the data we create a temporary replicate ID, identifying an individual concentration series. For test compounds in experimental designs with the concentration series on a single plate and all control compounds, the temporary replicate ID consists of the sample ID, well type ($\mathit{wllt}$), source file, assay plate ID, and concentration. The temporary replicate ID for test compounds in experimental designs with concentration series that span multiple assay plates is defined similarly, but does not include assay plate ID. + +Once the data are ordered, and the temporary replicate ID is defined, the data are scanned from top to bottom and increment the replicate index ($\mathit{repi}$) every time a replicate ID is duplicated. Then, for each replicate, the concentration index ($\mathit{cndx}$) is defined by ranking the unique concentrations, with the lowest concentration starting at 1. + +The following demonstrates how to carry out the level 1 processing and look at the resulting data: +\hfill \newline +<<>>= +## Do level 1 processing for acid 1 +mc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "mc") +@ +\hfill \par +With the processing complete, the resulting level 1 data can be loaded to check the processing: +\hfill \newline +<<>>= +## Load the level 1 data and look at the cndx and repi values +m1dat <- tcplLoadData(lvl = 1, + fld = "acid", + val = 1, + type = "mc") +m1dat <- tcplPrepOtpt(m1dat) +setkeyv(m1dat, c("repi", "cndx")) +m1dat[chnm == "3-Phenylphenol", list(chnm, conc, cndx, repi)] +@ +\hfill \par +3-phenylphenol contains two replicates, each with six distinct concentrations. The package also contains a tool for visualizing the data at the assay plate level. +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h!] +<>= +tcplPlotPlate(dat = m1dat, apid = "09Apr2014.Plate.17") +@ +\caption{An assay plate diagram. The color indicates the raw values according to the key on the right. The bold lines on the key show the distribution of values for the plate on the scale of values across the entire assay. The text inside each well shows the well type and concentration index. For example, ``t4'' indicates a test compound at the fourth concentration. The wells with an ``X'' have a well quality of 0.} +\label{fig:l1apid} +\end{figure} +In Figure \ref{fig:l1apid} we see the results of \texttt{tcplPlotPlate}. The \texttt{tcplPlotPlate} function can be used to visualize the data at levels 1 to 3. The row and column indices are printed along the edge of the plate, with the values in each well represented by color. While the plate does not give sample ID information, the letter/number codes in the wells indicate the well type and concentration index, respectively. The plate display also shows the wells with poor quality (as defined by the well quality, $\mathit{wllq}$, field at level 0) with an ``X.'' Plotting plates in subsequent levels wells with poor quality will appear empty. The title of the plate display lists the assay component/assay endpoint and the assay plate ID ($\mathit{apid}$). + +\subsection*{Level 2} +\label{subsec:mc2} +\addcontentsline{toc}{subsection}{Level 2} +Level 2 processing removes data where the well quality ($\mathit{wllq}$) equals 0 and defines the corrected value ($\mathit{cval}$) field. Level 2 processing allows for any transformation of the raw values at the assay component level. Examples of transformation methods could range from basic logarithm transformations, to complex spacial noise reduction algorithms. Currently the \texttt{tcpl} package only consists of basic transformations, but could be expanded in future releases. Level 2 processing does not include normalization methods; normalization should occur during level 3 processing. + +For the example data used in this vignette, no transformations are necessary at level 2. To not apply any transformation methods, assign the ``none'' method: +\hfill \newline +<<>>= +tcplMthdAssign(lvl = 2, + id = 1, + mthd_id = 1, + ordr = 1, + type = "mc") +@ +\hfill \par +Every assay component needs at least one transformation method assigned to complete level 2 processing. With the method assigned, the processing can be completed. +\hfill \newline +<<>>= +## Do level 2 processing for acid 1 +mc2_res <- tcplRun(id = 1, slvl = 2, elvl = 2, type = "mc") +@ +\hfill \par +For the complete list of level 2 transformation methods currently available, see \texttt{tcplMthdList(lvl = 2, type = "mc")} or \texttt{?MC2\_Methods} for more detail. The coding methodology used to implement the methods is beyond the scope of this vignette, but, in brief, the method names in the database correspond to a function name in the list of functions returned by \texttt{mc2\_mthds()} (the \texttt{mc2\_mthds} function is not exported, and not intended for use by the user). Each of the functions in the list given by \texttt{mc2\_mthds()} only return expression objects that processing function called by \texttt{tcplRun} executes in the local function environment to avoid making additional copies of the data in memory. We encourage suggestions for new methods. + +\subsection*{Level 3} +\label{subsec:mc3} +\addcontentsline{toc}{subsection}{Level 3} +Level 3 processing converts the assay component to assay endpoint(s) and defines the normalized-response value field ($\mathit{resp}$); logarithm-concentration field ($\mathit{logc}$); and optionally, the baseline value ($\mathit{bval}$) and positive control value ($\mathit{pval}$) fields. The purpose of level 3 processing is to normalize the corrected values to either the percentage of a control or to fold-change from baseline. The normalization process is discussed in greater detail in the Data Normalization section (page \pageref{sec:datanorm}). The processing aspect of level 3 is almost completely analogous to level 2, except the user has to be careful about using assay component versus assay endpoint. + +The user first needs to check which assay endpoints stem from the the assay component queued for processing. +\hfill \newline +<<>>= +## Look at the assay endpoints for acid 1 +tcplLoadAeid(fld = "acid", val = 1) +@ +\hfill \par +With the corresponding assay endpoints listed, the normalization methods can be assigned. +<<>>= +tcplMthdAssign(lvl = 3, + id = 1:2, + mthd_id = c(17, 9, 7), + ordr = 1:3, + type = "mc") +tcplMthdAssign(lvl = 3, + id = 2, + mthd_id = 6, + ordr = 4, + type = "mc") +@ +Above, methods 17, 9, and 7 were assigned for both endpoints. The method assignments instruct the processing to: (1) calculate $\mathit{bval}$ for each assay plate ID by taking the median of all data where the well type equals ``n'' or the well type equals ``t'' and the concentration index is 1 or 2; (2) calculate a fold-change over $\mathit{bval}$; (3) log-transform the fold-change values with base 2. The second method assignment (only for AEID 2) tells the processing to multiply all response values by $-1$. + +For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 3, type = "mc")} or \texttt{?MC3\_Methods}. With the assay endpoints and normalization methods defined, the data are ready for level 3 processing. +\hfill \newline +<<>>= +## Do level 3 processing for acid 1 +mc3_res <- tcplRun(id = 1, slvl = 3, elvl = 3, type = "mc") +@ +\hfill \par +\textbf{Notice that level 3 processing takes an assay component ID, not an assay endpoint ID, as the input ID.} As mentioned in previous sections, the user must assign normalization methods by assay endpoint, then do the processing by assay component. The level 3 processing will attempt to process all endpoints in the database for a given component. If one endpoint fails for any reason (e.g., does not have appropriate methods assigned), the processing for the entire component fails. + +\subsection*{Level 4} +\label{subsec:mc4} +\addcontentsline{toc}{subsection}{Level 4} +Level 4 processing splits the data into concentration series by sample and assay endpoint, then models the activity of each concentration series. Activity is modeled only in the positive direction. More information on readouts with both directions is available in the previous section. + +The first step in level 4 processing is to remove the well types with only one concentration. To establish the noise-band for the assay endpoint, the baseline median absolute deviation ($\mathit{bmad}$) is calculated as the median absolute deviation of the response values for test compounds where the concentration index equals 1 or 2. The calculation to define $\mathit{bmad}$ is done once across the entire assay endpoint. \textbf{If additional data is added to the database for an assay component, the $\mathit{bmad}$ values for all associated assay endpoints will change.} Note, this $\mathit{bmad}$ definition is different from the $\mathit{bmad}$ definition used for single-concentration screening. + +Before the model parameters are estimated, a set of summary values are calculated for each concentration series: the minimum and maximum response; minimum and maximum log concentration; the number of concentrations, points, and replicates; the maximum mean and median with the concentration at which they occur; and the number of medians greater than $3\mathit{bmad}$. When referring to the concentration series the ``mean'' and ``median'' values are defined as the mean or median of the response values at every concentration. In other words, the maximum median is the maximum of all median values across the concentration series. + +Concentration series must have at least four concentrations to enter the fitting algorithm. By default, concentration series must additionally have at least one median value greater than $3\mathit{bmad}$ to enter the fitting algorithm. The median value above $3\mathit{bmad}$ requirement can be ignored by setting $\mathit{fit\_all}$ to 1 in the assay endpoint annotation. + +All models draw from the Student's t-distribution with four degrees of freedom. The wider tails in the t-distribution diminish the influence of outlier values, and produce more robust estimates than do the more commonly used normal distribution. The robust fitting removes the need for any outlier elimination before fitting. The fitting algorithm utilizes maximum likelihood estimates parameters for three models as defined below in equations \ref{eq:z} through \ref{eq:gnlsc6}. + +Let $t(z,\nu)$ be the Student's t-distribution with $\nu$ degrees of freedom, $y_{i}$ be the observed response at the $i^{th}$ observation, and $\mu_{i}$ be the estimated response at the $i^{th}$ observation. We calculate $z_{i}$ as +\begin{equation} +\label{eq:z} +z_{i} = \frac{y_{i} - \mu_{i}}{\exp(\sigma)}\mathrm{,} +\end{equation} +where $\sigma$ is the scale term. Then the log-likelihood is +\begin{equation} +\label{eq:ll} +\sum_{i=1}^{n} [\ln\left(t(z_{i}, 4)\right) - \sigma]\mathrm{,} +\end{equation} +where $n$ is the number of observations. + +The first model fit in the fitting algorithm is a constant model at 0, abbreviated ``cnst.'' The constant model only has one parameter, the scale term. For the constant model $\mu_{i}$ is given by +\begin{equation} +\label{eq:cnst} +\mu_{i} = 0\mathrm{.} +\end{equation} + +The second model in the fitting algorithm is a constrained Hill model (hill), where the bottom asymptote is forced to 0. Including the scale parameter, the Hill model has four parameters. Let $\mathit{tp}$ be the top asymptote, $\mathit{ga}$ be the AC$_{50}$\footnote{The AC$_{50}$ is the activity concentration at 50\%, or the concentration where the modeled activity equals 50\% of the top asymptote.} in the gain direction, $\mathit{gw}$ be the Hill coefficient in the gain direction, and $x_{i}$ be the log concentration at the $i^{th}$ observation. Then $\mu_{i}$ for the Hill model is given by +\begin{equation} +\label{eq:hill} +\mu_{i} = \frac{tp}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}}\mathrm{,} +\end{equation} +with the constraints +\begin{equation} +\label{eq:hillc1} +0 \leq \mathit{tp} \leq 1.2\mathrm{max\;resp,} +\end{equation} +\begin{equation} +\label{eq:hillc2} +\mathrm{min\;logc} - 2 \leq \mathit{ga} \leq \mathrm{max\;logc} + 0.5\mathrm{,} +\end{equation} +and +\begin{equation} +\label{eq:hillc3} +0.3 \leq \mathit{gw} \leq 8\mathit{.} +\end{equation} + +The third model in the fitting algorithm is a constrained gain-loss model (gnls), defined as a product of two Hill models, with a shared top asymptote and both bottom asymptote values equal to 0. Including the scale term, the gain-loss model has six parameters. Let $\mathit{tp}$ be the shared top asymptote, $\mathit{ga}$ be the AC$_{50}$ in the gain direction, $\mathit{gw}$ be the Hill coefficient in the gain direction, $\mathit{la}$ be the AC$_{50}$ in the loss direction, $\mathit{lw}$ be the Hill coefficient in the loss direction, and $x_{i}$ be the log concentration at the $i^{th}$ observation. Then $\mu_{i}$ for the gain-loss model is given by +\begin{equation} +\label{eq:gnls} +\mu_{i} = \mathit{tp}\left(\frac{1}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}}\right)\left(\frac{1}{1 + 10^{(x_{i} - \mathit{la})\mathit{lw}}}\right)\mathrm{,} +\end{equation} +with the constraints +\begin{equation} +\label{eq:gnlsc1} +0 \leq \mathit{tp} \leq 1.2\mathrm{max\;resp,} +\end{equation} +\begin{equation} +\label{eq:gnlsc2} +\mathrm{min\;logc} - 2 \leq \mathit{ga} \leq \mathrm{max\;logc,} +\end{equation} +\begin{equation} +\label{eq:gnlsc3} +0.3 \leq \mathit{gw} \leq 8\mathrm{,} +\end{equation} +\begin{equation} +\label{eq:gnlsc4} +\mathrm{min\;logc} - 2 \leq \mathit{la} \leq \mathrm{max\;logc} + 2\mathrm{,} +\end{equation} +\begin{equation} +\label{eq:gnlsc5} +0.3 \leq \mathit{lw} \leq 18\mathrm{,} +\end{equation} +and +\begin{equation} +\label{eq:gnlsc6} +\mathit{la}-\mathit{ga} > 0.25\mathrm{.} +\end{equation} + +Level 4 does not utilize any assay endpoint-specific methods; the user only needs to run the \texttt{tcplRun} function. \textbf{Level 4 processing and all subsequent processing is done by assay endpoint, not assay component}. The previous section showed how to find the assay endpoints for an assay component using the \texttt{tcplLoadAeid} function. The example dataset includes two assay endpoints with aeid values of 1 and 2. +\hfill \newline +<<>>= +## Do level 4 processing for aeid 1 and load the data +mc4_res <- tcplRun(id = 1:2, slvl = 4, elvl = 4, type = "mc") +@ +\hfill \par +The level 4 data include 52 variables, including the ID fields. A complete list of level 4 fields is available in Appendix \ref{app:dbstruc}. The level 4 data include the fields $\mathit{cnst}$, $\mathit{hill}$, and $\mathit{gnls}$ indicating the convergence of the model where a value of 1 means the model converged and a value of 0 means the model did not converge. N/A values indicate the fitting algorithm did not attempt to fit the model. $\mathit{cnst}$ will be N/A when the concentration series had less than 4 concentrations; $\mathit{hill}$ and $\mathit{gnls}$ will be N/A when none of the medians were greater than or equal to $3\mathit{bmad}$. Similarly, the $\mathit{hcov}$ and $\mathit{gcov}$ fields indicate the success in inverting the Hessian matrix. Where the Hessian matrix did not invert, the parameter standard deviation estimates will be N/A. NaN values in the parameter standard deviation fields indicate the covariance matrix was not positive definite. In Figure \ref{fig:l4plt} the $\mathit{hill}$ field is used to find potentially active compounds to visualize with the \texttt{tcplPlotL4ID} function. +\hfill \newline +<<>>= +## Load the level 4 data +m4dat <- tcplLoadData(lvl = 4, type = "mc") +## List the first m4ids where the hill model convered +## for AEID 1 +m4dat[hill == 1 & aeid == 1, head(m4id)] +@ +\hfill \par +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h!] +<>= +## Plot a fit for m4id 21 +tcplPlotM4ID(m4id = 686, lvl = 4) +@ +\caption{An example level 4 plot for a single concentration series. The orange dashed line shows the constant model, the red dashed line shows the Hill model, and the blue dashed line shows the gain-loss model. The gray striped box shows the baseline region, $0 \pm 3\mathit{bmad}$. The summary panel shows assay endpoint and sample information, the parameter values (val) and standard deviations (sd) for the Hill and gain-loss models, and summary values for each model.} +\label{fig:l4plt} +\end{figure} +\par +The model summary values in Figure \ref{fig:l4plt} include Akaike Information Criterion (AIC), probability, and the root mean square error (RMSE). Let $\log(\Lagr(\hat{\theta}, y))$ be the log-likelihood of the model $\hat{\theta}$ given the observed values $y$, and $K$ be the number of parameters in $\hat{\theta}$, then, +\begin{equation} +\label{eq:aic} +\mathrm{AIC} = -2\log(\Lagr(\hat{\theta}, y)) + 2K\mathrm{.} +\end{equation} +The probability, $\omega_{i}$, is defined as the weight of evidence that model $i$ is the best model, given that one of the models must be the best model. Let $\Delta_{i}$ be the difference $\mathrm{AIC}_{i} - \mathrm{AIC}_{min}$ for the $i^{th}$ model. If $R$ is the set of models, then $\omega_{i}$ is given by +\begin{equation} +\label{eq:prob} +\omega_{i} = \frac{\exp\left(-\frac{1}{2}\Delta_{i}\right)}{\sum_{i=1}^{R} \exp\left(-\frac{1}{2}\Delta_{r}\right)}\mathrm{.} +\end{equation} +The RMSE is given by +\begin{equation} +\label{eq:rmse} +\mathrm{RMSE} = \sqrt{\frac{\sum_{i=1}^{N} (y_{i} - \mu_{i})^2}{N}}\mathrm{,} +\end{equation} +where $N$ is the number of observations, and $\mu_{i}$ and $y_{i}$ are the estimated and observed values at the $i^{th}$ observation, respectively. + +\subsection*{Level 5} +\label{subsec:mc5} +\addcontentsline{toc}{subsection}{Level 5} +Level 5 processing determines the winning model and activity for the concentration series, bins all of the concentration series into categories, and calculates additional point-of-departure estimates based on the activity cutoff. + +\textbf{The model with lowest AIC value is selected as the winning model ($\mathit{modl}$)}, and is used to determine the activity or hit-call for the concentration series. If two models have equal AIC values, the simpler model (the model with fewer parameters) wins the tie. All of the parameters for the winning model are stored at level 5 with the prefix ``modl\_'' to facilitate easier queries. For a concentration series to get an active hit-call, either the Hill or gain-loss must be selected as the winning model. In addition to selecting the Hill or gain-loss model, the modeled and observed response must meet an efficacy cutoff. + +The efficacy cutoff is defined by the level 5 methods. The efficacy cutoff value ($\mathit{coff}$) is defined as the maximum of all values given by the assigned level 5 methods. Failing to assign a level 5 method will result in every concentration series being called active. For a complete list of level 5 methods see \texttt{tcplMthdList(lvl = 5)} or \texttt{?MC5\_Methods}. +\hfill \newline +<<>>= +## Assign a cutoff value of bmad*6 +tcplMthdAssign(lvl = 5, + id = 1:2, + mthd_id = 6, + type = "mc") +@ +\hfill \par +For the example data the cutoff value is $6\mathit{bmad}$. If the Hill or gain-loss model wins, and the estimated top parameter for the winning model ($\mathit{modl\_tp}$) and the maximum median value ($\mathit{max\_med}$) are both greater than or equal to the efficacy cutoff ($\mathit{coff}$), the concentration series is considered active and the hit-call ($\mathit{hitc}$) is set to 1. + +The hit-call can be 1, 0, or -1. A hit-call of 1 or 0 indicates the concentration series is active or inactive, respectively, according to the analysis; a hit-call of -1 indicates the concentration series had less than four concentrations. + +For active concentration series, two additional point-of-departure estimates are calculated for the winning model: (1) the activity concentration at baseline (ACB or $\mathit{modl\_acb}$) and (2) the activity concentration at cutoff (ACC or $\mathit{modl\_acc}$). The ACB and ACC are defined as the concentration where the estimated model value equals $3\mathit{bmad}$ and the cutoff, respectively. The point-of-departure estimates are summarized in Figure \ref{fig:podplt}. + +\hfill \newline +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h] +<>= +par(family = "mono", mar = rep(1, 4), pty = "m") +plot.new() +plot.window(xlim = c(0, 30), ylim = c(-30, 100)) +# axis(side = 2, lwd = 2, col = "gray35") +rect(xleft = par()$usr[1], + xright = par()$usr[2], + ybottom = -15, + ytop = 15, + border = NA, + col = "gray45", + density = 15, + angle = 45) +abline(h = 26, lwd = 3, lty = "dashed", col = "gray30") +tmp <- list(modl = "gnls", gnls_ga = 12, gnls_tp = 80, + gnls_gw = 0.18, gnls_lw = 0.7, gnls_la = 25) +tcplAddModel(pars = tmp, lwd = 3, col = "dodgerblue2") + +abline(v = 8.46, lwd = 3, lty = "solid", col = "firebrick") +text(x = 8.46, y = par()$usr[4]*0.9, + font = 2, labels = "ACB", cex = 2, pos = 2, srt = 90) +abline(v = 10.24, lwd = 3, lty = "solid", col = "yellow2") +text(x = 10.24, y = par()$usr[4]*0.9, + font = 2, labels = "ACC", cex = 2, pos = 2, srt = 90) +abline(v = 12, lwd = 3, lty = "solid", col = "dodgerblue2") +text(x = 12, y = par()$usr[4]*0.9, + font = 2, labels = "AC50", cex = 2, pos = 2, srt = 90) + +points(x = c(8.46, 10.24, 12), y = c(15, 26, 40), + pch = 21, cex = 2, col = "gray30", lwd = 2, + bg = c("firebrick", "yellow2", "dodgerblue2")) +@ +\caption{The point-of-departure estimates calculated by the \texttt{tcpl} package. The shaded rectangle represents the baseline region, $0 \pm 3\mathit{bmad}$. The dark stripped line represents the efficacy cutoff ($\mathit{coff}$). The vertical lines show where the point-of-departure estimates are defined: the red line shows the ACB, the yellow line shows the ACC, and the blue line shows the AC$_{50}$.} +\label{fig:podplt} +\end{figure} +\par + +All concentration series fall into a single fit category ($\mathit{fitc}$), defined by the leaves on the tree structure in Figure \ref{fig:fitc1}. Concentration series in the same category will have similar characteristics, and often look very similar. Categorizing all of the series enables faster quality control checking and easier identification of potential false results. The first split differentiates series by hit-call. Series with a hit-call of -1 go into fit category 2. The following two paragraphs will outline the logic for the active and inactive branches. +\setkeys{Gin}{width=1.2\textwidth} +\begin{sidewaysfigure}[!p] +\centering +<>= +tcplPlotFitc() +@ +\caption{The categories used to bin each fit. Each fit falls into one leaf of the tree. The leaves are indicated by bold green font. (Figure created by calling \texttt{tcplPlotFitc()}.)} +\label{fig:fitc1} +\end{sidewaysfigure} + +The first split in the active branch differentiates series by the model winner, Hill or gain-loss. For each model, the next split is defined by the efficacy of it's top parameter in relation to the cutoff. The top value is either less than $1.2\mathit{coff}$ or greater than or equal to $1.2\mathit{coff}$. Finally, series on the active branch go into leaves based on the position of the AC$_{50}$ parameter in relation to the tested concentration range. For comparison purposes, the activity concentration at 95\% (AC95) is calculated, but not stored.\footnote{The \texttt{tcplHill-} functions can be used to calculate values, concentrations, and activity concentrations for the Hill model.} Series with AC$_{50}$ values less than the minimum concentration tested ($\mathit{logc\_min}$) go into the ``$<=$'' leaves, series with AC$_{50}$ values greater than the minimum tested concentration and AC95 values less than maximum tested concentration ($\mathit{logc\_max}$) go into the ``$==$'' leaves, and series with AC95 values greater than the maximum concentration tested go into the ``$>=$'' leaves. + +The inactive branch is first divided by whether any median values were greater than or equal to $3\mathit{bmad}$. Series with no evidence of activity go into fit category 4. Similar to the active branch, series with evidence for activity are separated by the model winner. The Hill and gain-loss portions of the inactive branch follow the same logic. First, series diverge by the efficacy of their top parameter in relation to the cutoff: $\mathit{modl\_tp < 0.8\mathit{coff}}$ or $\mathit{modl\_tp \geq 0.8\mathit{coff}}$. Then the same comparison is made on the top values of the losing model. If the losing model did not converge, then the series go into the ``DNC'' category. If the losing model top value is greater than or equal to $0.8\mathit{coff}$, then the series are split based on whether the losing model top surpassed the cutoff. On the constant model branch, if neither top parameter is greater than or equal to $0.8\mathit{bmad}$, then the series goes into fit category 7. If one of the top parameters is greater than or equal to $0.8\mathit{coff}$, the series goes into fit category 9 or 10 based on whether one of the top values surpassed the cutoff. + +With the level 5 methods assigned, the data are ready for level 5 processing: +\hfill \newline +<<>>= +## Do level 5 processing for aeid 1 and load the data +mc5_res <- tcplRun(id = 1:2, slvl = 5, elvl = 5, type = "mc") +@ +\hfill \par +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h] +<>= +tcplPlotM4ID(m4id = 370, lvl = 5) +@ +\caption{An example level 5 plot for a single concentration series. The solid line and model highlighting indicate the model winner. The horizontal line shows the cutoff value. In addition to the information from the level 4 plots, the summary panel includes the cutoff ($\mathit{coff}$), hit-call ($\mathit{hitc}$), fit category ($\mathit{fitc}$) and activity probability ($\mathit{actp}$) values.} +\label{fig:l5plt1} +\end{figure} +\par +Figure \ref{fig:l5plt1} shows an example of a concentration series in fit category 37, indicating the series is active and the Hill model won with a top value less than or equal to $1.2\mathit{coff}$, and an AC$_{50}$ value within the tested concentration range. The \texttt{tcplPlotFitc} function shows the distribution of concentration series across the fit category tree (Figure \ref{fig:fitc2}). +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h] +<>= +m5dat <- tcplLoadData(lvl = 5, type = "mc") +tcplPlotFitc(fitc = m5dat$fitc) +@ +\caption{The distribution of concentration series by fit category for the example data. Both the size and color of the circles indicate the number of concentration series. The legend gives the range for number of concentration series by color.} +\label{fig:fitc2} +\end{figure} +\hfill \par +The distribution in Figure \ref{fig:fitc2} shows 24-40 concentration series fell into fit category 21. Following the logic discussed previously, fit category 21 indicates an inactive series where the Hill model was selected, the top asymptote for the Hill model was greater than $0.8\mathit{coff}$, and the gain-loss top asymptote was greater than or equal to the cutoff. The series in fit category 21 can be found easily in the level 5 data. +\hfill \newline +<<>>= +head(m5dat[fitc == 21, + list(m4id, hill_tp, gnls_tp, + max_med, coff, hitc)]) +@ +\hfill \par +The plot in Figure \ref{fig:l5plt2} shows a concentration series in fit category 21. In the example given by Figure \ref{fig:l5plt2}, the $\mathit{hill\_tp}$ and $\mathit{gnls\_tp}$ parameters are equal and greater than $\mathit{coff}$; however, the maximum median value ($\mathit{max\_med}$) is not greater than the cutoff making the series inactive. +\hfill \par +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h] +<>= +tcplPlotM4ID(m4id = 45, lvl = 5) +@ +\caption{Level 5 plot for m4id 45 showing an example series in fit category 21.} +\label{fig:l5plt2} +\end{figure} + +\subsection*{Level 6} +\label{subsec:mc6} +\addcontentsline{toc}{subsection}{Level 6} +Level 6 processing uses various methods to identify concentration series with etiologies that may suggest false positive/false negative results or explain apparent anomalies in the data. Each flag has is defined by a level 6 method that has to be assigned to each assay endpoint. Similar to level 5, an assay endpoint does not need any level 6 methods assigned to complete processing. +\hfill \newline +<<>>= +tcplMthdAssign(lvl = 6, + id = 1:2, + mthd_id = c(6:8, 10:12, 15:16), + type = "mc") +tcplMthdLoad(lvl = 6, id = 1, type = "mc") +@ +\hfill \par +The example above assigns the most common flags. Some of the available flags only apply to specific experimental designs and do not apply to all data. For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 6)} or \texttt{?MC6\_Methods}. + +The additional $\mathit{nddr}$ field in the ``mc6\_methods'' (and the output from \texttt{tcplMthdLoad()}/\texttt{tcplMthdList()} for level 6) indicates whether the method requires additional data. Methods with an $\mathit{nddr}$ value of 0 only require the modeled/summary information from levels 4 and 5. Methods with an $\mathit{nddr}$ value of 1 also require the individual response and concentration values from level 3. Methods requiring data from level 3 can greatly increase the processing time. +\hfill \newline +<<>>= +## Do level 6 processing +mc6_res <- tcplRun(id = 1:2, slvl = 6, elvl = 6, type = "mc") +m6dat <- tcplLoadData(lvl = 6, type = "mc") +@ +\hfill \par +For the two assay endpoints, \Sexpr{nrow(m6dat)} out of the \Sexpr{nrow(m5dat)} concentration series were flagged in the level 6 processing. Series not flagged in the level 6 processing do not get stored at level 6. Each series-flag combination is a separate entry in the level 6 data. Or, in other words, if a series has multiple flags it will show up on multiple rows in the output. For example, consider the following results: +\hfill \newline +<<>>= +m6dat[m4id == 46] +@ +\hfill \par +The data above lists two flags: ``Multiple points above baseline, inactive'' and ``Borderline inactive.'' Without knowing much about the flags one might assume this concentration series had some evidence of activity but was not called a hit, and could potentially be a false negative. In cases of borderline results, plotting the curve is often helpful. + +\hfill \par +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h!] +<>= +tcplPlotM4ID(m4id = 46, lvl = 6) +@ +\caption{An example level 6 plot for a single concentration series. All level 6 method ID ($\mathit{l6\_mthd\_id}$) values are concatenated in the flags section. If flags have an associated value ($\mathit{fval}$), the value will be shown in parentheses to the right of the level 6 method ID.} +\label{fig:l6plt} +\end{figure} +The evidence of true activity shown in Figure \ref{fig:l6plt} could be argued either way. Level 6 processing does not attempt to define truth in the matter of borderline compounds or data anomalies, but rather attempts to identify concentration series for closer consideration. + +\appendix +\clearpage +\section{Field Explanation/Database Structure} +\markboth{Field Explanation/Database Structure}{} +\thispagestyle{plain} +\label{app:dbstruc} + +This appendix contains reference tables that describe the structure and table fields found in the \texttt{tcpl} database. The first sections of this appendix describe the data-containing tables, followed by a section describing the additional annotation tables. + +In general, the single-concentration data and accompanying methods are found in the ``sc\#'' tables, where the number indications the processing level. Likewise, the multiple-concentration data and accompanying methods are found in the ``mc\#'' tables. Each processing level that has accompanying methods will also have a tables with the ``\_methods'' and ``\_id'' naming scheme. For example, the database contains the following tables: ``mc5'' storing the data from multiple-concentration level 5 processing, ``mc5\_methods'' storing the available level 5 methods, and ``mc5\_aeid'' storing the method assignments for level 5. Note, the table storing the method assignments for level 2 multiple-concentration processing is called ``mc2\_acid'' because MC2 methods are assigned by assay component ID. + +There are two additional tables, ``sc2\_agg'' and ``mc4\_agg,'' that link the data in tables ``sc2'' and ``mc4'' to the data in tables ``sc1'' and ``mc3,'' respectively. This is necessary because each entry in the database before SC2 and MC4 processing represents a single value; subsequent entries represent summary/modeled values that encompass many values. To know what values were used in calculating the summary/modeled values, the user must use the ``\_agg'' look-up tables. + +Each of the methods tables have fields analogous to $\mathit{mc5\_mthd\_id}$, $\mathit{mc5\_mthd}$, and $\mathit{desc}$. These fields represent the unique key for the method, the abbreviated method name (used to call the method from the corresponding \texttt{mc5\_mthds} function), and a brief description of the method, respectively. The ``mc6\_methods'' table may also includes $\mathit{nddr}$ field. More information about $\mathit{nddr}$ is available in the discussion of multiple-concentration level 6 processing (page \pageref{subsec:mc6}). + +The method assignment tables will have fields analogous to $\mathit{mc5\_mthd\_id}$ matching the method ID from the methods tables, an assay component or assay endpoint ID, and possibly an $\mathit{exec\_ordr}$ field indicating the order in which to execute the methods. + +The method and method assignment tables will not be listed in the tables below to reduce redundancy. + +Many of the tables also include the $\mathit{created\_date}$, $\mathit{modified\_date}$, and $\mathit{modified\_by}$ fields that store information helpful for tracking changes to the data. These fields will not be discussed further or included in the tables below. + +Many of the tables specific to the assay annotation are not utilized by the \texttt{tcpl} package. The full complexity of the assay annotation used by the ToxCast program is beyond the scope of this vignette and the \texttt{tcpl} package. More information about the ToxCast assay annotation can be found at: \url{}. + +\clearpage + +\subsection*{Single-concentration data-containing tables} +\label{subsec:sctabs} +\addcontentsline{toc}{subsection}{Single-concentration tables} + +\begin{table}[H] + \centering + \caption{Fields in sc0 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + s0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + spid & Sample ID \\ \hline + cpid & Chemical plate ID \\ \hline + apid & Assay plate ID \\ \hline + rowi & Assay plate row index \\ \hline + coli & Assay plate column index \\ \hline + wllt & Well type$^\dagger$\\ \hline + wllq & 1 if the well quality was good, else 0$^\ddagger$\\ \hline + conc & Concentration in micromolar \\ \hline + rval & Raw assay component value/readout from vendor \\ \hline + srcf & Filename of the source file containing the data \\ \hline + \multicolumn{2}{l}{\footnotesize{$^\dagger$Information about the different well types is available in Appendix \ref{app:l0}.}} \\[-8pt] + \end{tabular}} +\label{tab:sc0} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in sc1 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + s1id & Level 1 ID \\ \hline + s0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + aeid & Assay component endpoint ID \\ \hline + logc & Log base 10 concentration \\ \hline + bval & Baseline value \\ \hline + pval & Positive control value \\ \hline + resp & Normalized response value \\ \hline + \end{tabular}} +\label{tab:sc1} + +\end{table}\begin{table}[H] + \centering + \caption{Fields in sc2\_agg table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + aeid & Assay component endpoint ID \\ \hline + s0id & Level 0 ID \\ \hline + s1id & Level 1 ID \\ \hline + s2id & Level 2 ID \\ \hline + \end{tabular}} +\label{tab:sc2agg} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in sc2 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + s2id & Level 2 ID \\ \hline + aeid & Assay component endpoint ID \\ \hline + spid & Sample ID \\ \hline + bmad & Baseline median absolute deviation \\ \hline + max\_med & Maximum median response value \\ \hline + hitc & Hit-/activity-call, 1 if active, 0 if inactive\\ \hline + coff & Efficacy cutoff value \\ \hline + tmpi & Ignore, temporary index used for uploading purposes\\ \hline + \end{tabular}} +\label{tab:sc2} +\end{table} + +\clearpage + +\subsection*{Multiple-concentration data-containing tables} +\label{subsec:mctabs} +\addcontentsline{toc}{subsection}{Multiple-concentration tables} + +The ``mc0'' table, other than containing $\mathit{m0id}$ rather than $\mathit{s0id}$, is identical to the ``sc0'' described in the section above. + +\begin{table}[H] + \centering + \caption{Fields in mc1 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m1id & Level 1 ID \\ \hline + m0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + cndx & Concentration index \\ \hline + repi & Replicate index \\ \hline + \end{tabular}} +\label{tab:mc1} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc2 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m2id & Level 2 ID \\ \hline + m0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + m1id & Level 1 ID \\ \hline + cval & Corrected value \\ \hline + \end{tabular}} +\label{tab:mc2} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc3 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m3id & Level 3 ID \\ \hline + aeid & Assay endpoint ID \\ \hline + m0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + m1id & Level 1 ID \\ \hline + m2id & Level 2 ID \\ \hline + bval & Baseline value \\ \hline + pval & Positive control value \\ \hline + logc & Log base 10 concentration \\ \hline + resp & Normalized response value \\ \hline + \end{tabular}} +\label{tab:mc3} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc4\_agg table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + aeid & Assay endpoint ID \\ \hline + m0id & Level 0 ID \\ \hline + m1id & Level 1 ID \\ \hline + m2id & Level 2 ID \\ \hline + m3id & Level 3 ID \\ \hline + m4id & Level 4 ID \\ \hline + \end{tabular}} +\label{tab:mc4agg} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc4 table (Part 1).} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m4id & Level 4 ID \\ \hline + aeid & Assay endpoint ID \\ \hline + spid & Sample ID \\ \hline + bmad & Baseline median absolute deviation \\ \hline + resp\_max & Maximum response value \\ \hline + resp\_min & Minimum response value \\ \hline + max\_mean & Maximum mean response value \\ \hline + max\_mean\_conc & Log concentration at $\mathit{max\_mean}$ \\ \hline + max\_med & Maximum median response value \\ \hline + max\_med\_conc & Log concentration at $\mathit{max\_med}$ \\ \hline + logc\_max & Maximum log concentration tested \\ \hline + logc\_min & Minimum log concentration tested \\ \hline + cnst & 1 if the constant model converged, 0 if it failed to converge, N/A if series had less than four concentrations\\ \hline + hill & 1 if the Hill model converged, 0 if it failed to converge, N/A if series had less than four concentrations or if $\mathit{max\_med} < 3\mathit{bmad}$ \\ \hline + hcov & 1 if the Hill model Hessian matrix could be inverted, else 0 \\ \hline + gnls & 1 if the gain-loss model converged, 0 if it failed to converge, N/A if series had less than four concentrations or if $\mathit{max\_med} < 3\mathit{bmad}$ \\ \hline + gcov & 1 if the gain-loss model Hessian matrix could be inverted, else 0\\ \hline + cnst\_er & Scale term for the constant model \\ \hline + cnst\_aic & AIC for the constant model \\ \hline + cnst\_rmse & RMSE for the constant model \\ \hline + cnst\_prob & Probability the constant model is the true model \\ \hline + hill\_tp & Top asymptote for the Hill model \\ \hline + hill\_tp\_sd & Standard deviation for $\mathit{hill\_tp}$ \\ \hline + hill\_ga & AC$_{50}$ for the Hill model \\ \hline + hill\_ga\_sd & Standard deviation for $\mathit{hill\_ga}$ \\ \hline + \end{tabular}} +\label{tab:mc4p1} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc4 table (Part 2).} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + hill\_gw & Hill coefficient \\ \hline + hill\_gw\_sd & Standard deviation for $\mathit{hill\_gw}$ \\ \hline + hill\_er & Scale term for the Hill model \\ \hline + hill\_er\_sd & Standard deviation for $\mathit{hill\_er}$ \\ \hline + hill\_aic & AIC for the Hill model \\ \hline + hill\_rmse & RMSE for the Hill model \\ \hline + hill\_prob & Probability the Hill model is the true model \\ \hline + gnls\_tp & Top asymptote for the gain-loss model \\ \hline + gnls\_tp\_sd & Standard deviation for $\mathit{gnls\_tp}$ \\ \hline + gnls\_ga & AC$_{50}$ in the gain direction for the gain-loss model \\ \hline + gnls\_ga\_sd & Standard deviation for $\mathit{gnls\_ga}$ \\ \hline + gnls\_gw & Hill coefficient in the gain direction \\ \hline + gnls\_gw\_sd & Standard deviation for $\mathit{gnls\_gw}$ \\ \hline + gnls\_la & AC$_{50}$ in the loss direction for the gain-loss model \\ \hline + gnls\_la\_sd & Standard deviation for $\mathit{gnls\_la}$ \\ \hline + gnls\_lw & Hill coefficient in the loss direction \\ \hline + gnls\_lw\_sd & Standard deviation for $\mathit{gnls\_lw}$ \\ \hline + gnls\_er & Scale term for the gain-loss model \\ \hline + gnls\_er\_sd & Standard deviation for $\mathit{gnls\_er}$ \\ \hline + gnls\_aic & AIC for the gain-loss model \\ \hline + gnls\_rmse & RMSE for the gain-loss model \\ \hline + gnls\_prob & Probability the gain-loss model is the true model \\ \hline + nconc & Number of concentrations tested \\ \hline + npts & Number of points in the concentration series \\ \hline + nrep & Number of replicates in the concentration series \\ \hline + nmed\_gtbl & Number of median values greater than $3\mathit{bmad}$ \\ \hline + tmpi & Ignore, temporary index used for uploading purposes\\ \hline + \end{tabular}} +\label{tab:mc4p2} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc5 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m5id & Level 5 ID \\ \hline + m4id & Level 4 ID \\ \hline + aeid & Assay endpoint ID \\ \hline + modl & Winning model: ``cnst'', ``hill'', or ``gnls'' \\ \hline + hitc & Hit-/activity-call, 1 if active, 0 if inactive, -1 if cannot determine\\ \hline + fitc & Fit category \\ \hline + coff & Efficacy cutoff value \\ \hline + actp & Activity probability ($1 - \mathit{cnst\_prob}$)\\ \hline + modl\_er & Scale term for the winning model \\ \hline + modl\_tp & Top asymptote for the winning model \\ \hline + modl\_ga & Gain AC$_{50}$ for the winning model \\ \hline + modl\_gw & Gain Hill coefficient for the winning model \\ \hline + modl\_la & Loss AC$_{50}$ for the winning model \\ \hline + modl\_lw & Loss Hill coefficient for the winning model \\ \hline + modl\_prob & Probability for the winning model \\ \hline + modl\_rmse & RMSE for the winning model \\ \hline + modl\_acc & Activity concentration at cutoff for the winning model \\ \hline + modl\_acb & Activity concentration at baseline for the winning model \\ \hline + modl\_ac10 & AC10 for the winning model \\ \hline + \end{tabular}} +\label{tab:mc5} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc6 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m6id & Level 6 ID \\ \hline + m5id & Level 5 ID \\ \hline + m4id & Level 4 ID \\ \hline + aeid & Assay endpoint ID \\ \hline + m6\_mthd\_id & Level 6 method ID \\ \hline + flag & Text text output for the level 6 method \\ \hline + fval & Value from the flag method, if applicable \\ \hline + fval\_unit & Units for $\mathit{fval}$, if applicable \\ \hline + \end{tabular}} +\label{tab:mc6} +\end{table} + +\clearpage + +\subsection*{Auxiliary annotation tables} +\label{subsec:auxtabs} +\addcontentsline{toc}{subsection}{Auxiliary annotation tables} + +As mentioned in the introduction to this appendix, a full description of the assay annotation is beyond the scope of this vignette. The fields pertinent to the \texttt{tcpl} package are listed in the tables below. + +\begin{table}[H] + \centering + \caption{List of annotation tables.} + \noindent\makebox[\textwidth]{% + \begin{tabular}{l p{10cm}} + Table Name & Description \\ \hline + assay & Assay-level annotation \\ \hline + assay\_component & Assay component-level annotation \\ \hline + assay\_component\_endpoint & Assay endpoint-level annotation \\ \hline + assay\_component\_map & Assay component source names and their corresponding assay component ids \\ \hline + assay\_reagent* & Assay reagent information \\ \hline + assay\_reference* & Map of citations to assay \\ \hline + assay\_source & Assay source-level annotation \\ \hline + chemical & List of chemicals and associated identifiers \\ \hline + chemical\_library & Map of chemicals to different chemical libraries \\ \hline + citations* & List of citations \\ \hline + gene & Gene* identifiers and descriptions \\ \hline + intended\_target* & Intended assay target at the assay endpoint level \\ \hline + mc5\_fit\_categories & The level 5 fit categories \\ \hline + organism* & Organism identifiers and descriptions \\ \hline + sample & Sample ID information and chemical ID mapping \\ \hline + technological\_target* & Technological assay target at the assay component level \\ \hline + \multicolumn{2}{p{15cm}}{\footnotesize{* indicates tables not currently used by the \texttt{tcpl} package}} + \end{tabular}} + \label{tab:datatbllist} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + aid & Assay ID \\ \hline + asid & Assay source ID \\ \hline + assay\_name & Assay name (abbreviated ``anm'' within the package) \\ \hline + assay\_desc & Assay description \\ \hline + timepoint\_hr & Treatment duration in hours \\ \hline + assay\_footprint & Microtiter plate size$^\dagger$ \\ \hline + \multicolumn{2}{p{12cm}}{\footnotesize{$^\dagger$ discussed further in the ``Register and Upload New Data'' section (page \pageref{sec:newdata})}} + \end{tabular}} +\label{tab:assay} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay\_component.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + acid & Assay component ID \\ \hline + aid & Assay ID \\ \hline + assay\_component\_name & Assay component name (abbreviated ``acnm'' within the package) \\ \hline + assay\_component\_desc & Assay component description \\ \hline + \end{tabular}} +\label{tab:assaycomp} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay\_source.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + asid & Assay source ID \\ \hline + assay\_source\_name & Assay source name (typically an abbreviation of the assay\_source\_long\_name, abbreviated ``asnm'' within the package) \\ \hline + assay\_source\_long\_name & The full assay source name \\ \hline + assay\_source\_description & Assay source description \\ \hline + \end{tabular}} +\label{tab:assaysource} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay\_component\_endpoint.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + aeid & Assay component endpoint ID \\ \hline + acid & Assay component ID \\ \hline + assay\_component\_endpoint\_name & Assay component endpoint name (abbreviated ``aenm'' within the package) \\ \hline + assay\_component\_endpoint\_desc & Assay component endpoint description \\ \hline + export\_ready & 0 or 1, used to flag data as ``done'' \\ \hline + normalized\_data\_type & The units of the normalized data$^\dagger$ \\ \hline + burst\_assay & 0 or 1, 1 indicates the assay results should be used in calculating the burst z-score \\ \hline + fit\_all & 0 or 1, 1 indicates all results should be fit, regardless of whether the $\mathit{max\_med}$ surpasses $3\mathit{bmad}$ \\ \hline + \multicolumn{2}{p{12cm}}{\footnotesize{$^\dagger$ discussed further in the ``Register and Upload New Data'' section (page \pageref{sec:newdata})}} + \end{tabular}} +\label{tab:assaycompend} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay\_component\_map table.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + acid & Assay component ID \\ \hline + acsn & Assay component source name \\ \hline + \end{tabular}} +\label{tab:assaycompmap} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in chemical.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + chid & Chemical ID$^\dagger$ \\ \hline + casn & CAS Registry Number \\ \hline + chnm & Chemical name \\ \hline + \multicolumn{2}{p{10cm}}{\footnotesize{$^\dagger$ this is the DSSTox GSID within the ToxCast data, but can be any integer and will be auto-generated (if not explicitly defined) for newly registered chemicals}} + \end{tabular}} +\label{tab:chemical} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in chemical\_library.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + chid & Chemical ID \\ \hline + clib & Chemical library \\ \hline + \end{tabular}} +\label{tab:chemlib} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc5\_fit\_categories table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + fitc & Fit category \\ \hline + parent\_fitc & Parent fit category \\ \hline + name & Fit category name \\ \hline + xloc & x-axis location for plotting purposes \\ \hline + yloc & y-axis location for plotting purposes \\ \hline + \end{tabular}} +\label{tab:l5fitcategories} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in sample.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + spid & Sample ID \\ \hline + chid & Chemical ID \\ \hline + stkc & Stock concentration \\ \hline + stkc\_unit & Stock concentration unit \\ \hline + tested\_conc\_unit & The concentration unit for the concentration values in the data-containing tables \\ \hline + spid\_legacy & A place-holder for previous sample ID strings + \end{tabular}} +\label{tab:sample} +\end{table} + +The stock concentration fields in the ``sample'' table allow the user to track the original concentration when the neat sample is solubilized in vehicle before any serial dilutions for testing purposes. + +\clearpage +\section{Level 0 Pre-processing} +\label{app:l0} +\markboth{Level 0 Pre-processing}{} +\thispagestyle{plain} +Level 0 pre-processing can be done on virtually any high-throughput/high-content screening application. In the ToxCast program, level 0 processing is done in R by vendor/dataset-specific scripts. The individual R scripts act as the ``laboratory notebook'' for the data, with all pre-processing decisions clearly commented and explained. + +Level 0 pre-processing has to reformat the raw data into the standard format for the pipeline, and also can make manual changes to the data. All manual changes to the data should be very well documented with justification. Common examples of manual changes include fixing a sample ID typo, or changing well quality value(s) to 0 after finding obvious problems like a plate row/column missing an assay reagent. + +Each row in the level 0 pre-processing data represents one well-assay component combination, containing 11 fields (Table \ref{tab:preproc}). The only field in level 0 pre-processing not stored at level 0 is the assay component source name ($\mathit{acsn}$). The assay component source name should be some concatenation of data from the assay source file that identifies the unique assay components. When the data are loaded into the database, the assay component source name is mapped to assay component ID through the assay\_component\_map table in the \texttt{tcpl} database. Assay components can have multiple assay component source names, but each assay component source name can only map to a single assay component. + +\begin{table}[h!] + \centering + \caption{Required fields in level 0 pre-processing.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{8cm} c} + Field & Description & N/A \\ \hline + acsn & Assay component source name & No \\ \hline + spid & Sample ID & No \\ \hline + cpid & Chemical plate ID & Yes \\ \hline + apid & Assay plate ID & Yes \\ \hline + rowi & Assay plate row index, as an integer & Yes \\ \hline + coli & Assay plate column index, as an integer & Yes \\ \hline + wllt & Well type & No \\ \hline + wllq & 1 if the well quality was good, else 0 & No \\ \hline + conc & Concentration in micromolar & No$^\dagger$ \\ \hline + rval & Raw assay component value/readout from vendor & Yes$^\ddagger$ \\ \hline + srcf & Filename of the source file containing the data & No \\ \hline + \multicolumn{3}{l}{\footnotesize{The N/A column indicates whether the field can be N/A in the pre-processed data.}} \\[-8pt] + \multicolumn{3}{p{10cm}}{\footnotesize{$^\dagger$Concentration can be N/A for control values only tested at a single concentration. Concentration cannot be N/A for any test compound (well type of ``t'') data.}} \\[-8pt] + \multicolumn{3}{p{10cm}}{\footnotesize{$^\ddagger$If the raw value is N/A, well type has to be 0.}} + \end{tabular}} +\label{tab:preproc} +\end{table} + +The well type field is used in the processing to differentiate controls from test compounds in numerous applications, including normalization and definition of the assay noise level. Currently, the \texttt{tcpl} package includes the eight well types in Table \ref{tab:wllt}. Package users are encouraged to suggest new well types and methods to better accommodate their data. + + \begin{table}[h!] + \centering + \caption{Well types} + \noindent\makebox[\textwidth]{ + \begin{tabular}{c p{10cm}} + Well Type & Description \\ \hline + t & Test compound \\ \hline + c & Gain-of-signal control in multiple concentrations \\ \hline + p & Gain-of-signal control in single concentration \\ \hline + n & Neutral/negative control \\ \hline + m & Loss-of-signal control in multiple concentrations \\ \hline + o & Loss-of-signal control in single concentration \\ \hline + b & Blank well \\ \hline + v & Viability control \\ \hline + \end{tabular}} +\label{tab:wllt} +\end{table} + +The final step in level 0 pre-processing is loading the data into the \texttt{tcpl} database. The \texttt{tcpl} package includes the \texttt{tcplWriteLvl0} function to load data into the database. The \texttt{tcplWriteLvl0} function maps the assay component source name to the appropriate assay component ID, checks each field for the correct class, and checks the database for the sample IDs with well type ``t.'' Each test compound sample ID must be included in the \texttt{tcpl} database before loading data. The \texttt{tcplWriteLvl0} also checks each test compound for concentration values. + +\clearpage +\section{Cytotoxicity Distribution} +\label{app:cyto} +\markboth{Cytotoxicity Distribution}{} +\thispagestyle{plain} +Recognizing the susbtantial impact of cytotoxicity in confounding high-throughput and high-content screening results, the \texttt{tcpl} package includes methodology for defining chemical-specific cytotoxicity estimates. Our observations based on ToxCast data suggest a complex, and not-yet fully understood, cellular biology that includes non-specific activation of many targets as cells approach death. For example, a chemical may induce activity in an estrogen-related assay, but if that chemical also causes activity in hundreds of other assays at or around the same concentration as cytotoxicity, should the chemical be called an estrogen agonist? The \texttt{tcplCytoPt} function provides an estimate of chemical-specific cytotoxicity points to provide some context to the ``burst'' phenomenon. + +The cytotoxicity point is simply the median AC$_{50}$ for a set of assay endpoints, either given by the user or defined within the \texttt{tcpl} database. By default, the \texttt{tcplCytoPt} function uses the assay endpoints listed in the $\mathit{burst\_assay}$ field of the ``assay\_component\_endpoint'' table, where 1 indicates to include the assay endpoint in the calculation. The ``burst'' assay endpoints can be indentified by running \texttt{tcplLoadAeid(fld = "burst\_assay", val = 1)}. + +In addition to the cytotoxicity point, \texttt{tcplCytoPt} provides two additional estimates: (1) the MAD of the AC$_{50}$ ($\mathit{modl\_ga}$) values used to calculate the cytotoxicity point, and (2) the global MAD. Note, only active assay endpoints (where the hit-call, $\mathit{hitc}$, equals $1$) are included in the calculations. Once the burst distribution (cytotoxicity point and MAD) is defined for each chemical, the global burst MAD is defined as the median of the MAD values. Not every chemcial may be tested in every ``burst'' assay, so the user can determine the minimum number of tested assays as a condition for the MAD value for a particular chemical to be included in the global MAD calculation. By default, if ``aeid'' is the vector of assay endpoints used in the calculation, \texttt{tcplCytoPt} requires the chemical to tested in at least \texttt{floor(0.8 * length(aeid))} assay endpoints to be included in the calculation. The user can specify to include all calculated MAD values (note, there must be at least two active assay endpoints to calculate the MAD) by setting `min.test' to \texttt{FALSE}. The `min.test' parameter also accepts a number, allowing the user to explicitly set the requirement. + +The global MAD gives an estimate of overall cytotoxicity window, and allows for a cytotoxicity distrubtion to be determined for chemicals with less than two active ``burst'' assay endpoints. The cytotoxicity point for chemicals with less two active ``burst'' endpoints is set to the value given to the `default.pt' parameter. By default the \texttt{tcplCytoPt} assigns `default.pt' to 3.\footnote{$10^3 = 1000$, therefore, when using micromolar units, $3$ is equivalent to $1$ millimolar. $1$ millimolar was chosen as an arbitrary high concentration (outside the testing range for ToxCast data), based on the principle all compounds are toxic if given in high enough concentration.} + + +\clearpage +\section{Build Variable Matrices} +\label{app:mats} +\markboth{Build Variable Matrices}{} +\thispagestyle{plain} +The \texttt{tcplVarMat} function creates chemical-by-assay matrices for the level 4 and level 5 data. When multiple sample-assay series exist for one chemical, a single series is selected by the \texttt{tcplSubsetChid} function. See \texttt{?tcplSubsetChid} for more information. + +\begin{enumerate} + \item ``modl\_ga'' -- The $\log_{10}\mathit{AC_{50}}$ (in the gain direction) for the winning model. + \item ``hitc'' -- The hit-call for the winning model. + \item ``m4id'' -- The m4id, listing the concentration series selected by \texttt{tcplSubsetChid}. + \item ``zscore'' -- The z-score (described below). + \item ``tested'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in either the single- or multiple-concentration format. + \item ``tested\_sc'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in the single-concentration format + \item ``tested\_mc'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in the multiple-concentration format + \item ``ac50'' -- a modified AC$_{50}$ table (in non-log units) where assay/chemical pairs that were not tested, or tested and had a hitcall of $0$ or $-1$ have the value $1e6$. + \item ``neglogac50'' -- $-\log_{10}\frac{\mathit{AC_{50}}}{1e6}$ where assay/chemical pairs that were not tested, or tested and had a hitcall of $0$ or $-1$ have the value $0$. +\end{enumerate} + +The z-score calculation is based on the output from \texttt{tcplCytoPt} (Appendix \ref{app:cyto}), and is calculated for each AC$_{50}$ value as follows: +\begin{equation} +\label{eq:zscore} +\mathit{z\-score} = -\frac{\mathit{modl\_ga} - \mathit{cyto\_pt}}{\mathit{global\_mad}}\mathrm{,} +\end{equation} +Note: the burst z-score values are multiplied by -1 to make values that are more potent relative to the burst distribution a higher positive z-score. + +In addition the the standard matrices, additional matrices can be defined by the `add.vars' parameter in the \texttt{tcplVarMat} function. The `add.vars' function will take any level 4 or level 5 field and create the respective matrix. + + +\end{document} + + + + diff --git a/inst/doc/tcpl_Overview.pdf b/inst/doc/tcpl_Overview.pdf index ecf0989..7e942f5 100644 Binary files a/inst/doc/tcpl_Overview.pdf and b/inst/doc/tcpl_Overview.pdf differ diff --git a/inst/sql/chdat.csv b/inst/sql/chdat.csv index 06569f8..9ab463d 100644 --- a/inst/sql/chdat.csv +++ b/inst/sql/chdat.csv @@ -1,2075 +1,2075 @@ -"spid","casn","chnm" -"01140000A","26172-55-4","5-Chloro-2-methyl-3(2H)-isothiazolone" -"01140002A","109-43-3","Dibutyl decanedioate" -"01140004A","486-56-6","Cotinine" -"01140006A","2058-94-8","Perfluoroundecanoic acid" -"01140008A","732-11-6","Phosmet" -"01140010A","89-83-8","Thymol" -"01140012A","101-02-0","Triphenyl phosphite" -"01140014A","106-22-9","Citronellol" -"01140016A","36653-82-4","1-Hexadecanol" -"01140018A","79-39-0","Methacrylamide" -"01140020A","77-93-0","Triethyl citrate" -"01140022A","120-80-9","Catechol" -"01140024A","298-02-2","Phorate" -"01140026A","53-86-1","Indomethacin" -"01140028A","15307-79-6","Diclofenac sodium" -"01140030A","2550-40-5","Dicyclohexyl disulfide" -"01140032A","510-15-6","Chlorobenzilate" -"01140034A","2385-85-5","Mirex" -"01140036A","5915-41-3","Terbuthylazine" -"01140038A","6422-86-2","Bis(2-ethylhexyl) terephthalate" -"01140040A","27323-41-7","Dodecylbenzene sulfonate triethanolamine(1:1)" -"01140042A","3825-26-1","PFOA, ammonium salt" -"01140044A","24602-86-6","Tridemorph" -"01140046A","58-08-2","Caffeine" -"01140048A","65-85-0","Benzoic acid" -"01140050A","91-20-3","Naphthalene" -"01140052A","57-55-6","1,2-Propylene glycol" -"01140054A","84-66-2","Diethyl phthalate" -"01140056A","99-08-1","3-Nitrotoluene" -"01140058A","101-54-2","N-Phenyl-1,4-benzenediamine" -"01140060A","99-76-3","Methylparaben" -"01140062A","7632-00-0","Sodium nitrite" -"01140064A","120-71-8","2-Methoxy-5-methylaniline" -"01140066A","95-87-4","2,5-Dimethylphenol" -"01140068A","120-12-7","Anthracene" -"01140070A","111-69-3","Hexanedinitrile" -"01140072A","91-53-2","Ethoxyquin" -"01140074A","94-26-8","Butylparaben" -"01140076A","88-18-6","2-tert-Butylphenol" -"01140078A","132-64-9","Dibenzofuran" -"01140080A","83-32-9","Acenaphthene" -"01140082A","123-31-9","Hydroquinone" -"01140084A","106-46-7","1,4-Dichlorobenzene" -"01140086A","91-64-5","Coumarin" -"01140088A","87-62-7","2,6-Dimethylaniline" -"01140090A","96-48-0","4-Butyrolactone" -"01140092A","100-00-5","1-Chloro-4-nitrobenzene" -"01140094A","106-44-5","p-Cresol" -"01140096A","110-44-1","Sorbic acid" -"01140098A","51-28-5","2,4-Dinitrophenol" -"01140100A","98-01-1","Furfural" -"01140102A","375-85-9","Perfluoroheptanoic acid" -"01140104A","75-12-7","Formamide" -"01140106A","142-62-1","Hexanoic acid" -"01140108A","111-14-8","Heptanoic acid" -"01140110A","88-06-2","2,4,6-Trichlorophenol" -"01140112A","64-67-5","Diethyl sulfate" -"01140114A","643-79-8","1,2-Benzenedicarboxaldehyde" -"01140116A","118-52-5","1,3-Dichloro-5,5-dimethylhydantoin" -"01140118A","57-13-6","Urea" -"01140120A","95-95-4","2,4,5-Trichlorophenol" -"01140122A","78-59-1","Isophorone" -"01140124A","122-62-3","Bis(2-ethylhexyl) decanedioate" -"01140126A","120-47-8","Ethylparaben" -"01140128A","112-05-0","Nonanoic acid" -"01140130A","124-07-2","Octanoic acid" -"01140132A","105-67-9","2,4-Dimethylphenol" -"01140134A","58-55-9","Theophylline" -"01140136A","120-83-2","2,4-Dichlorophenol" -"01140138A","91-59-8","2-Naphthylamine" -"01140140A","123-42-2","Diacetone alcohol" -"01140142A","92-87-5","Benzidine" -"01140144A","100-51-6","Benzyl alcohol" -"01140146A","532-27-4","2-Chloroacetophenone" -"01140148A","99-99-0","4-Nitrotoluene" -"01140150A","119-90-4","3,3'-Dimethoxybenzidine" -"01140152A","83-41-0","1,2-Dimethyl-3-nitrobenzene" -"01140154A","101-55-3","p-Bromodiphenyl ether" -"01140156A","124-04-9","Hexanedioic acid" -"01140158A","98-95-3","Nitrobenzene" -"01140160A","115-77-5","Pentaerythritol" -"01140162A","134-03-2","Sodium L-ascorbate" -"01140164A","842-07-9","C.I. Solvent Yellow 14" -"01140166A","599-79-1","Sulfasalazine" -"01140168A","77-71-4","5,5-Dimethylhydantoin" -"01140170A","50-41-9","Clomiphene citrate (1:1)" -"01140172A","75-99-0","Dalapon" -"01140174A","111-42-2","Diethanolamine" -"01140176A","599-64-4","4-Cumylphenol" -"01140178A","131-55-5","2,2',4,4'-Tetrahydroxybenzophenone" -"01140180A","2943-75-1","Triethoxyoctylsilane" -"01140182A","123-25-1","Diethyl butanedioate" -"01140184A","7747-35-5","5-Ethyl-1-aza-3,7-dioxabicyclo[3.3.0]octane" -"01140186A","2243-62-1","1,5-Naphthalenediamine" -"01140188A","117-84-0","Dioctyl phthalate" -"01140190A","95-65-8","3,4-Dimethylphenol" -"01140192A","89-72-5","2-(Butan-2-yl)phenol" -"01140194A","3739-38-6","3-Phenoxybenzoic acid" -"01140196A","33703-08-1","Hexanedioic acid, diisononyl ester" -"01140198A","1843-05-6","Octabenzone" -"01140200A","60-56-0","Methimazole" -"01140202A","838-88-0","4,4'-Methylenebis(2-methylaniline)" -"01140204A","51-30-9","Isoproterenol hydrochloride" -"01140206A","528-29-0","1,2-Dinitrobenzene" -"01140208A","49562-28-9","Fenofibrate" -"01140210A","119-36-8","Methyl salicylate" -"01140212A","112-25-4","2-(Hexyloxy)ethanol" -"01140214A","128-04-1","Sodium dimethyldithiocarbamate" -"01140216A","2795-39-3","PFOS-K" -"01140218A","96-70-8","2-tert-Butyl-4-ethylphenol" -"01140220A","95-54-5","1,2-Phenylenediamine" -"01140222A","108-59-8","Dimethyl malonate" -"01140224A","99-66-1","Valproic acid" -"01140226A","375-95-1","PFNA" -"01140228A","105-60-2","Caprolactam" -"01140230A","576-26-1","2,6-Dimethylphenol" -"01140232A","3855-32-1","2,6,10-Trimethyl-2,6,10-triazaundecane" -"01140234A","102-71-6","Triethanolamine" -"01140236A","1303-11-3","Indium arsenide" -"01140238A","6381-77-7","Sodium erythorbate (1:1)" -"01140240A","621-64-7","N-Nitrosodipropylamine" -"01140242A","96-29-7","2-Butanone oxime" -"01140244A","55-98-1","Busulfan" -"01140246A","99-51-4","1,2-Dimethyl-4-nitrobenzene" -"01140248A","584-84-9","Toluene-2,4-diisocyanate" -"01140250A","77-48-5","1,3-Dibromo-5,5-dimethylhydantoin" -"01140252A","3871-99-6","PFHS-K" -"01140254A","3033-77-0","N,N,N-Trimethyl(oxiran-2-yl)methanaminium chloride" -"01140256A","924-16-3","N-Nitrosodibutylamine" -"01140258A","55285-14-8","Carbosulfan" -"01140260A","1445-75-6","Diisopropyl methylphosphonate" -"01140262A","72-55-9","p,p'-DDE" -"01140264A","51-21-8","5-Fluorouracil" -"01140266A","121-91-5","1,3-Benzenedicarboxylic acid" -"01140268A","126-73-8","Tributyl phosphate" -"01140270A","94-13-3","Propylparaben" -"01140272A","65-23-6","Pyridoxine" -"01140274A","627-93-0","Dimethyl adipate" -"01140276A","149-57-5","2-Ethylhexanoic acid" -"01140278A","102-76-1","Triacetin" -"01140280A","288-88-0","1H-1,2,4-Triazole" -"01140282A","120-61-6","Dimethyl terephthalate" -"01140284A","108-46-3","Resorcinol" -"01140286A","112-70-9","1-Tridecanol" -"01140288A","151-21-3","Sodium dodecyl sulfate" -"01140290A","101-86-0","2-Benzylideneoctanal" -"01140292A","101-77-9","4,4'-Methylenedianiline" -"01140294A","60-54-8","Tetracycline" -"01140296A","99-59-2","2-Methoxy-5-nitroaniline" -"01140298A","606-20-2","2,6-Dinitrotoluene" -"01140300A","2104-64-5","EPN" -"01140302A","55290-64-7","Dimethipin" -"01140304A","33820-53-0","Isopropalin" -"01140306A","112-30-1","1-Decanol" -"01140308A","136-77-6","4-Hexylresorcinol" -"01140310A","57-83-0","Progesterone" -"01140312A","4418-26-2","Sodium dehydroacetate" -"01140314A","112-00-5","Dodecyltrimethylammonium chloride" -"01140316A","309-00-2","Aldrin" -"01140318A","1156-19-0","Tolazamide" -"01140320A","77-40-7","Bisphenol B" -"01140322A","5392-40-5","3,7-Dimethyl-2,6-octadienal" -"01140324A","77-92-9","Citric acid" -"01140326A","143-50-0","Kepone" -"01140328A","872-50-4","N-Methyl-2-pyrrolidone" -"01140330A","73-22-3","l-Tryptophan" -"01140332A","111-87-5","1-Octanol" -"01140334A","145-73-3","Endothal" -"01140336A","104-67-6","5-Heptyldihydro-2(3H)-furanone" -"01140338A","141-43-5","Ethanolamine" -"01140340A","53-03-2","Prednisone" -"01140342A","57-63-6","17alpha-Ethinylestradiol" -"01140344A","828-00-2","Dimethoxane" -"01140346A","116-25-6","1-(Hydroxymethyl)-5,5-dimethylhydantoin" -"01140348A","110-85-0","Piperazine" -"01140350A","97-53-0","Eugenol" -"01140352A","98-54-4","4-tert-Butylphenol" -"01140354A","117-79-3","2-Aminoanthraquinone" -"01140356A","103-90-2","Acetaminophen" -"01140358A","7378-99-6","N,N-Dimethyloctylamine" -"01140360A","127-07-1","Hydroxyurea" -"01140362A","1934-21-0","FD&C Yellow 5" -"01140364A","84-75-3","Dihexyl phthalate" -"01140366A","25956-17-6","Allura Red C.I.16035" -"01140368A","106-65-0","Dimethyl succinate" -"01140370A","105-99-7","Dibutyl hexanedioate" -"01140372A","92-52-4","Biphenyl" -"01140374A","584-13-4","4-Amino-1,2,4-triazole" -"01140376A","101-20-2","Triclocarban" -"01140378A","298-46-4","Carbamazepine" -"01140380A","5216-25-1","4-Chlorobenzotrichloride" -"01140382A","79-94-7","3,3',5,5'-Tetrabromobisphenol A" -"01140384A","68515-49-1","1,2-Benzenedicarboxylic acid, di-C9-11-branched alkyl esters, C10-rich" -"01140386A","126-86-3","2,4,7,9-Tetramethyl-5-decyne-4,7-diol" -"01140388A","149-30-4","2-Mercaptobenzothiazole" -"01140390A","78-42-2","Tris(2-ethylhexyl) phosphate" -"01140392A","80-08-0","Dapsone" -"01140394A","629-76-5","1-Pentadecanol" -"01140396A","111-82-0","Methyl dodecanoate" -"01140398A","112-49-2","Triethylene glycol dimethyl ether" -"01140400A","105-87-3","Geranyl acetate" -"01140402A","1120-71-4","1,3-Propane sultone" -"01140404A","115-96-8","Tris(2-chloroethyl) phosphate" -"01140406A","88-12-0","N-Vinyl-2-pyrrolidone" -"01140408A","91-22-5","Quinoline" -"01140410A","121-33-5","4-Hydroxy-3-methoxybenzaldehyde" -"01140412A","614-45-9","tert-Butyl perbenzoate" -"01140414A","80-43-3","Dicumyl peroxide" -"01140416A","93-15-2","Methyleugenol" -"01140418A","23593-75-1","Clotrimazole" -"01140420A","100-54-9","3-Pyridinecarbonitrile" -"01140422A","141-04-8","Diisobutyl adipate" -"01140424A","150-68-5","Monuron" -"01140426A","732-26-3","2,4,6-Tris(tert-butyl)phenol" -"01140428A","111-76-2","2-Butoxyethanol" -"01140430A","112-50-5","2-[2-(2-Ethoxyethoxy)ethoxy]ethanol" -"01140432A","2451-62-9","Triglycidyl isocyanurate" -"01140434A","112-53-8","1-Dodecanol" -"01140436A","4455-26-9","N-Methyldioctylamine" -"01140438A","78-63-7","2,5-Dimethyl-2,5-di-(tert-butylperoxy)hexane" -"01140440A","29590-42-9","Isooctyl acrylate" -"01140442A","2783-94-0","FD&C Yellow 6" -"01140444A","79902-63-9","Simvastatin" -"01140446A","86479-06-3","Hexaflumuron" -"01140448A","27955-94-8","4,4',4""-Ethane-1,1,1-triyltriphenol" -"01140450A","124-94-7","Triamcinolone" -"01140452A","754-91-6","PFOSA" -"01140454A","110-62-3","Pentanal" -"01140456A","99-97-8","N,N,4-Trimethylaniline" -"01140458A","527-60-6","2,4,6-Trimethylphenol" -"01140460A","57-50-1","Sucrose" -"01140462A","50-55-5","Reserpine" -"01140464A","1260-17-9","Carminic acid" -"01140466A","99-54-7","3,4-Dichloronitrobenzene" -"01140468A","112-72-1","1-Tetradecanol" -"01140470A","126-11-4","2-(Hydroxymethyl)-2-nitro-1,3-propanediol" -"01140472A","13311-84-7","Flutamide" -"01140474A","10540-29-1","Tamoxifen" -"01140476A","2687-25-4","2,3-Diaminotoluene" -"01140478A","54-11-5","Nicotine" -"01140480A","137-30-4","Ziram" -"01140482A","115-86-6","Triphenyl phosphate" -"01140484A","1929-77-7","Vernolate" -"01140486A","115-28-6","Chlorendic acid" -"01140488A","72-54-8","p,p'-DDD" -"01140490A","95-80-7","2,4-Diaminotoluene" -"01140492A","56-81-5","Glycerol" -"01140494A","79-06-1","Acrylamide" -"01140496A","50-78-2","Aspirin" -"01140498A","121-00-6","2-tert-Butyl-4-methoxyphenol" -"01140500A","262376-75-0","HMR1426" -"01140502A","725228-45-5","AVE5638" -"01140504A","929601-09-2","SR58611" -"01140506A","NOCAS_47342","SR125047" -"01140508A","NOCAS_47374","SSR161421" -"01140510A","189003-92-7","Trelanserin" -"01140512A","NOCAS_47334","MK-968" -"01140514A","742693-38-5","SSR504734" -"01140516A","155990-20-8","SR271425" -"01140518A","NOCAS_47330","PharmaGSID_47330" -"01140520A","1068967-96-3","SAR102608" -"01140522A","473289-62-2","Ilepatril" -"01140524A","NOCAS_47346","SSR162369" -"01140526A","139290-65-6","Volinanserin" -"01140528A","NOCAS_47366","SAR115740" -"01140530A","298198-52-4","SSR180711" -"01140532A","NOCAS_47333","PharmaGSID_47333" -"01140534A","NOCAS_47362","SSR150106" -"01140536A","NOCAS_47351","SSR240612" -"01140538A","210826-40-7","CP-456773" -"01140540A","197077-55-7","UK-333747" -"01140542A","158081-99-3","CP-105696" -"01140544A","220860-50-4","CP-457920" -"01140546A","179465-71-5","CJ-013790" -"01140548A","290352-28-2","CP-634384" -"01140550A","135080-03-4","CP-100829" -"01140552A","501027-49-2","PD-0333941" -"01140554A","89-04-3","Trioctyl trimellitate" -"01140558A","194098-25-4","CP-409092" -"01140560A","484-17-3","9-Phenanthrol" -"01140562A","289716-94-5","CP-607366" -"01140564A","349495-42-7","PharmaGSID_47263" -"01140566A","177785-47-6","PharmaGSID_47261" -"01140568A","527680-56-4","PHA-00568487" -"01140570A","478149-53-0","PHA-00543613" -"01140572A","57-74-9","Chlordane" -"01140574A","261947-38-0","CP-532623" -"01140576A","134002-60-1","CP-085958" -"01140578A","113734-18-2","CP-114271" -"01140580A","249296-43-3","CJ-013610" -"01140582A","NOCAS_47265","CP-471358" -"01140584A","124378-77-4","Enadoline" -"01140586A","214535-77-0","CP-457677" -"01140588A","112733-06-9","Zenarestat" -"01140590A","199171-88-5","CP-401387" -"01140592A","253450-09-8","Besonprodil" -"01140594A","445295-04-5","CP-671305" -"01140596A","361343-19-3","Elzasonan" -"01140598A","NOCAS_47248","CI-1018" -"01140600A","27138-31-4","Di(propylene glycol) dibenzoate" -"01140602A","678-39-7","1,1,2,2-Tetrahydroperfluoro-1-decanol" -"01140604A","2155-70-6","Tributyltin methacrylate" -"01140608A","120-82-1","1,2,4-Trichlorobenzene" -"01140610A","169590-42-5","Celecoxib" -"01140612A","4291-63-8","Cladribine" -"01140614A","111-21-7","Triethylene glycol diacetate" -"01140616A","7173-51-5","Didecyldimethylammonium chloride" -"01140618A","3296-90-0","2,2-Bis(bromomethyl)-1,3-propanediol" -"01140620A","79-44-7","Dimethylcarbamoyl chloride" -"01140622A","334-48-5","Decanoic acid" -"01140624A","100-02-7","4-Nitrophenol" -"01140626A","1119-40-0","Dimethyl glutarate" -"01140628A","118-71-8","Maltol" -"01140630A","96-76-4","2,4-Di-tert-butylphenol" -"01140632A","6055-19-2","Cyclophosphamide monohydrate" -"01140634A","50-29-3","p,p'-DDT" -"01140636A","302-79-4","all-trans-Retinoic acid" -"01140638A","112-27-6","Triethylene glycol" -"01140640A","97-54-1","Isoeugenol" -"01140642A","1461-22-9","Tributyltin chloride" -"01140644A","4151-50-2","Sulfluramid" -"01140646A","131-18-0","Dipentyl phthalate" -"01140648A","1948-33-0","tert-Butylhydroquinone" -"01140650A","111-90-0","2-(2-Ethoxyethoxy)ethanol" -"01140652A","111-46-6","Diethylene glycol" -"01140654A","80-46-6","4-(2-Methylbutan-2-yl)phenol" -"01140656A","112-34-5","2-(2-Butoxyethoxy)ethanol" -"01140658A","99-71-8","4-(Butan-2-yl)phenol" -"01140660A","80844-07-1","Etofenprox" -"01140662A","150-13-0","4-Aminobenzoic acid" -"01140664A","111-77-3","Diethylene glycol monomethyl ether" -"01140666A","107-88-0","1,3-Butanediol" -"01140668A","108-11-2","4-Methyl-2-pentanol" -"01140670A","26628-22-8","Sodium azide" -"01140672A","579-66-8","2,6-Diethylaniline" -"01140674A","134-20-3","Methyl 2-aminobenzoate" -"01140676A","148-24-3","8-Hydroxyquinoline" -"01140678A","59-50-7","4-Chloro-3-methylphenol" -"01140680A","90-04-0","2-Anisidine" -"01140682A","102-60-3","N,N,N',N'-Tetrakis(2-Hydroxypropyl)ethylenediamine" -"01140684A","121-79-9","Propyl gallate" -"01140686A","59756-60-4","Fluridone" -"01140688A","104-40-5","4-Nonylphenol" -"01140690A","2433-14-9","4-Cyclohexylcyclohexanol" -"01140692A","84371-65-3","Mifepristone" -"01140694A","2416-94-6","2,3,6-Trimethylphenol" -"01140696A","1120-36-1","1-Tetradecene" -"01140698A","59-87-0","Nitrofurazone" -"01140700A","1806-26-4","4-Octylphenol" -"01140702A","140-66-9","4-(1,1,3,3-Tetramethylbutyl)phenol" -"01140704A","92-84-2","Phenothiazine" -"01140706A","60-09-3","4-Aminoazobenzene" -"01140708A","81-90-3","Phenolphthalin" -"01140710A","59-67-6","Nicotinic acid" -"01140714A","15310-01-7","Benodanil" -"01140716A","NOCAS_47387","SAR102779" -"01140718A","1861-32-1","Chlorthal-dimethyl" -"01140720A","NOCAS_47328","MK-274" -"01140722A","NOCAS_47377","AVE6324" -"01140724A","97-56-3","2-Amino-5-azotoluene" -"01140726A","94-59-7","Safrole" -"01140728A","57-91-0","17alpha-Estradiol" -"01140730A","108-93-0","Cyclohexanol" -"01140732A","7631-86-9","Silica" -"01140734A","33228-44-3","4-Pentylaniline" -"01140736A","108-01-0","Dimethylaminoethanol" -"01140738A","107-41-5","2-Methyl-2,4-pentanediol" -"01140740A","534-52-1","2-Methyl-4,6-dinitrophenol" -"01140742A","6846-50-0","2,2,4-Trimethyl-1,3-pentanediol diisobutyrate" -"01140744A","140-64-7","Pentamidine isethionate" -"01140746A","106-87-6","4-Vinyl-1-cyclohexene dioxide" -"01140748A","91-62-3","6-Methylquinoline" -"01140750A","92-68-2","4-Cyclohexylcyclohexanone" -"01140752A","5877-42-9","4-Ethyloct-1-yn-3-ol" -"01140754A","63612-50-0","Nilutamide" -"01140756A","52-01-7","Spironolactone" -"01140758A","15619-48-4","1-Benzylquinolinium chloride" -"01140760A","36673-16-2","Isopropyl triethanolamine titanate" -"01140762A","13071-79-9","Terbufos" -"01140764A","1987-50-4","4-Heptylphenol" -"01140766A","7758-19-2","Sodium chlorite" -"01140768A","82640-04-8","Raloxifene hydrochloride" -"01140770A","111-30-8","Glutaraldehyde" -"01140772A","84-16-2","meso-Hexestrol" -"01140774A","107-98-2","1-Methoxy-2-propanol" -"01140776A","62-75-9","N-Nitrosodimethylamine" -"01140778A","123-51-3","Isopentyl alcohol" -"01140780A","486-66-8","Daidzein" -"01140782A","57-85-2","Testosterone propionate" -"01140784A","135-19-3","2-Naphthalenol" -"01140786A","427-51-0","Cyproterone acetate" -"01140788A","77-89-4","Acetyltriethyl citrate" -"01140790A","108-45-2","1,3-Benzenediamine" -"01140792A","824-78-2","Sodium 4-nitrophenolate" -"01140794A","744-45-6","Diphenyl isophthalate" -"01140796A","446-86-6","Azathioprine" -"01140798A","2605-79-0","N,N-Dimethyldecylamine oxide" -"01140800A","108-80-5","Cyanuric acid" -"01140802A","97-77-8","Disulfiram" -"01140804A","5349-51-9","4-(2-Methylbutan-2-yl)cyclohexanol" -"01140806A","106-49-0","4-Methylaniline" -"01140808A","10605-21-7","Carbendazim" -"01140810A","307-24-4","PFHxA" -"01140812A","98-87-3","Benzal chloride" -"01140814A","7487-94-7","Mercuric chloride" -"01140816A","826-62-0","2-Norbornene-5,6-dicarboxylic anhydride" -"01140818A","102-27-2","N-Ethyl-3-methylaniline" -"01140820A","69-74-9","Cytarabine hydrochloride" -"01140822A","206-44-0","Fluoranthene" -"01140824A","107534-96-3","Tebuconazole" -"01140826A","103-33-3","Azobenzene" -"01140828A","121-14-2","2,4-Dinitrotoluene" -"01140830A","122-66-7","1,2-Diphenylhydrazine" -"01140832A","56-04-2","6-Methyl-2-thiouracil" -"01140834A","51-79-6","Urethane" -"01140836A","2144-53-8","Tridecafluorohexylethyl methacrylate" -"01140838A","577-11-7","Docusate sodium" -"01140840A","3319-31-1","Tris(2-ethylhexyl) trimellitate" -"01140842A","25155-30-0","Sodium dodecylbenzenesulfonate" -"01140844A","335-76-2","PFDA" -"01140846A","147-24-0","Diphenhydramine hydrochloride" -"01140848A","56-53-1","Diethylstilbestrol" -"01140850A","1034-01-1","Octyl gallate" -"01140852A","496-72-0","3,4-Diaminotoluene" -"01140854A","95-94-3","1,2,4,5-Tetrachlorobenzene" -"01140856A","2835-95-2","5-Amino-2-methylphenol" -"01140858A","111-44-4","Bis(2-chloroethyl) ether" -"01140860A","100-97-0","Methenamine" -"01140862A","117-39-5","Quercetin" -"01140864A","647-42-7","3,3,4,4,5,5,6,6,7,7,8,8,8-Tridecafluorooctan-1-ol" -"01140866A","72-20-8","Endrin" -"01140868A","84-69-5","Diisobutyl phthalate" -"01140870A","72178-02-0","Fomesafen" -"01140872A","106-47-8","4-Chloroaniline" -"01140874A","55-18-5","N-Nitrosodiethylamine" -"01140876A","76-44-8","Heptachlor" -"01140878A","627-18-9","3-Bromo-1-propanol" -"01140880A","57-97-6","7,12-Dimethylbenz(a)anthracene" -"01140882A","82385-42-0","Sodium saccharin hydrate" -"01140884A","68-26-8","Retinol" -"01140886A","81-81-2","Warfarin" -"01140888A","25265-71-8","Dipropylene glycol" -"01140890A","30516-87-1","3'-Azido-3'-deoxythymidine" -"01140892A","86386-73-4","Fluconazole" -"01140894A","3147-75-9","Octrizole" -"01140896A","87-61-6","1,2,3-Trichlorobenzene" -"01140898A","548-62-9","Gentian Violet" -"01140900A","58-14-0","Pyrimethamine" -"01140902A","2176-62-7","Pentachloropyridine" -"01140904A","59-30-3","Folic acid" -"01140906A","101-80-4","4,4'-Oxydianiline" -"01140908A","62-23-7","4-Nitrobenzoic acid" -"01140910A","6915-15-7","Malic acid" -"01140912A","3811-73-2","Sodium (2-pyridylthio)-N-oxide" -"01140914A","112-38-9","10-Undecenoic acid" -"01140916A","52-51-7","Bronopol" -"01140918A","106-24-1","Geraniol" -"01140920A","131-17-9","Diallyl phthalate" -"01140922A","101-61-1","4,4'-Methylenebis(N,N-dimethylaniline)" -"01140924A","99-55-8","2-Methyl-5-nitroaniline" -"01140926A","532-32-1","Sodium benzoate" -"01140928A","4180-23-8","(E)-Anethole" -"01140930A","22915-73-7","Hexane-1,6-diyl dibenzoate" -"01140932A","2432-87-3","Dioctyl succinate" -"01140934A","6624-73-3","Pentane-1,5-diyl dibenzoate" -"01140936A","82469-79-2","Butyryl trihexyl citrate" -"01140938A","120-55-8","Diethylene glycol dibenzoate" -"01140940A","67-20-9","Nitrofurantoin" -"01140942A","2058-46-0","Oxytetracycline hydrochloride" -"01140944A","56-55-3","Benz(a)anthracene" -"01140946A","100-01-6","4-Nitroaniline" -"01140948A","563-12-2","Ethion" -"01140950A","2921-88-2","Chlorpyrifos" -"01140952A","133-90-4","Chloramben" -"01140954A","69-09-0","Chlorpromazine hydrochloride" -"01140956A","50892-23-4","Pirinixic acid" -"01140958A","99-65-0","1,3-Dinitrobenzene" -"01140960A","64-86-8","Colchicine" -"01140962A","26530-20-1","Octhilinone" -"01140964A","103-24-2","Bis(2-ethylhexyl) nonanedioate" -"01140966A","108-44-1","3-Methylaniline" -"01140968A","34590-94-8","Dipropylene glycol monomethyl ether" -"01140970A","86-73-7","Fluorene" -"01140972A","85-01-8","Phenanthrene" -"01140974A","50-35-1","Thalidomide" -"01140976A","104795-68-8","CI-959" -"01140978A","95-83-0","4-Chloro-1,2-diaminobenzene" -"01140980A","91-66-7","N,N-Diethylaniline" -"01140982A","446-72-0","Genistein" -"01140984A","3056-17-5","Stavudine" -"01140986A","63-05-8","4-Androstene-3,17-dione" -"01140988A","86-30-6","N-Nitrosodiphenylamine" -"01140990A","112529-15-4","Pioglitazone hydrochloride" -"01140992A","84852-15-3","4-Nonylphenol, branched" -"01140994A","69655-05-6","2',3'-Dideoxyinosine" -"01140996A","52-86-8","Haloperidol" -"01140998A","29420-49-3","PFBS-K" -"01141000A","66-27-3","Methyl methanesulfonate" -"01141002A","79-16-3","N-Methylacetamide" -"01141004A","76-03-9","Trichloroacetic acid" -"01141006A","25498-49-1","Tripropylene glycol monomethyl ether" -"01141008A","139-13-9","Nitrilotriacetic acid" -"01141010A","57-41-0","5,5-Diphenylhydantoin" -"01141012A","637-07-0","Clofibrate" -"01141014A","2772-45-4","2,4-Bis(1-methyl-1-phenylethyl)phenol" -"01141016A","88-60-8","2-tert-Butyl-5-methylphenol" -"01141018A","128-39-2","2,6-Di-tert-butylphenol" -"01141020A","NOCAS_47255","CP-465394" -"01141022A","136-60-7","Butyl benzoate" -"01141024A","556-67-2","Octamethylcyclotetrasiloxane" -"01141026A","87-69-4","L-Tartaric acid" -"01141028A","90-94-8","Michler's ketone" -"01141030A","41372-08-1","Methyldopa sesquihydrate" -"01141032A","57-11-4","Octadecanoic acid" -"01141034A","50-28-2","17beta-Estradiol" -"01141036A","544-76-3","Hexadecane" -"01141038A","5315-79-7","1-Hydroxypyrene" -"01141040A","106-25-2","(2Z)-3,7-Dimethylocta-2,6-dien-1-ol" -"01141042A","27178-16-1","Diisodecyl hexanedioate" -"01141044A","94-28-0","Triethylene glycol bis(2-ethylhexanoate)" -"01141046A","1836-75-5","Nitrofen" -"01141048A","69-65-8","D-Mannitol" -"01141050A","54965-24-1","Tamoxifen citrate" -"01141052A","58-93-5","Hydrochlorothiazide" -"01141054A","629-62-9","Pentadecane" -"01141056A","110-26-9","N,N'-Methylenebisacrylamide" -"01141058A","88-58-4","2,5-Di-tert-butylbenzene-1,4-diol" -"01141060A","112-42-5","1-Undecanol" -"01141062A","51-52-5","6-Propyl-2-thiouracil" -"01141064A","154-42-7","6-Thioguanine" -"01141066A","119-93-7","3,3'-Dimethylbenzidine" -"01141068A","77-09-8","Phenolphthalein" -"01141070A","80-15-9","Cumene hydroperoxide" -"01141072A","1143-38-0","Anthralin" -"01141074A","205-99-2","Benzo(b)fluoranthene" -"01141076A","120-95-6","2,4-Bis(2-methylbutan-2-yl)phenol" -"01141078A","291305-06-1","UK-373911" -"01141080A","127308-82-1","Zamifenacin" -"01141082A","402910-27-4","UK-416244" -"01141084A","NOCAS_47299","CP-422935" -"01141086A","230954-09-3","CP-544439" -"01141088A","NOCAS_47291","CI-1044" -"01141090A","353280-07-6","CP-612372" -"01141092A","668981-02-0","CP-863187" -"01141094A","1300-72-7","Sodium xylenesulfonate" -"01141096A","4904-61-4","1,5,9-Cyclododecatriene" -"01141098A","50-22-6","Corticosterone" -"01141100A","129-00-0","Pyrene" -"01141102A","32809-16-8","Procymidone" -"01141104A","95-14-7","1,2,3-Benzotriazole" -"01141106A","80-05-7","Bisphenol A" -"01141108A","77-47-4","Hexachlorocyclopentadiene" -"01141110A","27176-87-0","Dodecylbenzenesulfonic acid" -"01141112A","60-57-1","Dieldrin" -"01141114A","85-68-7","Butyl benzyl phthalate" -"01141118A","166412-78-8","Diisononyl cyclohexane-1,2-dicarboxylate" -"01141120A","131860-33-8","Azoxystrobin" -"01141122A","19044-88-3","Oryzalin" -"01141124A","55219-65-3","Triadimenol" -"01141126A","120-32-1","Clorophene" -"01141128A","608-73-1","1,2,3,4,5,6-Hexachlorocyclohexane" -"01141130A","584-79-2","Allethrin" -"01141132A","3380-34-5","Triclosan" -"01141134A","53894-23-8","Triisononyl trimellitate" -"01141136A","108-67-8","1,3,5-Trimethylbenzene" -"01141138A","51-24-1","Tiratricol" -"01141140A","68392-35-8","4-Hydroxytamoxifen" -"01141142A","797-63-7","Norgestrel" -"01141144A","105624-86-0","5HPP-33" -"01141146A","6344-67-8","3-Hydroxyfluorene" -"01141148A","1024-57-3","Heptachlor epoxide" -"01141150A","2528-16-7","Monobenzyl phthalate" -"01141152A","1563-66-2","Carbofuran" -"01141154A","110235-47-7","Mepanipyrim" -"01141162A","107-21-1","Ethylene glycol" -"01141164A","77-78-1","Dimethyl sulfate" -"01141166A","149413-74-1","FR150011" -"01141168A","146011-65-6","FR145237" -"01141170A","4098-71-9","Isophorone diisocyanate" -"01141172A","174185-16-1","FR167356" -"01141174A","102409-92-7","FR073317" -"01141176A","138472-01-2","FR900409" -"01141178A","NOCAS_48172","PharmaGSID_48172" -"01141180A","136042-19-8","FR130739" -"01141182A","129299-90-7","Fabesetron hydrochloride" -"01141184A","10161-33-8","17beta-Trenbolone" -"01141186A","789-02-6","o,p'-DDT" -"01141188A","929-59-9","2,2'-[Ethane-1,2-diylbis(oxy)]diethanamine" -"01141190A","91082-17-6","C10-21 sulfonic acids phenyl esters" -"01141192A","57-30-7","Phenobarbital sodium" -"01141194A","68-96-2","17alpha-Hydroxyprogesterone" -"01141196A","8000-34-8","Clove leaf oil" -"01141200A","6893-02-3","3,5,3'-Triiodothyronine" -"01141202A","1478-61-1","Bisphenol AF" -"01141204A","60-35-5","Acetamide" -"01141206A","68-22-4","Norethindrone" -"01141208A","53-16-7","Estrone" -"01141210A","35256-85-0","Butam" -"01141212A","1111-78-0","Ammonium carbamate" -"01141214A","2687-96-9","1-Dodecyl-2-pyrrolidinone" -"01141216A","1338-43-8","Sorbitan, mono-(9Z)-9-octadecenoate" -"01141218A","123-35-3","Myrcene" -"01141220A","79-43-6","Dichloroacetic acid" -"01141222A","127-51-5","alpha-Isomethylionone" -"01141224A","123-01-3","Dodecylbenzene" -"01141226A","62-38-4","Phenylmercuric acetate" -"01141228A","10222-01-2","2,2-Dibromo-3-nitrilopropionamide" -"01141230A","1191-50-0","Sodium myristyl sulfate" -"01141232A","2634-33-5","1,2-Benzisothiazolin-3-one" -"01141234A","88-85-7","Dinoseb" -"01141236A","208-96-8","Acenaphthylene" -"01141238A","650-51-1","Sodium trichloroacetate" -"01141240A","20325-40-0","3,3'-Dimethoxybenzidine dihydrochloride" -"01141242A","331623-06-4","MK-547" -"01141244A","96-23-1","1,3-Dichloro-2-propanol" -"01141246A","129453-61-8","Fulvestrant" -"01141252A","119-61-9","Benzophenone" -"01141254A","103-23-1","Di(2-ethylhexyl) adipate" -"11140700A","1806-26-4","4-Octylphenol" -"11140702A","140-66-9","4-(1,1,3,3-Tetramethylbutyl)phenol" -"11140704A","92-84-2","Phenothiazine" -"11140794A","744-45-6","Diphenyl isophthalate" -"11141106A","80-05-7","Bisphenol A" -"11141120A","131860-33-8","Azoxystrobin" -"11141122A","19044-88-3","Oryzalin" -"11141124A","55219-65-3","Triadimenol" -"11141126A","120-32-1","Clorophene" -"11141130A","584-79-2","Allethrin" -"11141132A","3380-34-5","Triclosan" -"21140700A","1806-26-4","4-Octylphenol" -"21140702A","140-66-9","4-(1,1,3,3-Tetramethylbutyl)phenol" -"21140704A","92-84-2","Phenothiazine" -"21140794A","744-45-6","Diphenyl isophthalate" -"21141106A","80-05-7","Bisphenol A" -"21141120A","131860-33-8","Azoxystrobin" -"21141122A","19044-88-3","Oryzalin" -"21141124A","55219-65-3","Triadimenol" -"21141126A","120-32-1","Clorophene" -"21141130A","584-79-2","Allethrin" -"21141132A","3380-34-5","Triclosan" -"BF00107322","55566-30-8","Tetrakis(hydroxymethyl)phosphonium sulfate" -"BF00128067","60-51-5","Dimethoate" -"BF00128068","115-32-2","Dicofol" -"BF00128069","141-66-2","Dicrotophos" -"BF00128070","134605-64-4","Butafenacil" -"BF00128071","131341-86-1","Fludioxonil" -"BF00128072","79241-46-6","Fluazifop-P-butyl" -"BF00128073","68694-11-1","Triflumizole" -"BF00128075","173584-44-6","Indoxacarb" -"BF00128076","29091-21-2","Prodiamine" -"BF00128078","68157-60-8","Forchlorfenuron" -"BF00128079","120068-37-3","Fipronil" -"BF00128080","97886-45-8","Dithiopyr" -"BF00128081","103361-09-7","Flumioxazin" -"BF00128082","122008-85-9","Cyhalofop-butyl" -"BF00128083","128639-02-1","Carfentrazone-ethyl" -"BF00128084","131807-57-3","Famoxadone" -"BF00128085","57966-95-7","Cymoxanil" -"BF00128086","57837-19-1","Metalaxyl" -"BF00128087","23031-36-9","Prallethrin" -"BF00128088","156052-68-5","Zoxamide" -"BF00128090","112281-77-3","Tetraconazole" -"BF00128091","74051-80-2","Sethoxydim" -"BF00128092","161050-58-4","Methoxyfenozide" -"BF00128094","113136-77-9","Cyclanilide" -"BF00128096","94361-06-5","Cyproconazole" -"BF00128097","298-00-0","Methyl parathion" -"BF00128098","23184-66-9","Butachlor" -"BF00128099","81777-89-1","Clomazone" -"BF00128100","149979-41-9","Tepraloxydim" -"BF00128101","52315-07-8","Cypermethrin" -"BF00128102","42874-03-3","Oxyfluorfen" -"BF00128103","35575-96-3","Azamethiphos" -"BF00128104","10043-35-3","Boric acid" -"BF00128105","55-38-9","Fenthion" -"BF00128106","15972-60-8","Alachlor" -"BF00128107","52-68-6","Trichlorfon" -"BF00128108","122-14-5","Fenitrothion" -"BF00128109","7287-19-6","Prometryn" -"BF00128110","1582-09-8","Trifluralin" -"BF00128111","1861-40-1","Benfluralin" -"BF00128112","43121-43-3","Triadimefon" -"BF00128114","40487-42-1","Pendimethalin" -"BF00128115","10265-92-6","Methamidophos" -"BF00128116","1698-60-8","Chloridazon" -"BF00128117","144550-36-7","Iodosulfuron-methyl-sodium" -"BF00128118","123312-89-0","Pymetrozine" -"BF00128119","42509-80-8","Isazofos" -"BF00128120","16752-77-5","Methomyl" -"BF00128121","2593-15-9","Etridiazole" -"BF00128122","335-67-1","PFOA" -"BF00128123","87-90-1","Symclosene" -"BF00128124","101-10-0","Cloprop" -"BF00128125","55406-53-6","3-Iodo-2-propynyl-N-butylcarbamate" -"BF00128126","136-45-8","Dipropyl pyridine-2,5-dicarboxylate" -"BF00128127","3380-34-5","Triclosan" -"BF00128128","1929-82-4","Nitrapyrin" -"BF00128129","15299-99-7","Napropamide" -"BF00128130","134-62-3","DEET" -"BF00128131","94-82-6","2,4-DB" -"BF00128132","36734-19-7","Iprodione" -"BF00128133","66215-27-8","Cyromazine" -"BF00128134","4376-18-5","Monomethyl phthalate" -"BF00128135","120-32-1","Clorophene" -"BF00128136","63-25-2","Carbaryl" -"BF00128137","6153-64-6","Oxytetracycline dihydrate" -"BF00128138","1918-00-9","Dicamba" -"BF00128139","330-54-1","Diuron" -"BF00128140","55219-65-3","Triadimenol" -"BF00128141","50471-44-8","Vinclozolin" -"BF00128142","69377-81-7","Fluroxypyr" -"BF00128143","53112-28-0","Pyrimethanil" -"BF00128144","138261-41-3","Imidacloprid" -"BF00128145","23103-98-2","Pirimicarb" -"BF00128146","78587-05-0","Hexythiazox" -"BF00128147","118134-30-8","Spiroxamine" -"BF00128148","199119-58-9","Trifloxysulfuron-sodium" -"BF00128149","188489-07-8","Flufenpyr-ethyl" -"BF00128165","153719-23-4","Thiamethoxam" -"BF00128166","81334-34-1","Imazapyr" -"BF00128167","741-58-2","Bensulide" -"BF00128168","84087-01-4","Quinclorac" -"BF00128169","76738-62-0","Paclobutrazol" -"BF00128170","300-76-5","Naled" -"BF00128171","5598-13-0","Chlorpyrifos-methyl" -"BF00128172","1007-28-9","Deisopropylatrazine" -"BF00128173","30560-19-1","Acephate" -"BF00128174","71751-41-2","Abamectin" -"BF00128175","333-41-5","Diazinon" -"BF00128176","27314-13-2","Norflurazon" -"BF00128177","51707-55-2","Thidiazuron" -"BF00128178","1134-23-2","Cycloate" -"BF00128179","66230-04-4","Esfenvalerate" -"BF00128180","81335-37-7","Imazaquin" -"BF00128181","39515-41-8","Fenpropathrin" -"BF00128182","1610-18-0","Prometon" -"BF00128183","51338-27-3","Diclofop-methyl" -"BF00128185","34256-82-1","Acetochlor" -"BF00128186","116-06-3","Aldicarb" -"BF00128187","110488-70-5","Dimethomorph" -"BF00128188","141112-29-0","Isoxaflutole" -"BF00128189","361377-29-9","Fluoxastrobin" -"BF00128190","111988-49-9","Thiacloprid" -"BF00128191","81406-37-3","Fluroxypyr-meptyl" -"BF00128192","85509-19-9","Flusilazole" -"BF00128193","79983-71-4","Hexaconazole" -"BF00128194","112410-23-8","Tebufenozide" -"BF00128195","35554-44-0","Imazalil" -"BF00128196","82558-50-7","Isoxaben" -"BF00128197","79538-32-2","Tefluthrin" -"BF00128198","124495-18-7","Quinoxyfen" -"BF00128199","104098-48-8","Imazapic" -"BF00128200","74115-24-5","Clofentezine" -"BF00128201","148-79-8","Thiabendazole" -"BF00128203","21087-64-9","Metribuzin" -"BF00128204","1897-45-6","Chlorothalonil" -"BF00128205","94-75-7","2,4-Dichlorophenoxyacetic acid" -"BF00128206","1194-65-6","Dichlobenil" -"BF00128208","122-39-4","Diphenylamine" -"BF00128209","420-04-2","Cyanamide" -"BF00128210","123-33-1","Maleic hydrazide" -"BF00128211","2425-06-1","Captafol" -"BF00128212","55335-06-3","Triclopyr" -"BF00128213","6734-80-1","Metam-sodium hydrate" -"BF00128214","2303-17-5","Tri-allate" -"BF00128215","126833-17-8","Fenhexamid" -"BF00128216","23135-22-0","Oxamyl" -"BF00128218","142459-58-3","Flufenacet" -"BF00128219","181274-15-7","Propoxycarbazone-sodium" -"BF00128220","88671-89-0","Myclobutanil" -"BF00128221","69327-76-0","Buprofezin" -"BF00128222","121552-61-2","Cyprodinil" -"BF00128223","66441-23-4","Fenoxaprop-ethyl" -"BF00128224","28249-77-6","Thiobencarb" -"BF00128225","119446-68-3","Difenoconazole" -"BF00128226","7696-12-0","Tetramethrin" -"BF00128227","51218-45-2","Metolachlor" -"BF00128228","23950-58-5","Propyzamide" -"BF00128229","1634-78-2","Malaoxon" -"BF00128230","135410-20-7","Acetamiprid" -"BF00128232","210880-92-5","Clothianidin" -"BF00128233","114311-32-9","Imazamox" -"BF00128234","33089-61-1","Amitraz" -"BF00128235","67747-09-5","Prochloraz" -"BF00128236","81335-77-5","Imazethapyr" -"BF00128237","133-07-3","Folpet" -"BF00128238","62924-70-3","Flumetralin" -"BF00128239","533-74-4","Dazomet" -"BF00128240","1596-84-5","Daminozide" -"BF00128241","101-05-3","Anilazine" -"BF00128243","26225-79-6","Ethofumesate" -"BF00128244","314-40-9","Bromacil" -"BF00128245","55283-68-6","Ethalfluralin" -"BF00128246","21725-46-2","Cyanazine" -"BF00128247","50594-66-6","Acifluorfen" -"BF00128248","60207-90-1","Propiconazole" -"BF00128249","34014-18-1","Tebuthiuron" -"BF00128250","5902-51-2","Terbacil" -"BF00128251","19666-30-9","Oxadiazon" -"BF00128252","759-94-4","EPTC" -"BF00128253","10453-86-8","Resmethrin" -"BF00128255","1702-17-6","Clopyralid" -"BF00128256","834-12-8","Ametryn" -"BF00128257","52645-53-1","Permethrin" -"BF00128258","115-29-7","Endosulfan" -"BF00128259","2310-17-0","Phosalone" -"BF00128260","51235-04-2","Hexazinone" -"BF00128261","72490-01-8","Fenoxycarb" -"BF00128262","1918-02-1","Picloram" -"BF00128263","2164-17-2","Fluometuron" -"BF00128264","6923-22-4","Monocrotophos" -"BF00128265","23564-05-8","Thiophanate-methyl" -"BF00128266","31218-83-4","Propetamphos" -"BF00128267","25057-89-0","Bentazone" -"BF00128268","114369-43-6","Fenbuconazole" -"BF00128269","24307-26-4","Mepiquat chloride" -"BF00128270","95737-68-1","Pyriproxyfen" -"BF00128271","129630-19-9","Pyraflufen-ethyl" -"BF00128272","5234-68-4","Carboxin" -"BF00128273","330-55-2","Linuron" -"BF00128274","105512-06-9","Clodinafop-propargyl" -"BF00128275","131-70-4","Monobutyl phthalate" -"BF00128276","3337-71-1","Asulam" -"BF00128277","122-99-6","2-Phenoxyethanol" -"BF00128278","82657-04-3","Bifenthrin" -"BF00128279","90-43-7","2-Phenylphenol" -"BF00128280","19044-88-3","Oryzalin" -"BF00128281","66332-96-5","Flutolanil" -"BF00128282","950-37-8","Methidathion" -"BF00128283","121-75-5","Malathion" -"BF00128285","13194-48-4","Ethoprop" -"BF00128286","22224-92-6","Fenamiphos" -"BF00128287","584-79-2","Allethrin" -"BF00128288","1763-23-1","PFOS" -"BF00128289","117-81-7","Di(2-ethylhexyl) phthalate" -"BF00128290","131860-33-8","Azoxystrobin" -"BF00128291","188425-85-6","Boscalid" -"BF00128292","51-03-6","Piperonyl butoxide" -"BF00128293","72-43-5","Methoxychlor" -"BF00128294","4376-20-9","MEHP" -"BF00128295","77501-63-4","Lactofen" -"BF00128296","12427-38-2","Maneb" -"BF00128297","96182-53-5","Tebupirimfos" -"BF00128298","75-60-5","Dimethylarsinic acid" -"BF00128299","56-72-4","Coumaphos" -"BF00128300","22781-23-3","Bendiocarb" -"BF00128301","86-50-0","Azinphos-methyl" -"BF00128302","33629-47-9","Butralin" -"BF00128303","23422-53-9","Formetanate hydrochloride" -"BF00128304","60168-88-9","Fenarimol" -"BF00128305","87674-68-8","Dimethenamid" -"BF00128306","135158-54-2","Acibenzolar-S-methyl" -"BF00128307","113-48-4","MGK-264" -"BF00128308","43222-48-6","Difenzoquat metilsulfate" -"BF00128309","120116-88-3","Cyazofamid" -"BF00128310","57754-85-5","Clopyralid-olamine" -"BF00128311","2008-41-5","Butylate" -"BF00128312","2212-67-1","Molinate" -"BF00128313","29232-93-7","Pirimiphos-methyl" -"BF00128314","7786-34-7","Mevinphos" -"BF00128315","28434-00-6","S-Bioallethrin" -"BF00128317","54593-83-8","Chlorethoxyfos" -"BF00128318","98967-40-9","Flumetsulam" -"BF00128319","25606-41-1","Propamocarb hydrochloride" -"BF00128320","133-06-2","Captan" -"BF00128321","123343-16-8","Pyrithiobac-sodium" -"BF00128322","87546-18-7","Flumiclorac-pentyl" -"BF00128323","117718-60-2","Thiazopyr" -"BF00128324","83657-24-3","Diniconazole" -"BF00128325","117337-19-6","Fluthiacet-methyl" -"BF00128326","145701-21-9","Diclosulam" -"BF00128328","78-48-8","Tribufos" -"BF00128329","94-74-6","MCPA" -"BF00128330","709-98-8","Propanil" -"BF00128331","120-36-5","Dichlorprop" -"BF00128332","122-34-9","Simazine" -"BF00128333","16672-87-0","Ethephon" -"BF00128334","96-45-7","Ethylene thiourea" -"BF00128335","137-26-8","Thiram" -"BF00128336","6385-62-2","Diquat dibromide monohydrate" -"BF00128337","122836-35-5","Sulfentrazone" -"BF00128339","69806-50-4","Fluazifop-butyl" -"BF00128340","2675-77-6","Chloroneb" -"BF00128341","59669-26-0","Thiodicarb" -"BF00128342","76-87-9","Triphenyltin hydroxide" -"BF00128343","1689-84-5","Bromoxynil" -"BF00128344","101-21-3","Chlorpropham" -"BF00128345","131-11-3","Dimethyl phthalate" -"BF00128346","114-26-1","Propoxur" -"BF00128347","139-40-2","Propazine" -"BF00128348","58-89-9","Lindane" -"BF00128349","1912-24-9","Atrazine" -"BF00128350","82-68-8","Pentachloronitrobenzene" -"BF00128351","84-74-2","Dibutyl phthalate" -"BF00128352","17804-35-2","Benomyl" -"BF00128353","80-05-7","Bisphenol A" -"BF00128354","104206-82-8","Mesotrione" -"BF00128355","87820-88-0","Tralkoxydim" -"BF00128356","131983-72-7","Triticonazole" -"BF00128357","962-58-3","Diazoxon" -"BF00128358","5598-15-2","Chlorpyrifos oxon" -"BF00128359","NOCAS_34742","Milbemectin (mixture of 70% Milbemcin A4, 30% Milbemycin A3)" -"BF00131805","153233-91-1","Etoxazole" -"BF00131806","116714-46-6","Novaluron" -"BF00131807","87818-31-3","Cinmethylin" -"BF00131808","68359-37-5","Cyfluthrin" -"BF10128127","3380-34-5","Triclosan" -"BF10128135","120-32-1","Clorophene" -"BF10128140","55219-65-3","Triadimenol" -"BF10128280","19044-88-3","Oryzalin" -"BF10128287","584-79-2","Allethrin" -"BF10128288","1763-23-1","PFOS" -"BF10128290","131860-33-8","Azoxystrobin" -"BF10128353","80-05-7","Bisphenol A" -"BF20128127","3380-34-5","Triclosan" -"BF20128135","120-32-1","Clorophene" -"BF20128140","55219-65-3","Triadimenol" -"BF20128280","19044-88-3","Oryzalin" -"BF20128287","584-79-2","Allethrin" -"BF20128288","1763-23-1","PFOS" -"BF20128290","131860-33-8","Azoxystrobin" -"TX000097","58394-64-2","Benzyloctyl adipate" -"TX000777","79622-59-6","Fluazinam" -"TX000789","148477-71-8","Spirodiclofen" -"TX000991","85264-33-1","(3,5-Dimethyl-1H-pyrazol-1-yl)methanol" -"TX001026","33956-49-9","Codlelure" -"TX001028","99-86-5","alpha-Terpinene" -"TX001030","525-79-1","Kinetin" -"TX001034","95-13-6","Indene" -"TX001038","140-56-7","Fenaminosulf" -"TX001040","654055-01-3","Morin hydrate" -"TX001052","101-42-8","Fenuron" -"TX001060","7540-51-4","(S)-(-)-beta-Citronellol" -"TX001064","571-58-4","1,4-Dimethylnaphthalene" -"TX001068","6485-40-1","R-(-)-Carvone" -"TX001069","541-73-1","1,3-Dichlorobenzene" -"TX001072","28804-88-8","Dimethylnaphthalene" -"TX001074","99-85-4","gamma-Terpinene" -"TX001083","2444-46-4","Nonivamide" -"TX001086","140-11-4","Benzyl acetate" -"TX001087","116-29-0","Tetradifon" -"TX001106","101463-69-8","Flufenoxuron" -"TX001112","11099-07-3","Glyceryl stearates" -"TX001118","4468-42-2","3-Phenylhexane" -"TX001132","283594-90-1","Spiromesifen" -"TX001134","18924-66-8","2,2'-(Tetradecylimino)diethanol" -"TX001140","1541-81-7","4-Dodecylmorpholine" -"TX001166","55512-33-9","Pyridate" -"TX001178","163520-33-0","Isoxadifen-ethyl" -"TX001184","21145-77-7","6-Acetyl-1,1,2,4,4,7-hexamethyltetralin" -"TX001222","2917-73-9","Dibutyl nonanedioate" -"TX001230","3913-02-8","2-Butyloctan-1-ol" -"TX001247","42978-66-5","Tripropylene glycol diacrylate" -"TX0012711","110-17-8","Fumaric acid" -"TX0012712","99-63-8","1,3-Benzenedicarbonyl dichloride" -"TX0012713","5329-14-6","Sulfamic acid" -"TX0012714","7757-79-1","Potassium nitrate" -"TX0012715","137-42-8","Metam-sodium" -"TX0012716","126-30-7","2,2-Dimethylpropane-1,3-diol" -"TX0012717","61-82-5","Amitrole" -"TX0012718","110-65-6","2-Butyne-1,4-diol" -"TX0012719","824-39-5","Sodium 2-nitrophenolate" -"TX0012720","3164-85-0","Potassium 2-ethylhexanoate" -"TX0012721","684-93-5","N-Nitroso-N-methylurea" -"TX0012722","1762-95-4","Thiocyanic acid, ammonium salt" -"TX0012723","139-02-6","Sodium phenolate" -"TX0012724","106-50-3","1,4-Benzenediamine" -"TX0012725","110-16-7","Maleic acid" -"TX0012726","123-77-3","Azodicarbonamide" -"TX0012727","62-74-8","Sodium fluoroacetate" -"TX0012728","3926-62-3","Sodium chloroacetate" -"TX0012729","3811-04-9","Potassium chlorate" -"TX0012730","611-20-1","2-Hydroxybenzonitrile" -"TX0012731","110-15-6","Butanedioic acid" -"TX0012732","534-13-4","N,N'-Dimethylthiourea" -"TX0012733","2231-57-4","Thiocarbazide" -"TX0012734","461-58-5","Cyanoguanidine" -"TX0012735","6610-29-3","N-Methylhydrazinecarbothioamide" -"TX0012736","5536-61-8","Sodium methacrylate" -"TX0012737","79-14-1","Glycolic acid" -"TX0012738","108-68-9","3,5-Dimethylphenol" -"TX0012739","143390-89-0","Kresoxim-methyl" -"TX0012741","178928-70-6","Prothioconazole" -"TX0012745","791-31-1","Triphenylsilanol" -"TX0012750","623-36-9","2-Methylpent-2-enal" -"TX0012757","4390-04-9","2,2,4,4,6,8,8-Heptamethylnonane" -"TX0012762","821-55-6","2-Nonanone" -"TX0012769","3647-69-6","4-(2-Chloroethyl)morpholine hydrochloride (1:1)" -"TX0012774","93-02-7","2,5-Dimethoxybenzaldehyde" -"TX0012777","84-15-1","o-Terphenyl" -"TX001343","1570-64-5","4-Chloro-2-methylphenol" -"TX001350","101-84-8","Diphenyl oxide" -"TX001394","95-49-8","2-Chlorotoluene" -"TX001399","123-11-5","4-Methoxybenzaldehyde" -"TX001400","460-00-4","1-Bromo-4-fluorobenzene" -"TX001440","109-86-4","2-Methoxyethanol" -"TX001556","83-67-0","Theobromine" -"TX001593","56-38-2","Parathion" -"TX001595","41198-08-7","Profenofos" -"TX001598","155569-91-8","Emamectin benzoate" -"TX001609","62-73-7","Dichlorvos" -"TX001612","298-04-4","Disulfoton" -"TX001620","6317-18-6","Methylene bis(thiocyanate)" -"TX001632","999-97-3","Hexamethyldisilazane" -"TX001689","101-83-7","Dicyclohexylamine" -"TX001697","109-55-7","3-(Dimethylamino)propylamine" -"TX001698","102-82-9","Tributylamine" -"TX001701","124-09-4","1,6-Hexanediamine" -"TX001705","104-76-7","2-Ethyl-1-hexanol" -"TX001708","95-48-7","o-Cresol" -"TX001712","124-18-5","Decane" -"TX001716","124-13-0","Octanal" -"TX001735","87-86-5","Pentachlorophenol" -"TX001757","101-72-4","N-Isopropyl-N'-phenyl-p-phenylenediamine" -"TX001775","75-64-9","tert-Butylamine" -"TX001784","99-87-6","p-Cymene" -"TX001787","111-49-9","Hexamethyleneimine" -"TX001793","620-17-7","3-Ethylphenol" -"TX001796","25168-05-2","Chlorotoluene" -"TX001801","90-12-0","1-Methylnaphthalene" -"TX001810","109-77-3","Propanedinitrile" -"TX001830","95-57-8","2-Chlorophenol" -"TX001843","88-72-2","2-Nitrotoluene" -"TX001876","110-80-5","2-Ethoxyethanol" -"TX001881","109-02-4","4-Methylmorpholine" -"TX001882","121-69-7","N,N-Dimethylaniline" -"TX001887","100-37-8","N,N-Diethylethanolamine" -"TX001903","108-91-8","Cyclohexylamine" -"TX001907","68-12-2","N,N-Dimethylformamide" -"TX001919","75-86-5","2-Hydroxy-2-methylpropanenitrile" -"TX001921","108-95-2","Phenol" -"TX002104","95-63-6","1,2,4-Trimethylbenzene" -"TX002114","110-43-0","2-Heptanone" -"TX002126","1563-38-8","2,3-Dihydro-2,2-dimethyl-7-benzofuranol" -"TX002131","87-25-2","Ethyl anthranilate" -"TX002132","98-86-2","Acetophenone" -"TX002152","79-24-3","Nitroethane" -"TX002177","81-07-2","Saccharin" -"TX002193","106-43-4","4-Chlorotoluene" -"TX002202","141-32-2","Butyl acrylate" -"TX002205","93-65-2","Mecoprop" -"TX002210","126-98-7","Methacrylonitrile" -"TX002231","95-76-1","3,4-Dichloroaniline" -"TX002249","29387-86-8","Propylene glycol monobutyl ether" -"TX002286","1112-39-6","Dimethoxydimethylsilane" -"TX002304","1873-88-7","1,1,1,3,5,5,5-Heptamethyltrisiloxane" -"TX002308","1118-46-3","Butyltin trichloride" -"TX002330","1214-39-7","N-Benzyladenine" -"TX002331","105-54-4","Ethyl butyrate" -"TX002390","4940-11-8","2-Ethyl-3-hydroxy-4H-pyran-4-one" -"TX002400","2031-67-6","Triethoxymethylsilane" -"TX002408","117-80-6","Dichlone" -"TX002412","2996-92-1","Trimethoxyphenylsilane" -"TX002414","140-08-9","Tris(2-chloroethyl) phosphite" -"TX002416","1076-97-7","1,4-Cyclohexanedicarboxylic acid" -"TX002436","92-69-3","4-Phenylphenol" -"TX002449","1120-21-4","Undecane" -"TX002452","93-76-5","2,4,5-Trichlorophenoxyacetic acid" -"TX002454","143-08-8","1-Nonanol" -"TX002460","122-20-3","Triisopropanolamine" -"TX002467","140-95-4","Dimethylolurea" -"TX002472","111-96-6","Bis(2-methoxyethyl) ether" -"TX002488","104-87-0","4-Methylbenzaldehyde" -"TX002496","1401-55-4","Tannic acid" -"TX002507","109-46-6","N,N'-Dibutylthiourea" -"TX002517","512-42-5","Sodium methyl sulfate" -"TX002519","34451-19-9","Butyl (2S)-2-hydroxypropanoate" -"TX002527","957-51-7","Diphenamid" -"TX002572","50-21-5","Lactic acid" -"TX002616","110-97-4","Diisopropanolamine" -"TX002640","131-57-7","2-Hydroxy-4-methoxybenzophenone" -"TX002664","587-85-9","Diphenylmercury(II)" -"TX002666","142-31-4","Sodium octyl sulfate" -"TX002668","1646-88-4","Aldoxycarb" -"TX002674","6190-65-4","Deethylatrazine" -"TX002700","142-18-7","1-Monolaurin" -"TX002714","141-22-0","(9Z,12R)-12-Hydroxyoctadec-9-enoic acid" -"TX002740","123-07-9","4-Ethylphenol" -"TX002742","493-52-7","Methyl red" -"TX002764","57-09-0","Hexadecyltrimethylammonium bromide" -"TX002797","69806-40-2","Haloxyfop-methyl" -"TX002798","110-05-4","Di-tert-butyl peroxide" -"TX002849","110-33-8","Dihexyl hexanedioate" -"TX002851","1559-34-8","3,6,9,12-Tetraoxahexadecan-1-ol" -"TX002858","10025-74-8","Dysprosium(III) chloride" -"TX002866","2756-56-1","Isobornyl propanoate" -"TX002890","138-22-7","Butyl lactate" -"TX002892","139-87-7","Ethyl diethanolamine" -"TX002896","877-24-7","Monopotassium phthalate" -"TX002902","97-78-9","N-Dodecanoyl-N-methylglycine" -"TX002904","4574-04-3","Myristyltrimethylammonium chlorideN,N,N-Trimethyltetradecan-1-aminium chloride" -"TX002908","3025-30-7","Ethyl (2E,4Z)-deca-2,4-dienoate" -"TX002910","140-38-5","4-Chlorophenylurea" -"TX002923","628-63-7","Pentyl acetate" -"TX002934","35400-43-2","Sulprofos" -"TX002938","59-40-5","Sulfaquinoxaline" -"TX002950","544-63-8","Tetradecanoic acid" -"TX002960","77-86-1","Tromethamine" -"TX002972","123-99-9","Nonanedioic acid" -"TX002978","80-54-6","3-(4-tert-Butylphenyl)-2-methylpropanal" -"TX002988","110-69-0","Butanal oxime" -"TX002994","24157-81-1","2,6-Diisopropylnaphthalene" -"TX003066","99-62-7","1,3-Diisopropylbenzene" -"TX003076","78-51-3","Tris(2-butoxyethyl) phosphate" -"TX003085","96-09-3","Styrene oxide" -"TX003128","88-30-2","3-Trifluoromethyl-4-nitrophenol" -"TX003134","90-30-2","N-Phenyl-1-naphthylamine" -"TX003151","118-75-2","Chloranil" -"TX003154","2934-05-6","2,4-Diisopropylphenol" -"TX003156","4107-98-6","N,N-Diisopropylaniline" -"TX003158","78-07-9","Ethyltriethoxysilane" -"TX003160","23089-26-1","Levomenol" -"TX003164","21662-09-9","(4Z)-4-Decenal" -"TX003168","93-92-5","(+/-)-alpha-Methylbenzyl acetate" -"TX003170","122-42-9","Propham" -"TX003177","5870-93-9","Heptyl butanoate" -"TX003184","499-75-2","Isopropyl-o-cresol" -"TX003188","78-70-6","Linalool" -"TX003190","104-61-0","gamma-Nonanolactone" -"TX003196","7681-82-5","Sodium iodide" -"TX003204","2425-77-6","2-Hexyl-1-decanol" -"TX003208","657-84-1","Sodium 4-methylbenzenesulfonate" -"TX003214","717-74-8","1,3,5-Triisopropylbenzene" -"TX003216","21245-02-3","2-Ethylhexyl 4-(dimethylamino)benzoate" -"TX003232","6259-76-3","Hexyl salicylate" -"TX003236","1008-72-6","Sodium 2-formylbenzenesulfonate" -"TX003238","941-69-5","1-Phenyl-1H-pyrrole-2,5-dione" -"TX003240","118-58-1","Benzyl salicylate" -"TX003253","97-74-5","Tetramethylthiuram monosulfide" -"TX003266","7212-44-4","Nerolidol" -"TX003276","94-71-3","2-Ethoxyphenol" -"TX003280","112-12-9","2-Undecanone" -"TX003282","104-54-1","3-Phenyl-2-propen-1-ol" -"TX003292","122-78-1","Phenylacetaldehyde" -"TX003294","6152-33-6","Sodium 2-phenylphenate tetrahydrate" -"TX003320","66-71-7","1,10-Phenanthroline" -"TX003326","487-06-9","5,7-Dimethoxy-2H-chromen-2-one" -"TX003338","587-65-5","2-Chloro-N-phenylacetamide" -"TX003350","80-09-1","4,4'-Sulfonyldiphenol" -"TX003370","143-07-7","Dodecanoic acid" -"TX003374","78-40-0","Triethyl phosphate" -"TX003383","123-92-2","3-Methylbutyl acetate" -"TX003404","4065-45-6","Sulisobenzone" -"TX003426","97-59-6","Allantoin" -"TX003432","928-96-1","(Z)-3-Hexen-1-ol" -"TX003436","706-14-9","gamma-Decanolactone" -"TX003449","126-07-8","Griseofulvin" -"TX003458","496-46-8","Glycoluril" -"TX003472","99-07-0","3-Dimethylaminophenol" -"TX003506","609-54-1","2,5-Dimethylbenzenesulfonic acid" -"TX003522","55934-93-5","Tripropylene glycol butyl ether" -"TX003547","88-41-5","2-tert-Butylcyclohexyl acetate" -"TX003572","133855-98-8","Epoxiconazole" -"TX003721","556-61-6","Methyl isothiocyanate" -"TX003751","2642-71-9","Azinphos-ethyl" -"TX003824","1120-01-0","Sodium hexyldecyl sulfate" -"TX003846","106-30-9","Ethyl heptanoate" -"TX003863","695-06-7","gamma-Caprolactone" -"TX003871","51630-58-1","Fenvalerate" -"TX003873","6728-26-3","(2E)-2-Hexenal" -"TX003879","128-95-0","1,4-Diaminoanthraquinone" -"TX003887","682-01-9","Tetrapropyl orthosilicate" -"TX003893","25155-18-4","Methylbenzethonium chloride" -"TX003896","106-27-4","Isopentyl butyrate" -"TX003909","83-88-5","Riboflavin" -"TX003911","120-46-7","1,3-Diphenyl-1,3-propanedione" -"TX003913","107-75-5","7-Hydroxy-3,7-dimethyloctanal" -"TX003917","50-70-4","D-Glucitol" -"TX003949","101-81-5","Diphenylmethane" -"TX003951","84-61-7","Dicyclohexyl phthalate" -"TX003957","489-01-0","2,6-Di-tert-butyl-4-methoxyphenol" -"TX003961","64-10-8","1-Phenylurea" -"TX003964","126-14-7","Sucrose octaacetate" -"TX003967","81-88-9","Rhodamine B" -"TX003969","532-02-5","Sodium 2-naphthalenesulfonate" -"TX003980","64-19-7","Acetic acid" -"TX004022","79-19-6","Thiosemicarbazide" -"TX004047","1335-46-2","Methylionone" -"TX004059","2122-70-5","Ethyl 1-naphthaleneacetate" -"TX004067","4437-85-8","Butylene carbonate" -"TX004086","95-32-9","2-(Morpholin-4-yldithio)-1,3-benzothiazole" -"TX004105","92-04-6","2-Chloro-4-phenylphenol" -"TX004193","818-61-1","2-Hydroxyethyl acrylate" -"TX004197","138-86-3","Limonene" -"TX004206","135-57-9","2,2'-Dibenzoylaminodiphenyl disulfide" -"TX004209","4130-42-1","2,6-Di-tert-butyl-4-ethylphenol" -"TX004217","645-62-5","2-Ethyl-2-hexenal" -"TX004227","2492-26-4","Sodium 2-mercaptobenzothiolate" -"TX004228","122-19-0","N,N-Dimethyl-N-octadecylbenzenemethanaminium chloride" -"TX004259","605-45-8","Diisopropyl phthalate" -"TX004297","107-92-6","Butanoic acid" -"TX004301","130-14-3","Sodium 1-naphthalenesulfonate" -"TX004310","497-39-2","4,6-Di-tert-butyl-m-cresol" -"TX004330","123-17-1","2,6,8-Trimethyl-4-nonanol" -"TX004334","2554-06-5","1,3,5,7-Tetramethyl-1,3,5,7-tetravinylcyclotetrasiloxane" -"TX004356","147-81-9","Arabinose" -"TX004358","87-01-4","7-(Dimethylamino)-4-methylcoumarin" -"TX004362","26402-26-6","Glyceryl monooctanoate" -"TX004364","2390-60-5","Basic Blue 7" -"TX004370","2610-11-9","C.I. Direct Red 81 disodium salt" -"TX004380","27344-41-8","Disodium 4,4'-bis(2-sulfostyryl)biphenyl" -"TX004392","103-34-4","4,4'-Dithiodimorpholine" -"TX004396","13171-00-1","1-(6-tert-Butyl-1,1-dimethyl-2,3-dihydro-1H-inden-4-yl)ethanone" -"TX004402","120-65-0","2-((Dimethylamino)methyl)phenol" -"TX004404","129-06-6","Sodium warfarin" -"TX004416","4712-55-4","Diphenyl phosphite" -"TX004428","2687-94-7","N-Octyl-2-pyrrolidone" -"TX004438","97-00-7","1-Chloro-2,4-dinitrobenzene" -"TX004451","485-31-4","Binapacryl" -"TX004466","139-88-8","7-Ethyl-2-methyl-4-undecanolsulfate, sodium salt" -"TX004479","618-45-1","3-Isopropylphenol" -"TX004481","1929-73-3","2,4-D-Butotyl" -"TX004485","99607-70-2","Cloquintocet-mexyl" -"TX004507","71283-80-2","Fenoxaprop-P-ethyl" -"TX004511","26002-80-2","Phenothrin" -"TX004513","67564-91-4","(2R,6S)-Fenpropimorph" -"TX004516","470-90-6","Chlorfenvinphos" -"TX004525","1031-07-8","Endosulfan sulfate" -"TX004539","122453-73-0","Chlorfenapyr" -"TX004541","14816-18-3","Phoxim" -"TX004545","311-45-5","Paraoxon" -"TX004547","959-98-8","Endosulfan I" -"TX004563","3734-33-6","Denatonium benzoate" -"TX004572","19774-82-4","Amiodarone hydrochloride" -"TX004579","2445-77-4","2-Methylbutyl isovalerate" -"TX004611","5138-18-1","Sulfosuccinic acid" -"TX004615","57-06-7","Allyl isothiocyanate" -"TX004631","50-27-1","Estriol" -"TX004639","1189-08-8","1,3-Butyleneglycol dimethacrylate" -"TX004809","101-37-1","2,4,6-Tris(allyloxy)-1,3,5-triazine" -"TX004833","7779-27-3","1,3,5-Triethylhexahydro-s-triazine" -"TX004883","3452-97-9","3,5,5-Trimethyl-1-hexanol" -"TX004891","4638-48-6","5-Chlorosalicylanilide" -"TX004903","51632-16-7","1-(Bromomethyl)-3-phenoxybenzene" -"TX004907","124-76-5","Isoborneol" -"TX004943","5850-86-2","C.I. Acid Orange 8, monosodium salt" -"TX004947","31519-22-9","1,4-Dihydroxy-2-naphthoic acid" -"TX004950","120-18-3","Naphthalene-2-sulfonic acid" -"TX004955","126-06-7","3-Bromo-1-chloro-5,5-dimethylhydantoin" -"TX004973","4707-47-5","Methyl 2,4-dihydroxy-3,6-dimethylbenzoate" -"TX005018","15625-89-5","Trimethylolpropane triacrylate" -"TX005053","585-34-2","3-tert-Butylphenol" -"TX005055","2386-87-0","UT-632" -"TX005069","119-47-1","2,2'-Methylenebis(4-methyl-6-tert-butylphenol)" -"TX005115","108-83-8","Diisobutyl ketone" -"TX005122","95-53-4","2-Methylaniline" -"TX005144","98-07-7","Benzotrichloride" -"TX005147","85-40-5","1,2,3,6-Tetrahydrophthalimide" -"TX005170","88-74-4","2-Nitroaniline" -"TX005224","328-84-7","1,2-Dichloro-4-(trifluoromethyl)benzene" -"TX005228","118-79-6","2,4,6-Tribromophenol" -"TX005248","107-07-3","2-Chloroethanol" -"TX005251","110-12-3","5-Methyl-2-hexanone" -"TX005252","95-50-1","1,2-Dichlorobenzene" -"TX005257","107-54-0","3,5-Dimethyl-1-hexyn-3-ol" -"TX005263","692-86-4","Ethyl undec-10-enoate" -"TX005327","2627-95-4","1,3-Divinyl-1,1,3,3-tetramethyl disiloxane" -"TX005338","4162-45-2","Tetrabromobisphenol A bis(2-hydroxyethyl) ether" -"TX005400","728-40-5","2,6-Di-tert-butyl-4-nitrophenol" -"TX005405","22248-79-9","Z-Tetrachlorvinphos" -"TX005406","1646-75-9","Aldicarb oxime" -"TX005417","6706-59-8","L-Glucitol" -"TX005423","59227-89-3","Laurocapram" -"TX005457","827-21-4","Sodium m-xylene-4-sulfonate" -"TX005465","1742-14-9","1,1-Bis(3,4-dimethylphenyl)ethane" -"TX005469","27306-78-1","Silwet L77" -"TX005471","25638-17-9","Butylnaphthalenesulfonic acid sodium salt" -"TX005479","2110-18-1","2-(3-Phenylpropyl)pyridine" -"TX005481","14765-30-1","2-sec-Butylcyclohexanone" -"TX005483","80-27-3","Terpinyl propionate" -"TX005491","3383-96-8","Temephos" -"TX005501","151-05-3","Dimethylbenzylcarbinyl acetate" -"TX005516","10094-34-5","1,1-Dimethyl-2-phenylethyl butanoate" -"TX005519","32388-55-9","1-Cedr-8-en-9-ylethanone" -"TX005531","2694-54-4","Triallyl trimellitate" -"TX005537","27253-33-4","Calcium neodecanoate" -"TX005560","110-25-8","Oleyl sarcosine" -"TX005562","1907-65-9","N-Butyl-p-toluenesulfonamide" -"TX005566","5153-25-3","2-Ethylhexylparaben" -"TX005668","29385-43-1","Tolyltriazole" -"TX005680","25812-30-0","Gemfibrozil" -"TX005729","22839-47-0","Aspartame" -"TX005743","60-33-3","Linoleic acid" -"TX005749","127-47-9","Retinol acetate" -"TX005751","54-85-3","Isoniazid" -"TX005758","13674-87-8","TDCPP" -"TX005767","53-43-0","Dehydroepiandrosterone" -"TX005779","1300-73-8","Dimethylaniline" -"TX005790","72-33-3","Mestranol" -"TX005795","80-26-2","alpha-Terpinyl acetate" -"TX005797","120-14-9","Veratraldehyde" -"TX005815","552-30-7","Trimellitic anhydride" -"TX005817","2016-57-1","1-Decanamine" -"TX005828","117-08-8","Tetrachlorophthalic anhydride" -"TX005850","111991-09-4","Nicosulfuron" -"TX005887","2439-01-2","Chinomethionate" -"TX005921","14351-66-7","Sodium abietate" -"TX005927","63-42-3","Lactose" -"TX005945","23779-32-0","1-[3-(Triethoxysilyl)propyl]urea" -"TX005947","107-51-7","Octamethyltrisiloxane" -"TX005971","2761-24-2","Triethoxypentylsilane" -"TX005975","81741-28-8","Tributyltetradecylphosphonium chloride" -"TX005983","1559-35-9","2-(2-Ethylhexyloxy)ethanol" -"TX006035","58430-94-7","3,5,5-Trimethylhexyl acetate" -"TX006045","68555-86-2","Acid Orange 156" -"TX006050","17418-58-5","C.I. Disperse Red 60" -"TX006056","21739-91-3","Cytembena" -"TX006091","120-56-9","Triethylene glycol dibenzoate" -"TX006093","15046-75-0","Sodium 2-methylbenzenesulfonate" -"TX006101","67786-14-5","Acid Red 337" -"TX006105","126-92-1","Sodium ethasulfate" -"TX006121","1825-21-4","Pentachloroanisole" -"TX006129","95266-40-3","Trinexapac-ethyl" -"TX006139","23564-06-9","Thiophanate" -"TX006143","139340-56-0","Darbufelone mesylate" -"TX006145","221246-12-4","Fandosentan potassium salt" -"TX006146","145742-28-5","CP-122721" -"TX006147","186392-65-4","Ingliforib" -"TX006153","149062-75-9","PharmaGSID_47259" -"TX006155","207736-05-8","CI-1029" -"TX006157","171866-31-2","CP-283097" -"TX006160","NOCAS_47267","CP-642931" -"TX006163","676116-04-4","PD 0343701" -"TX006174","368832-42-2","CP-728663" -"TX006177","123122-55-4","Candoxatril" -"TX006179","203942-49-8","UK-337312" -"TX006180","215297-27-1","UK-343664" -"TX006183","NOCAS_47292","PD 0200347" -"TX006194","NOCAS_47305","CP-608039" -"TX006198","162706-14-1","UK-156819" -"TX006199","461023-63-2","Aplaviroc hydrochloride" -"TX006200","180084-01-9","SB236057A" -"TX006201","184653-84-7","Carabersat" -"TX006202","NOCAS_47325","SB413217A" -"TX006203","NOCAS_47311","GSK163929B" -"TX006204","200940-23-4","SB243213A" -"TX006205","97322-87-7","Troglitazone" -"TX006206","139149-55-6","SB202235" -"TX006207","196808-45-4","Farglitazar" -"TX006208","263553-33-9","GW473178E methyl benzene sulphonic acid" -"TX006209","864283-48-7","GSK232420A" -"TX006210","219790-72-4","SB281832" -"TX006211","444610-91-7","PharmaGSID_47315" -"TX006212","313994-79-5","MK-578" -"TX006217","181640-09-5","SR144190" -"TX006218","264618-44-2","SSR146977" -"TX006220","159138-81-5","Cariporide mesylate" -"TX006225","NOCAS_47351","SSR240612" -"TX006226","NOCAS_47353","SSR241586" -"TX006229","288104-79-0","Surinabant" -"TX006230","439687-69-1","Nelivaptan" -"TX006238","344930-95-6","SSR69071" -"TX006239","221671-62-1","SR146131" -"TX006241","478263-98-8","AVE3295" -"TX006243","862243-29-6","AVE9423" -"TX006244","648917-13-9","AVE2865" -"TX006246","NOCAS_47379","SSR126768" -"TX006248","NOCAS_47383","AVE3247" -"TX006249","NOCAS_47385","SAR377142" -"TX006251","NOCAS_47389","SAR150640" -"TX006255","851916-42-2","MK-812" -"TX006256","1061517-62-1","PharmaGSID_47337" -"TX006299","65277-42-1","Ketoconazole" -"TX006301","75330-75-5","Lovastatin" -"TX006303","59-05-2","Methotrexate" -"TX006305","81131-70-6","Pravastatin sodium" -"TX006393","NOCAS_47349","AVE8488" -"TX006416","NOCAS_47381","AVE8923" -"TX006525","219714-96-2","Penoxsulam" -"TX006533","21564-17-0","2-(Thiocyanomethylthio)benzothiazole" -"TX006534","98886-44-3","Fosthiazate" -"TX006537","119515-38-7","Icaridin" -"TX006551","1114-71-2","Pebulate" -"TX006553","64700-56-7","Triclopyr-butotyl" -"TX006576","79277-27-3","Thifensulfuron-methyl" -"TX006609","137-66-6","Ascorbyl palmitate" -"TX006623","1118-92-9","N,N-Dimethyloctanamide" -"TX006631","20780-48-7","3,7-Dimethyloctan-3-yl acetate" -"TX006633","6359-90-6","C.I. Acid Yellow 34, monosodium salt" -"TX006647","58846-77-8","Decyl beta-D-glucopyranoside" -"TX006656","17230-88-5","Danazol" -"TX006663","2491-38-5","2-Bromo-4-hydroxyacetophenone" -"TX006673","51229-78-8","Chloroallyl methenamine chloride" -"TX006695","94-91-7","N,N'-Disalicylidene-1,2-diaminopropane" -"TX006699","35691-65-7","1,2-Dibromo-2,4-dicyanobutane" -"TX006719","6359-82-6","Acid Yellow 11" -"TX006743","1323-38-2","Glyceryl monoricinoleate" -"TX006755","3547-33-9","2-Hydroxyethyl octyl sulfide" -"TX006763","5116-94-9","Monotridecyl phosphate" -"TX006852","83834-59-7","2-Ethylhexyl trans-4-methoxycinnamate" -"TX006872","586-62-9","Terpinolene" -"TX006874","16587-71-6","4-(tert-Pentyl)-cyclohexanone" -"TX006884","463-40-1","Linolenic acid" -"TX006887","52-76-6","Lynestrenol" -"TX006890","77-83-8","Ethyl methylphenylglycidate" -"TX006892","118-55-8","Phenyl salicylate" -"TX006897","839-90-7","Tris(2-hydroxyethyl) isocyanurate" -"TX006930","135-20-6","Cupferron" -"TX006944","143-22-6","2-[2-(2-Butoxyethoxy)ethoxy]ethanol" -"TX006949","135-88-6","N-Phenyl-2-naphthylamine" -"TX006955","624-18-0","1,4-Benzenediamine dihydrochloride" -"TX006966","15708-41-5","Ethylenediaminetetraacetic acid ferric sodium salt" -"TX006970","512-56-1","Trimethyl phosphate" -"TX007037","5394-36-5","5-Ethyl-5-methylhydantoin" -"TX007058","106-23-0","Citronellal" -"TX007122","18172-67-3","(-)-beta-Pinene" -"TX007126","33228-45-4","4-Hexylaniline" -"TX007152","540-18-1","Pentyl butyrate" -"TX007156","111-15-9","2-Ethoxyethyl acetate" -"TX007164","103055-07-8","Lufenuron" -"TX007177","7775-27-1","Sodium persulfate" -"TX007179","53-19-0","o,p'-DDD" -"TX007188","610-39-9","3,4-Dinitrotoluene" -"TX007199","612-82-8","3,3'-Dimethylbenzidine dihydrochloride" -"TX007207","97-23-4","Dichlorophen" -"TX007221","2702-72-9","2,4-D sodium salt" -"TX007227","3194-55-6","1,2,5,6,9,10-Hexabromocyclododecane" -"TX007233","55589-62-3","Acesulfame potassium" -"TX007257","683-18-1","Dibutyltin dichloride" -"TX007281","753-73-1","Dimethyltin dichloride" -"TX007287","636-21-5","2-Methylaniline hydrochloride" -"TX007304","538-75-0","Dicyclohexylcarbodiimide" -"TX007318","93-89-0","Ethyl benzoate" -"TX007350","98-53-3","4-tert-Butylcyclohexanone" -"TX007352","762-04-9","Diethyl phosphite" -"TX007354","4602-84-0","Farnesol" -"TX007366","3391-86-4","1-Octen-3-ol" -"TX007368","93-56-1","Styrene glycol" -"TX007384","88-04-0","4-Chloro-3,5-dimethylphenol" -"TX007406","58-86-6","D-Xylose" -"TX007424","88-69-7","2-Isopropylphenol" -"TX007427","638-07-3","Ethyl 4-chloro-3-oxobutanoate" -"TX007433","13676-54-5","Bismaleimide" -"TX007436","8001-54-5","Benzalkonium chloride" -"TX007439","1119-97-7","Tetradonium bromide" -"TX007460","123-00-2","4-Morpholinepropanamine" -"TX007471","122-18-9","Benzylhexadecyldimethylammonium chloride" -"TX007482","142-87-0","Sodium decyl sulfate" -"TX007494","61-73-4","Methylene blue" -"TX007496","633-96-5","C.I. Acid Orange 7" -"TX007504","5437-45-6","Benzyl bromoacetate" -"TX007522","56375-79-2","N,N-Dibutyl-N-methylbutan-1-aminium chloride" -"TX007526","3026-63-9","Sodium tridecyl sulfate" -"TX007556","5146-66-7","3,7-Dimethyl-2,6-octadienenitrile" -"TX007558","51-05-8","Procaine hydrochloride" -"TX007577","104-51-8","Butylbenzene" -"TX007602","97-52-9","2-Methoxy-4-nitroaniline" -"TX007617","98-00-0","Furfuryl alcohol" -"TX007619","87-68-3","Hexachloro-1,3-butadiene" -"TX007631","26027-38-3","Polyoxyethylene(10)nonylphenyl ether" -"TX007656","14371-10-9","(2E)-3-Phenylprop-2-enal" -"TX007663","542-92-7","1,3-Cyclopentadiene" -"TX007683","756-79-6","Dimethyl methylphosphonate" -"TX007707","770-35-4","1-Phenoxy-2-propanol" -"TX007718","140-10-3","E-Cinnamic acid" -"TX007737","114-07-8","Erythromycin" -"TX007739","3844-45-9","FD&C Blue No. 1" -"TX007768","129-17-9","Sulfan blue" -"TX007784","103-41-3","Benzyl cinnamate" -"TX007792","451-40-1","1,2-Diphenylethanone" -"TX007804","58-85-5","Biotin" -"TX007806","29836-26-8","Octyl beta-D-glucopyranoside" -"TX007832","500-38-9","Nordihydroguaiaretic acid" -"TX007859","4422-95-1","1,3,5-Benzenetricarbonyl trichloride" -"TX007874","93-08-3","2'-Acetonaphthone" -"TX008014","3737-41-5","3,3,4,4-Tetrachlorotetrahydrothiophene 1,1-dioxide" -"TX008016","5137-55-3","Methyltrioctylammonium chloride" -"TX008030","112-03-8","N,N,N-Trimethyloctadecan-1-aminium chloride" -"TX008063","827-19-0","Sodium 2,5-dimethylbenzenesulfonate" -"TX008065","533-23-3","2,4-D-ethyl ester" -"TX008067","39300-45-3","Dinocap" -"TX008069","81405-85-8","Imazamethabenz" -"TX008070","25311-71-1","Isofenphos" -"TX008073","118-47-8","Pyrazolone T" -"TX008082","973-21-7","Dinobuton" -"TX008087","13301-61-6","C.I. Disperse Orange 37" -"TX008138","116-66-5","1,1,3,3,5-Pentamethyl-4,6-dinitro-2,3-dihydro-1H-indene" -"TX008142","102-96-5","beta-Nitrostyrene" -"TX008320","110-91-8","Morpholine" -"TX008321","602-01-7","2,3-Dinitrotoluene" -"TX008326","94-80-4","2,4-D 1-butyl ester" -"TX008364","1072-15-7","Sulfuric acid, monononyl ester, sodium salt" -"TX008383","70-30-4","Hexachlorophene" -"TX008388","25496-72-4","Glyceryl monooleate" -"TX008392","553-70-8","Magnesium dibenzoate" -"TX008400","6359-98-4","C.I. Acid Yellow 17, disodium salt" -"TX008408","5700-49-2","1,2-Ethanediamine dihydriodide" -"TX008414","28159-98-0","Cybutryne" -"TX008416","26644-46-2","Triforine" -"TX008424","1323-19-9","Sodium triisopropyl naphthalene sulfonate" -"TX008428","125116-23-6","Metconazole" -"TX008434","30399-84-9","Isooctadecanoic acid" -"TX008436","104-43-8","4-Dodecylphenol" -"TX008450","126-72-7","Tris(2,3-dibromopropyl) phosphate" -"TX008467","27193-86-8","Dodecylphenol" -"TX008471","2807-30-9","2-Propoxyethanol" -"TX008567","13826-35-2","3-Phenoxybenzenemethanol" -"TX008581","3268-49-3","3-(Methylthio)propanal" -"TX008599","94-46-2","Isopentyl benzoate" -"TX008620","98-06-6","tert-Butylbenzene" -"TX008642","110-27-0","Isopropyl tetradecanoic acid" -"TX008655","5333-42-6","2-Octyl-1-dodecanol" -"TX008670","1163-19-5","Decabromodiphenyl oxide" -"TX008673","616-45-5","2-Pyrrolidinone" -"TX008685","112-14-1","Octyl acetate" -"TX008690","3524-68-3","Pentaerythritol triacrylate" -"TX008698","3118-97-6","C.I. Solvent Orange 7" -"TX008704","13048-33-4","1,6-Hexanediol diacrylate" -"TX008707","8000-41-7","Terpineol" -"TX008715","2078-54-8","Propofol" -"TX008724","1067-53-4","Tris(2-methoxyethoxy)vinylsilane" -"TX008726","1760-24-3","N-[3-(Trimethoxysilyl)propyl]ethane-1,2-diamine" -"TX008731","612-83-9","3,3'-Dichlorobenzidine dihydrochloride" -"TX008734","78491-02-8","Diazolidinyl urea" -"TX008744","112-80-1","Oleic acid" -"TX008746","120-51-4","Benzyl benzoate" -"TX008759","2409-55-4","2-tert-Butyl-4-methylphenol" -"TX008763","583-78-8","2,5-Dichlorophenol" -"TX008765","556-52-5","Glycidol" -"TX008768","10016-20-3","alpha-Cyclodextrin" -"TX008800","860-22-0","C.I. Acid Blue 74" -"TX008808","18794-84-8","trans-beta-Farnesene" -"TX008831","112-07-2","2-Butoxyethyl acetate" -"TX008835","57-10-3","Hexadecanoic acid" -"TX008837","50-81-7","L-Ascorbic acid" -"TX008849","104-66-5","1,2-Diphenoxyethane" -"TX008863","7011-83-8","Dihydrojasmone lactone" -"TX008879","15214-89-8","2-Acrylamido-2-methyl-1-propanesulfonic acid" -"TX008884","3252-43-5","Dibromoacetonitrile" -"TX008911","1646-87-3","Aldicarb sulfoxide" -"TX008940","156-10-5","4-Nitrosodiphenylamine" -"TX008967","103-09-3","2-Ethylhexyl acetate" -"TX008996","142-16-5","Bis(2-ethylhexyl) maleate" -"TX009003","103-11-7","2-Ethylhexyl acrylate" -"TX009007","78-69-3","3,7-Dimethyl-3-octanol" -"TX009019","39236-46-9","Imidazolidinyl urea" -"TX009031","140-49-8","4'-(Chloroacetyl)acetanilide" -"TX009035","102-06-7","1,3-Diphenylguanidine" -"TX009041","94-18-8","Benzylparaben" -"TX009051","630-56-8","Hydroxyprogesterone caproate" -"TX009063","51580-86-0","Sodium dichloro-s-triazinetrione dihydrate" -"TX009065","480-40-0","Chrysin" -"TX009067","142-04-1","Aniline hydrochloride" -"TX009070","13292-46-1","Rifampicin" -"TX009080","20265-97-8","4-Methoxyaniline hydrochloride" -"TX009091","NOCAS_47218","Sodium bisulfite, mixture of NaHSO3 and Na2S2O5" -"TX009150","8018-01-7","Mancozeb" -"TX009156","76578-14-8","Quizalofop-ethyl" -"TX009165","836-30-6","4-Nitro-N-phenylaniline" -"TX009193","73-31-4","Melatonin" -"TX009211","7659-86-1","2-Ethylhexyl sulfanylacetate" -"TX009220","23386-52-9","Dicyclohexyl sodium sulfosuccinate" -"TX009242","1459-93-4","Dimethyl isophthalate" -"TX009245","111-20-6","Decanedioic acid" -"TX009258","271-89-6","2,3-Benzofuran" -"TX009272","550-44-7","N-Methylphthalimide" -"TX009281","919-30-2","3-Aminopropyltriethoxysilane" -"TX009285","960-71-4","Triphenylborane" -"TX009307","112-35-6","2-[2-(2-Methoxyethoxy)ethoxy]ethanol" -"TX009310","111-11-5","Methyl octanoate" -"TX009349","110-42-9","Methyl decanoate" -"TX009353","112-55-0","1-Dodecanethiol" -"TX009384","1212-29-9","N,N'-Dicyclohexylthiourea" -"TX009389","6789-88-4","Hexyl benzoate" -"TX009393","112-60-7","Tetraethylene glycol" -"TX009405","94-60-0","Dimethyl hexahydroterephthalate" -"TX009413","90823-38-4","Denatonium saccharide" -"TX009419","98319-26-7","Finasteride" -"TX009434","111-27-3","1-Hexanol" -"TX009469","108-39-4","m-Cresol" -"TX009478","112-18-5","N,N-Dimethyldodecan-1-amine" -"TX009480","16219-75-3","5-Ethylidene-2-norbornene" -"TX009482","298-07-7","Bis(2-ethylhexyl) phosphate" -"TX009484","90-72-2","2,4,6-Tris(dimethylaminomethyl)phenol" -"TX009499","96-18-4","1,2,3-Trichloropropane" -"TX009515","108-94-1","Cyclohexanone" -"TX009542","107-46-0","Hexamethyldisiloxane" -"TX009546","112-63-0","Methyl linoleate" -"TX009562","109-52-4","Pentanoic acid" -"TX009566","68515-48-0","DINP branched" -"TX009571","75-07-0","Acetaldehyde" -"TX009582","9016-87-9","Polymethylene polyphenyl isocynate" -"TX009588","868-85-9","Dimethyl hydrogen phosphite" -"TX009604","57-14-7","1,1-Dimethylhydrazine" -"TX009641","103-65-1","Propylbenzene" -"TX009652","1330-78-5","Tricresyl phosphate" -"TX009662","108-38-3","1,3-Dimethylbenzene" -"TX009664","644-97-3","Phenyl phosphorus dichloride" -"TX009710","1675-54-3","Bisphenol A diglycidyl ether" -"TX009720","50-14-6","Ergocalciferol" -"TX009736","56-95-1","Chlorhexidine diacetate" -"TX009742","553-26-4","4,4'-Bipyridine" -"TX009750","13463-41-7","Zinc pyrithione" -"TX009766","520-36-5","Apigenin" -"TX009790","67485-29-4","Hydramethylnon" -"TX009792","58-18-4","17-Methyltestosterone" -"TX009802","66357-35-5","Ranitidine" -"TX009808","9004-82-4","Sodium lauryl polyoxyethylene ether sulfate" -"TX009816","119-07-3","Octyl decyl phthalate" -"TX009828","16079-88-2","Bromo-3-chloro-5,5-dimethylhydantoin" -"TX009841","127-39-9","Sodium 1,4-diisobutyl sulfosuccinate" -"TX009862","68959-20-6","Disiquonium chloride" -"TX009864","79-57-2","Oxytetracycline" -"TX009872","105-53-3","Diethyl propanedioate" -"TX009893","1120-04-3","Octadecyl sulfate sodium salt" -"TX009907","3653-48-3","MCPA-sodium" -"TX009943","26447-10-9","Ammonium xylene sulfonate" -"TX009957","53219-21-9","Dihydromyrcenol" -"TX009977","2782-57-2","Troclosene" -"TX009987","115-95-7","Linalyl acetate" -"TX010001","474-86-2","Equilin" -"TX010009","2392-39-4","Dexamethasone sodium phosphate" -"TX010035","66575-29-9","Forskolin" -"TX010052","989-38-8","Rhodamine 6G" -"TX010056","1241-94-7","2-Ethylhexyl diphenyl phosphate" -"TX010068","118-56-9","3,3,5-Trimethylcyclohexyl salicylate" -"TX010069","25152-84-5","(E,E)-2,4-Decadienal" -"TX010111","6379-73-3","Carvacryl methyl ether" -"TX010112","2465-27-2","Auramine hydrochloride" -"TX010165","85507-79-5","Phthalic acid, diundecyl ester, branched and linear" -"TX010177","68515-75-3","Hexanedioic acid, di-C7-9-branched and linear alkyl esters" -"TX010183","98730-04-2","Benoxacor" -"TX010199","1638-22-8","4-Butylphenol" -"TX010202","13473-26-2","D&C Red 27" -"TX010217","13684-63-4","Phenmedipham" -"TX010228","64359-81-5","4,5-Dichloro-2-octyl-3(2H)-isothiazolone" -"TX010235","10081-67-1","4-(2-Phenylpropan-2-yl)-N-[4-(2-phenylpropan-2-yl)phenyl]aniline" -"TX010291","77-06-5","Gibberellic acid" -"TX010297","29122-68-7","Atenolol" -"TX010299","491-80-5","Biochanin A" -"TX010325","144-49-0","Fluoroacetic acid" -"TX010330","16356-11-9","1,3,5-Undecatriene" -"TX010334","103-69-5","N-Ethylaniline" -"TX010353","24851-98-7","Methyl dihydrojasmonate" -"TX010357","2043-57-4","1H,1H,2H,2H-Perfluorooctyl iodide" -"TX010358","77-90-7","Acetyl tributyl citrate" -"TX010366","126-00-1","Diphenolic acid" -"TX010572","94-47-3","2-Phenylethyl benzoate" -"TX010870","1763-23-1","PFOS" -"TX010993","80-07-9","4,4'-Dichlorodiphenyl sulfone" -"TX011176","60-12-8","2-Phenylethanol" -"TX011208","111-62-6","Ethyl oleate" -"TX011231","123-96-6","2-Octanol" -"TX011236","54464-57-2","1-(2,3,8,8-Tetramethyl-1,2,3,4,5,6,7,8-octahydronaphthalen-2-yl)ethanone" -"TX011250","645-56-7","4-Propylphenol" -"TX011264","58-56-0","Pyridoxine hydrochloride" -"TX011276","124-19-6","Nonanal" -"TX011349","123-05-7","2-Ethylhexanal" -"TX011371","118-82-1","4,4'-Methylenebis(2,6-di-t-butylphenol)" -"TX011414","124-03-8","Ethylhexadecyldimethylammonium bromide" -"TX011420","111-70-6","1-Heptanol" -"TX011425","121-39-1","Ethyl 3-phenylglycidate" -"TX011469","111-55-7","1,2-Ethanediol diacetate" -"TX011482","134-31-6","8-Hydroxyquinoline sulfate" -"TX011545","37764-25-3","Dichlormid" -"TX011564","105-21-5","1,4-Heptanolide" -"TX011571","112-31-2","Decanal" -"TX011613","85532-75-8","PK 11195" -"TX011622","117428-22-5","Picoxystrobin" -"TX011625","54-62-6","4-Aminofolic acid" -"TX011630","41481-66-7","4,4'-Sulfonylbis[2-(prop-2-en-1-yl)phenol]" -"TX011636","NOCAS_47394","Grinstad Soft-N-Safe" -"TX011638","4449-51-8","Cyclopamine" -"TX011660","NOCAS_48176","YM218" -"TX011664","151506-44-4","FR140423" -"TX011720","1095-90-5","Methadone hydrochloride" -"TX011877","3173-72-6","1,5-Naphthalene diisocyanate" -"TX011879","98105-99-8","Sarafloxacin" -"TX011884","509-34-2","C.I. Solvent Red 49" -"TX011886","101-67-7","4,4'-Dioctyldiphenylamine" -"TX011893","78-98-8","Methyl glyoxal" -"TX011894","123-02-4","1-Phenyltridecane" -"TX011903","41484-35-9","Thioethylene glycol bis(3,5-di-tert-butyl-4-hydroxyhydrocinnamate)" -"TX011905","94-86-0","2-Ethoxy-5-(1-propenyl)phenol" -"TX011910","596-03-2","4',5'-Dibromofluorescein" -"TX012209","66-81-9","Cycloheximide" -"TX012211","521-18-6","5alpha-Dihydrotestosterone" -"TX012263","NOCAS_48514","PharmaGSID_48514" -"TX012264","NOCAS_48518","PharmaGSID_48518" -"TX012265","825643-57-0","PharmaGSID_48513" -"TX012266","107071-66-9","Ro 23-7637" -"TX012267","625114-41-2","Piragliatin" -"TX012268","NOCAS_48516","PharmaGSID_48516" -"TX012269","686756-87-6","PharmaGSID_48519" -"TX012270","1191914-21-2","PharmaGSID_48521" -"TX012271","NOCAS_48509","PharmaGSID_48509" -"TX012272","NOCAS_48505","PharmaGSID_48505" -"TX012273","588941-45-1","PharmaGSID_48506" -"TX012274","460081-99-6","PharmaGSID_48510" -"TX012275","NOCAS_48507","PharmaGSID_48507" -"TX012276","1062243-51-9","PharmaGSID_48511" -"TX012277","2481-94-9","C.I. Solvent Yellow 56" -"TX012279","29548-30-9","Farnesyl acetate" -"TX012284","4221-68-5","1,1-Bis(3-cyclohexyl-4-hydroxyphenyl)cyclohexane" -"TX012286","90982-32-4","Chlorimuron-ethyl" -"TX012287","70630-17-0","Metalaxyl-M" -"TX012290","563-04-2","Tri-m-tolyl phosphate" -"TX012291","135590-91-9","Mefenpyr-diethyl" -"TX012293","930-55-2","N-Nitrosopyrrolidine" -"TX012294","26896-20-8","Neodecanoic acid" -"TX012295","108419-33-6","Acetic acid, C8-10-branched alkyl esters, C9-rich" -"TX012297","4553-62-2","2-Methylpentanedinitrile" -"TX012299","111-40-0","Diethylenetriamine" -"TX012300","1333-39-7","Phenolsulfonic acid" -"TX012301","10042-59-8","2-Propyl-1-heptanol" -"TX012302","108-32-7","Propylene carbonate" -"TX012303","9016-00-6","Polydimethylsiloxane" -"TX012304","116-02-9","3,3,5-Trimethylcyclohexanol" -"TX012305","13254-34-7","2,6-Dimethyl-2-heptanol" -"TX012306","104-45-0","4-Propylanisole" -"TX012307","94-96-2","2-Ethyl-1,3-hexanediol" -"TX012308","127-19-5","N,N-Dimethylacetamide" -"TX012309","75-50-3","Trimethylamine" -"TX012310","68-11-1","Thioglycolic acid" -"TX012311","89-87-2","1,3-Dimethyl-4-nitrobenzene" -"TX012312","7773-06-0","Ammonium sulfamate" -"TX012325","8018-01-7","Mancozeb" -"TX012337","79-97-0","3,3'-Dimethylbisphenol A" -"TX012340","50-65-7","Niclosamide" -"TX012521","712-50-5","Cyclohexylphenylketone" -"TX012537","67-30-1","Tetrac" -"TX012553","NOCAS_48522","HMR1171 trifluoroacetate (1:1)" -"TX012554","129298-91-5","TNP-470" -"TX012606","2971-36-0","2,2-Bis(4-hydroxyphenyl)-1,1,1-trichloroethane" -"TX012611","52806-53-8","Hydroxyflutamide" -"TX012622","639-58-7","Triphenyltin chloride" -"TX012623","121-54-0","Benzethonium chloride" -"TX012627","1939-36-2","Trimethylenediaminetetraacetic acid" -"TX012628","17354-14-2","1,4-Bis(butylamino)anthracene-9,10-dione" -"TX012631","10022-28-3","1,1-Dimethoxyoctane" -"TX012641","239110-15-7","Fluopicolide" -"TX012643","163515-14-8","Dimethenamid-P" -"TX012645","1885-29-6","2-Aminobenzonitrile" -"TX012646","2114-11-6","Allyl carbamate" -"TX012647","5405-41-4","Ethyl 3-hydroxybutyrate" -"TX012648","105-90-8","Geranyl propionate" -"TX012649","1879-09-0","6-tert-Butyl-2,4-dimethylphenol" -"TX012651","3648-21-3","Diheptyl phthalate" -"TX012652","106-32-1","Ethyl octanoate" -"TX012653","135-02-4","2-Methoxybenzaldehyde" -"TX012654","452-58-4","2,3-Diaminopyridine" -"TX012655","4856-95-5","Borane - morpholine complex" -"TX012656","1609-47-8","Diethyl dicarbonate" -"TX012657","108-74-7","Hexahydro-1,3,5-trimethyl-1,3,5-triazine" -"TX012658","109-08-0","2-Methylpyrazine" -"TX012659","150-19-6","3-Methoxyphenol" -"TX012660","140-53-4","4-Chlorophenylacetonitrile" -"TX012670","78-30-8","Tri-o-cresyl phosphate" -"TX013433","54686-97-4","Bis(p-methylbenzylidene)sorbitol" -"TX013434","92-44-4","2,3-Dihydroxynaphthalene" -"TX013435","85-22-3","2,3,4,5,6-Pentabromoethylbenzene" -"TX013437","122931-48-0","Rimsulfuron" -"TX013438","110553-27-0","2-Methyl-4,6-bis[(octylthio)methyl]phenol" -"TX013448","927-62-8","1-Butanamine, N,N-dimethyl-" -"TX013465","763-32-6","3-Methylbut-3-en-1-ol" -"TX013466","700-13-0","2,3,5-Trimethylhydroquinone" -"TX013470","78-97-7","Lactonitrile" -"TX013472","81-30-1","Naphthalene-1,8:4,5-tetracarboxylic dianhydride" -"TX013474","719-59-5","2-Amino-5-chlorobenzophenone" -"TX013481","693-54-9","2-Decanone" -"TX013482","626-60-8","3-Chloropyridine" -"TX013484","6117-91-5","But-2-en-1-ol" -"TX013494","93-53-8","Hydratropaldehyde" -"TX013499","87-91-2","Diethyl L-tartrate" -"TX013505","5888-33-5","Isobornyl acrylate" -"TX013506","7005-72-3","1-Chloro-4-phenoxybenzene" -"TX013507","75980-60-8","Diphenyl(2,4,6-trimethylbenzoyl)phosphine oxide" -"TX013508","626-39-1","1,3,5-Tribromobenzene" -"TX013510","56-37-1","Benzyltriethylammonium chloride" -"TX013511","95-56-7","2-Bromophenol" -"TX013520","98-02-2","2-Furylmethanethiol" -"TX013522","65-71-4","Thymine" -"TX013526","86-98-6","4,7-Dichloroquinoline" -"TX013527","92-91-1","4'-Acetylbiphenyl" -"TX013532","86-28-2","9-Ethylcarbazole" -"TX013536","603-36-1","Triphenylstibine" -"TX013537","20662-14-0","Scandium chloride hexahydrate" -"TX013540","821-48-7","Bis(2-chloroethyl)amine hydrochloride" -"TX013541","6283-25-6","2-Chloro-5-nitroaniline" -"TX013542","79-07-2","Acetamide, 2-chloro-" -"TX013543","827-94-1","2,6-Dibromo-4-nitroaniline" -"TX013544","716-79-0","2-Phenylbenzimidazole" -"TX013546","5977-14-0","3-Oxobutanamide" -"TX013549","120983-64-4","Pyrasulfotole metabolite (SXX 0665)" -"TX013550","569-64-2","Malachite green" -"TX013551","81-61-8","Quinalizarin" -"TX013553","67-71-0","Dimethyl sulfone" -"TX013554","687-47-8","(L)-(-)-Ethyl lactate" -"TX013555","615-20-3","2-Chlorobenzothiazole" -"TX013557","60-01-5","Glycerol tributyrate" -"TX013560","619-73-8","4-Nitrobenzyl alcohol" -"TX013563","626-64-2","4-Pyridinol" -"TX013565","5655-61-8","(-)Bronyl acetate" -"TX013566","31482-56-1","C.I. Disperse Orange 25" -"TX013567","707-61-9","2,3-Dihydro-4-methyl-1-phenyl-1H-phosphole 1-oxide" -"TX013571","611-59-6","1,7-Dimethylxanthine" -"TX013573","1207-12-1","4,6-Dimethyldibenzothiophene" -"TX013575","6358-53-8","C.I. Solvent Red 80" -"TX013576","5949-05-3","(S)-(-)-Citronellal" -"TX013577","6174-86-3","3-Chloro-7-hydroxy-4-methyl-2-benzopyrone" -"TX013578","21679-31-2","Chromium(III) acetylacetonate" -"TX013582","623-33-6","Ethyl glycinate hydrochloride" -"TX013594","93-52-7","1,2-dibromo(phenyl)ethane" -"TX013608","6175-45-7","2,2-Diethoxyacetophenone" -"TX013610","35958-30-6","Phenol, 2,2'-ethylidenebis[4,6-bis(1,1-dimethylethyl)-" -"TX013738","87-13-8","Diethyl ethoxymethylenemalonate" -"TX013755","873-32-5","2-Chlorobenzonitrile" -"TX013756","82-44-0","1-Chloroanthraquinone" -"TX013761","1672-46-4","Digoxigenin" -"TX013772","99129-21-2","Clethodim" -"TX013775","76-83-5","Trityl chloride" -"TX013776","89-75-8","2,4-Dichlorobenzoyl chloride" -"TX014251","10061-01-5","(Z)-Dichloropropene" -"TX014271","68844-77-9","Astemizole" -"TX014272","147526-32-7","Pitavastatin calcium" -"TX014277","143201-11-0","Cerivastatin sodium" -"TX014279","142-29-0","Cyclopentene" -"TX014280","111-34-2","Butyl vinyl ether" -"TX014281","100-43-6","4-Vinylpyridine" -"TX014344","142-19-8","Prop-2-en-1-yl heptanoate" -"TX014346","76703-62-3","gamma-Cyhalothrin" -"TX014347","243973-20-8","Pinoxaden" -"TX014349","97-89-2","Citronellyl isobutyrate" -"TX014357","108-31-6","2,5-Furandione" -"TX014358","4719-04-4","1,3,5-Triazine-1,3,5(2H,4H,6H)-triethanol" -"TX014360","64091-91-4","4-(N-Methyl-N-nitrosamino)-1-(3-pyridyl)-1-butanone" -"TX014362","584-03-2","1,2-Butanediol" -"TX014364","55179-31-2","Bitertanol" -"TX014377","171118-09-5","Metolachlor ESA" -"TX014380","18015-76-4","C.I. Basic Green 4 oxalate (1:x)" -"TX014392","1319-77-3","Cresol" -"TX014396","7492-66-2","Citral diethyl acetal" -"TX014401","51384-51-1","Metoprolol" -"TX014402","20120-33-6","Phosphonic acid, (3-((hydroxymethyl)amino)-3-oxopropyl)-, dimethyl ester" -"TX014404","76014-81-8","4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanol" -"TX014415","832-69-9","1-Methyl phenanthrene" -"TX014418","147150-35-4","Cloransulam-methyl" -"TX014419","5742-17-6","2,4-D, isopropylamine salt" -"TX014430","3697-42-5","Chlorhexidine dihydrochloride" -"TX014455","54-31-9","Furosemide" -"TX014482","67762-27-0","Alcohols, C16-18" -"TX014486","187022-11-3","Acetochlor ESA" -"TX014500","142-92-7","Hexyl acetate" -"TX014518","108-89-4","4-Methylpyridine" -"TX014524","2499-95-8","Hexyl acrylate" -"TX014540","503-74-2","Isovaleric acid" -"TX014554","2835-39-4","Allyl isovalerate" -"TX014584","106-36-5","Propyl propionate" -"TX014586","108-03-2","1-Nitropropane" -"TX014610","110-93-0","6-Methyl-5-hepten-2-one" -"TX014614","111-85-3","1-Chlorooctane" -"TX014626","56-75-7","Chloramphenicol" -"TX014641","97-86-9","Isobutyl methacrylate" -"TX014644","1135-66-6","(-)-Isolongifolene" -"TX014648","52663-68-0","2,2',3,4',5,5',6-Heptachloro-1,1'-biphenyl" -"TX014654","473-55-2","Pinane" -"TX014671","6842-15-5","1-Propene, tetramer" -"TX014674","462-95-3","Diethoxymethane" -"TX014675","544-01-4","Isoamyl ether" -"TX014676","3388-04-3","beta-(3,4-Epoxycyclohexyl)ethyltrimethoxysilane" -"TX014677","23726-91-2","(E)-beta-Damascone" -"TX014678","121-72-2","N,N,3-Trimethylaniline" -"TX014679","108-48-5","2,6-Dimethylpyridine" -"TX014680","2680-03-7","N,N-Dimethylacrylamide" -"TX014681","10416-59-8","N,O-bis(Trimethylsilyl)acetamide" -"TX014686","107-70-0","4-Methoxy-4-methyl-2-pentanone" -"TX014712","526-73-8","1,2,3-Trimethylbenzene" -"TX014713","115-18-4","2-Methyl-3-buten-2-ol" -"TX014714","17557-23-2","Neopentyl glycol diglycidyl ether" -"TX014715","109-97-7","Pyrrole" -"TX014716","108-87-2","Methylcyclohexane" -"TX014717","104-90-5","5-Ethyl-2-methylpyridine" -"TX014718","123-15-9","2-Methylpentanal" -"TX014719","110-01-0","Tetrahydrothiophene" -"TX014720","16529-56-9","2-Methyl-3-butenenitrile" -"TX014721","135-98-8","sec-Butylbenzene" -"TX014722","498-81-7","Dihydro-alpha-terpineol" -"TX014723","103-28-6","Benzyl 2-methylpropanoate" -"TX014724","141-93-5","1,3-Diethylbenzene" -"TX014725","122-73-6","Benzyl 3-methylbutyl ether" -"TX014726","150-46-9","Boric acid, triethyl ester" -"TX014727","102-85-2","Tributyl phosphite" -"TX014728","3852-09-3","Methyl 3-methoxypropionate" -"TX014729","16409-43-1","4-Methyl-2-(2-methylprop-1-en-1-yl)tetrahydro-2H-pyran" -"TX014730","175178-82-2","Tyrphostin" -"TX014741","5131-66-8","1-Butoxy-2-propanol" -"TX014752","98-29-3","4-tert-Butylcatechol" -"TX014760","126-75-0","Demeton-S" -"TX014765","212141-51-0","Vatalanib dihydrochloride" -"TX014768","826-36-8","2,2,6,6-Tetramethyl-4-piperidone" -"TX014774","646-06-0","1,3-Dioxolane" -"TX014823","50-33-9","Phenylbutazone" -"TX014824","504-63-2","1,3-Propanediol" -"TX014830","1747-60-0","2-Amino-6-methoxybenzothiazole" -"TX014832","487-68-3","2,4,6-Trimethylbenzaldehyde" -"TX014833","3120-74-9","3-Methyl-4-(methylthio)phenol" -"TX014835","17420-30-3","Benzonitrile, 2-amino-5-nitro-" -"TX014837","2497-06-5","Disulfoton sulfone" -"TX014839","464-48-2","(1S)-(-)-Camphor" -"TX014843","23128-74-7","Antioxidant 1098" -"TX014844","23696-85-7","Damascenone" -"TX014845","33693-04-8","Terbumeton" -"TX014846","2859-67-8","3-(3-Pyridyl)-1-propanol" -"TX014847","2032-65-7","Methiocarb" -"TX014848","139968-49-3","Metaflumizone" -"TX014850","1656-48-0","3,3'-Oxydipropionitrile" -"TX014853","540-38-5","4-Iodophenol" -"TX014854","NOCAS_57890","Anti-OP-18/Stathmin antibody produced in rabbit" -"TX014855","56070-16-7","Terbufos sulfone" -"TX014856","1139-30-6","(-)Carophyllene oxide" -"TX014857","551-93-9","2'-Aminoacetophenone" -"TX014858","2588-04-7","Phorate sulfone" -"TX014859","144-74-1","Sulfathiazole sodium" -"TX014860","103-26-4","Methyl cinnamate" -"TX014861","122-01-0","4-Chlorobenzoyl chloride" -"TX014862","1885-14-9","Phenyl carbonochloridate" -"TX014863","123-56-8","Succinimide" -"TX014864","120-21-8","4-(Diethylamino)benzaldehyde" -"TX014865","4584-49-0","2-Chloropropyldimethylamine hydrochloride" -"TX014866","2479-46-1","1,3-Bis(4-aminophenoxy)benzene" -"TX014867","14024-18-1","Iron(III) acetylacetonate" -"TX014868","110-75-8","2-Chloroethyl vinyl ether" -"TX014869","105-31-7","Hex-1-yn-3-ol" -"TX014870","496-11-7","Indan" -"TX014871","2426-54-2","2-(Diethylamino)ethyl acrylate" -"TX014872","1752-30-3","Acetone thiosemicarbazide" -"TX014873","141-91-3","2,6-Dimethyl morpholine" -"TX014874","116-17-6","Tripropan-2-yl phosphite" -"TX014875","103-56-0","3-Phenylprop-2-en-1-yl propanoate" -"TX014876","14938-35-3","4-Pentylphenol" -"TX014877","17321-47-0","O,O-Dimethyl phosphoramidothioate" -"TX014878","136-85-6","5-Methyl-1H-benzotriazole" -"TX014879","111-31-9","1-Hexanethiol" -"TX014880","3068-00-6","1,2,4-Butanetriol" -"TX014881","130-15-4","1,4-Naphthoquinone" -"TX014882","1489-69-6","Cyclopropanecarboxaldehyde" -"TX014883","319-86-8","delta-Hexachlorocyclohexane" -"TX014884","213464-77-8","Orthosulfamuron" -"TX014885","53-41-8","Androsterone" -"TX014886","1678-91-7","Ethylcyclohexane" -"TX014887","1885-38-7","(2E)-3-Phenylprop-2-enenitrile" -"TX014888","3277-26-7","1,1,3,3-Tetramethyldisiloxane" -"TX014889","121-87-9","2-Chloro-4-nitroaniline" -"TX014890","2402-78-0","2,6-Dichloropyridine" -"TX014891","134-85-0","4-Chlorobenzophenone" -"TX014892","2648-61-5","2,2-Dichloro-1-phenylethanone" -"TX014893","140939-17-9","Alachlor sec-oxanilic acid sodium salt" -"TX014894","35045-02-4","Metribuzin-DA" -"TX014896","152019-73-3","Metolachlor OA" -"TX014897","56507-37-0","Diketometribuzin" -"TX014898","506-68-3","Cyanogen bromide" -"TX014901","301-00-8","Methyl linolenate" -"TX014902","19721-22-3","3-Mercapto-1-propanol" -"TX014903","50-69-1","D-Ribose" -"TX014904","13963-57-0","Aluminum trisacetoacetate" -"TX014905","100-25-4","1,4-Dinitrobenzene" -"TX014906","1470-94-6","Indan-5-ol" -"TX014907","17754-90-4","4-(Diethylamino)salicylaldehyde" -"TX014908","13183-79-4","1-N-Methyl-5-thiotetrazole" -"TX014909","15059-52-6","Dysprosium(III) chloride hexahydrate" -"TX014910","10482-56-1","(L)-alpha-Terpineol" -"TX014911","109-04-6","2-Bromopyridine" -"TX014912","1100-88-5","Benzyltriphenylphosphonium chloride" -"TX014913","2832-40-8","C.I. Disperse Yellow 3" -"TX014914","364-76-1","4-Fluoro-3-nitroaniline" -"TX014915","4584-46-7","(2-Chloroethyl)dimethylamine hydrochloride" -"TX014916","1121-78-4","6-Methyl-3-hydroxypyridine" -"TX014917","13759-92-7","Europium(III) chloride hexahydrate" -"TX014918","16867-04-2","3-Hydroxy-2-pyridone" -"TX014919","131-52-2","Sodium pentachlorophenate" -"TX014920","13080-86-9","4,4'-(Isopropylidenebis(4,1-phenyleneoxy))dianiline" -"TX014921","142-08-5","2-Pyridone" -"TX014922","112-29-8","1-Bromodecane" -"TX014923","104-82-5","4-Methylbenzyl chloride" -"TX014924","90325-47-6","1,2,3-Hexanetriol" -"TX014925","24683-00-9","2-Isobutyl-3-methoxypyrazine" -"TX014926","124-05-0","1,2-Bis((chlorocarbonyl)oxy)ethane" -"TX014927","106-58-1","1,4-Dimethylpiperazine" -"TX014928","109-78-4","3-Hydroxypropanenitrile" -"TX014929","104-72-3","Decylbenzene" -"TX014930","100-80-1","3-Methylstyrene" -"TX014931","1569-60-4","6-Methylhept-5-en-2-ol" -"TX014932","111-43-3","Propyl ether" -"TX014962","95-69-2","4-Chloro-2-methylaniline" -"TX014970","495-18-1","N-Hydroxybenzamide" -"TX014971","700-06-1","Indole-3-carbinol" -"TX014985","134-32-7","1-Naphthylamine" -"TX014994","1469-48-3","cis-1,2,3,6-Tetrahydrophthalimide" -"TX015088","57018-04-9","Tolclofos-methyl" -"TX015102","89415-87-2","1,3-Dichloro-5-ethyl-5-methylhydantoin" -"TX015108","3064-70-8","Bis(trichloromethyl)sulfone" -"TX015116","193-39-5","Indeno(1,2,3-cd)pyrene" -"TX015122","61949-77-7","trans-Permethrin" -"TX015165","110-52-1","1,4-Dibromobutane" -"TX015169","115-84-4","2-Butyl-2-ethyl-1,3-propanediol" -"TX015170","513-86-0","Acetoin" -"TX015183","19660-16-3","2,3-Dibromopropyl acrylate" -"TX015192","611-14-3","1-Ethyl-2-methylbenzene" -"TX015203","3006-93-7","N,N'-1,3-Phenylenedimaleimide" -"TX015208","16484-77-8","Mecoprop-P" -"TX015215","5103-71-9","cis-Chlordane" -"TX015217","61949-76-6","1RS cis-Permethrin" -"TX015224","3424-82-6","o,p'-DDE" -"TX015226","91-67-8","N,N-Diethyl-m-toluidine" -"TX015239","5103-74-2","gamma-Chlordane" -"TX015272","140939-15-7","Alachlor ESA, sodium salt" -"TX015277","85721-33-1","Ciprofloxacin" -"TX015309","78-62-6","Diethoxy(dimethyl)silane" -"TX015310","78-77-3","1-Bromo-2-methylpropane" -"TX015311","80-48-8","Methyl toluene-4-sulphonate" -"TX015312","83-56-7","1,5-Dihydroxynaphthalene" -"TX015313","874-90-8","4-Anisonitrile" -"TX015314","88-10-8","Diethylcarbamoyl chloride" -"TX015315","89-61-2","1,4-Dichloro-2-nitrobenzene" -"TX015317","91-10-1","2,6-Dimethoxyphenol" -"TX015319","58654-67-4","2-Octanone, 5-methyl-" -"TX015320","589-66-2","2-Methylpropyl but-2-enoate" -"TX015321","591-12-8","alpha-Angelica lactone" -"TX015322","609-23-4","2,4,6-Triiodophenol" -"TX015324","619-50-1","Methyl p-nitrobenzoate" -"TX015325","6358-09-4","2-Amino-6-chloro-4-nitrophenol" -"TX015326","6440-58-0","1,3-Dimethylol-5,5-dimethylhydantoin" -"TX015358","84-58-2","2,3-Dichloro-5,6-dicyano-p-benzoquinone" -"TX015359","79-30-1","2-Methylpropanoyl chloride" -"TX015360","868-57-5","Methyl 2-methylbutyrate" -"TX015362","93-16-3","4-Prop-1-enylveratrole" -"TX015363","5694-00-8","Glycidamide" -"TX015364","96-54-8","1-Methylpyrrole" -"TX015366","627-30-5","3-Chloro-1-propanol" -"TX015367","616-47-7","1-Methylimidazole" -"TX015370","617-89-0","Furfurylamine" -"TX015371","622-45-7","Cyclohexyl acetate" -"TX015372","609-66-5","2-Chlorobenzamide" -"TX015373","763-29-1","2-Methylpent-1-ene" -"TX015374","767-00-0","4-Hydroxybenzonitrile" -"TX015375","7786-61-0","2-Methoxy-4-vinylphenol" -"TX015376","78-46-6","Dibutyl butylphosphonate" -"TX015377","643-28-7","2-Isopropylaniline" -"TX015378","591-22-0","3,5-Dimethylpyridine" -"TX015379","635-22-3","4-Chloro-3-nitroaniline" -"TX015381","64436-13-1","Arsenobetaine" -"TX015382","6843-66-9","Dimethoxy(diphenyl)silane" -"TX015383","122454-29-9","Tralopyril" -"TX015384","580-51-8","3-Phenylphenol" -"TX015386","75389-89-8","Diethylmethylbenzenediamine" -"TX015389","87-41-2","Phthalide" -"TX015390","79-09-4","Propionic acid" -"TX015391","628-81-9","1-Ethoxybutane" -"TX015392","109293-97-2","Diflufenzopyr" -"TX015393","20018-09-1","Diiodomethyl 4-methylphenyl sulfone" -"TX015394","2051-62-9","4-Chlorobiphenyl" -"TX015396","874-60-2","p-Toluoyl chloride" -"TX015397","565-80-0","2,4-Dimethylpentan-3-one" -"TX015398","1942-71-8","2-(4-tert-Butylphenoxy)cyclohexan-1-ol" -"TX015405","612-12-4","1,2-Bis(chloromethyl)benzene" -"TX015406","615-13-4","1,3-Dihydro-2H-inden-2-one" -"TX015407","626-48-2","6-Methyluracil" -"TX015527","3634-83-1","1,3-Bis(isocyanatomethyl)benzene" -"TX1012716","126-30-7","2,2-Dimethylpropane-1,3-diol" -"TX1012717","61-82-5","Amitrole" -"TX1012721","684-93-5","N-Nitroso-N-methylurea" -"TX1012726","123-77-3","Azodicarbonamide" -"TX1012735","6610-29-3","N-Methylhydrazinecarbothioamide" -"TX101701","124-09-4","1,6-Hexanediamine" -"TX101787","111-49-9","Hexamethyleneimine" -"TX103292","122-78-1","Phenylacetaldehyde" -"TX109150","8018-01-7","Mancozeb" -"TX110870","1763-23-1","PFOS" -"TX112294","26896-20-8","Neodecanoic acid" -"TX112302","108-32-7","Propylene carbonate" -"TX112325","8018-01-7","Mancozeb" -"TX209150","8018-01-7","Mancozeb" -"TX210870","1763-23-1","PFOS" -"TX212325","8018-01-7","Mancozeb" +"spid","casn","chnm" +"01140000A","26172-55-4","5-Chloro-2-methyl-3(2H)-isothiazolone" +"01140002A","109-43-3","Dibutyl decanedioate" +"01140004A","486-56-6","Cotinine" +"01140006A","2058-94-8","Perfluoroundecanoic acid" +"01140008A","732-11-6","Phosmet" +"01140010A","89-83-8","Thymol" +"01140012A","101-02-0","Triphenyl phosphite" +"01140014A","106-22-9","Citronellol" +"01140016A","36653-82-4","1-Hexadecanol" +"01140018A","79-39-0","Methacrylamide" +"01140020A","77-93-0","Triethyl citrate" +"01140022A","120-80-9","Catechol" +"01140024A","298-02-2","Phorate" +"01140026A","53-86-1","Indomethacin" +"01140028A","15307-79-6","Diclofenac sodium" +"01140030A","2550-40-5","Dicyclohexyl disulfide" +"01140032A","510-15-6","Chlorobenzilate" +"01140034A","2385-85-5","Mirex" +"01140036A","5915-41-3","Terbuthylazine" +"01140038A","6422-86-2","Bis(2-ethylhexyl) terephthalate" +"01140040A","27323-41-7","Dodecylbenzene sulfonate triethanolamine(1:1)" +"01140042A","3825-26-1","PFOA, ammonium salt" +"01140044A","24602-86-6","Tridemorph" +"01140046A","58-08-2","Caffeine" +"01140048A","65-85-0","Benzoic acid" +"01140050A","91-20-3","Naphthalene" +"01140052A","57-55-6","1,2-Propylene glycol" +"01140054A","84-66-2","Diethyl phthalate" +"01140056A","99-08-1","3-Nitrotoluene" +"01140058A","101-54-2","N-Phenyl-1,4-benzenediamine" +"01140060A","99-76-3","Methylparaben" +"01140062A","7632-00-0","Sodium nitrite" +"01140064A","120-71-8","2-Methoxy-5-methylaniline" +"01140066A","95-87-4","2,5-Dimethylphenol" +"01140068A","120-12-7","Anthracene" +"01140070A","111-69-3","Hexanedinitrile" +"01140072A","91-53-2","Ethoxyquin" +"01140074A","94-26-8","Butylparaben" +"01140076A","88-18-6","2-tert-Butylphenol" +"01140078A","132-64-9","Dibenzofuran" +"01140080A","83-32-9","Acenaphthene" +"01140082A","123-31-9","Hydroquinone" +"01140084A","106-46-7","1,4-Dichlorobenzene" +"01140086A","91-64-5","Coumarin" +"01140088A","87-62-7","2,6-Dimethylaniline" +"01140090A","96-48-0","4-Butyrolactone" +"01140092A","100-00-5","1-Chloro-4-nitrobenzene" +"01140094A","106-44-5","p-Cresol" +"01140096A","110-44-1","Sorbic acid" +"01140098A","51-28-5","2,4-Dinitrophenol" +"01140100A","98-01-1","Furfural" +"01140102A","375-85-9","Perfluoroheptanoic acid" +"01140104A","75-12-7","Formamide" +"01140106A","142-62-1","Hexanoic acid" +"01140108A","111-14-8","Heptanoic acid" +"01140110A","88-06-2","2,4,6-Trichlorophenol" +"01140112A","64-67-5","Diethyl sulfate" +"01140114A","643-79-8","1,2-Benzenedicarboxaldehyde" +"01140116A","118-52-5","1,3-Dichloro-5,5-dimethylhydantoin" +"01140118A","57-13-6","Urea" +"01140120A","95-95-4","2,4,5-Trichlorophenol" +"01140122A","78-59-1","Isophorone" +"01140124A","122-62-3","Bis(2-ethylhexyl) decanedioate" +"01140126A","120-47-8","Ethylparaben" +"01140128A","112-05-0","Nonanoic acid" +"01140130A","124-07-2","Octanoic acid" +"01140132A","105-67-9","2,4-Dimethylphenol" +"01140134A","58-55-9","Theophylline" +"01140136A","120-83-2","2,4-Dichlorophenol" +"01140138A","91-59-8","2-Naphthylamine" +"01140140A","123-42-2","Diacetone alcohol" +"01140142A","92-87-5","Benzidine" +"01140144A","100-51-6","Benzyl alcohol" +"01140146A","532-27-4","2-Chloroacetophenone" +"01140148A","99-99-0","4-Nitrotoluene" +"01140150A","119-90-4","3,3'-Dimethoxybenzidine" +"01140152A","83-41-0","1,2-Dimethyl-3-nitrobenzene" +"01140154A","101-55-3","p-Bromodiphenyl ether" +"01140156A","124-04-9","Hexanedioic acid" +"01140158A","98-95-3","Nitrobenzene" +"01140160A","115-77-5","Pentaerythritol" +"01140162A","134-03-2","Sodium L-ascorbate" +"01140164A","842-07-9","C.I. Solvent Yellow 14" +"01140166A","599-79-1","Sulfasalazine" +"01140168A","77-71-4","5,5-Dimethylhydantoin" +"01140170A","50-41-9","Clomiphene citrate (1:1)" +"01140172A","75-99-0","Dalapon" +"01140174A","111-42-2","Diethanolamine" +"01140176A","599-64-4","4-Cumylphenol" +"01140178A","131-55-5","2,2',4,4'-Tetrahydroxybenzophenone" +"01140180A","2943-75-1","Triethoxyoctylsilane" +"01140182A","123-25-1","Diethyl butanedioate" +"01140184A","7747-35-5","5-Ethyl-1-aza-3,7-dioxabicyclo[3.3.0]octane" +"01140186A","2243-62-1","1,5-Naphthalenediamine" +"01140188A","117-84-0","Dioctyl phthalate" +"01140190A","95-65-8","3,4-Dimethylphenol" +"01140192A","89-72-5","2-(Butan-2-yl)phenol" +"01140194A","3739-38-6","3-Phenoxybenzoic acid" +"01140196A","33703-08-1","Hexanedioic acid, diisononyl ester" +"01140198A","1843-05-6","Octabenzone" +"01140200A","60-56-0","Methimazole" +"01140202A","838-88-0","4,4'-Methylenebis(2-methylaniline)" +"01140204A","51-30-9","Isoproterenol hydrochloride" +"01140206A","528-29-0","1,2-Dinitrobenzene" +"01140208A","49562-28-9","Fenofibrate" +"01140210A","119-36-8","Methyl salicylate" +"01140212A","112-25-4","2-(Hexyloxy)ethanol" +"01140214A","128-04-1","Sodium dimethyldithiocarbamate" +"01140216A","2795-39-3","PFOS-K" +"01140218A","96-70-8","2-tert-Butyl-4-ethylphenol" +"01140220A","95-54-5","1,2-Phenylenediamine" +"01140222A","108-59-8","Dimethyl malonate" +"01140224A","99-66-1","Valproic acid" +"01140226A","375-95-1","PFNA" +"01140228A","105-60-2","Caprolactam" +"01140230A","576-26-1","2,6-Dimethylphenol" +"01140232A","3855-32-1","2,6,10-Trimethyl-2,6,10-triazaundecane" +"01140234A","102-71-6","Triethanolamine" +"01140236A","1303-11-3","Indium arsenide" +"01140238A","6381-77-7","Sodium erythorbate (1:1)" +"01140240A","621-64-7","N-Nitrosodipropylamine" +"01140242A","96-29-7","2-Butanone oxime" +"01140244A","55-98-1","Busulfan" +"01140246A","99-51-4","1,2-Dimethyl-4-nitrobenzene" +"01140248A","584-84-9","Toluene-2,4-diisocyanate" +"01140250A","77-48-5","1,3-Dibromo-5,5-dimethylhydantoin" +"01140252A","3871-99-6","PFHS-K" +"01140254A","3033-77-0","N,N,N-Trimethyl(oxiran-2-yl)methanaminium chloride" +"01140256A","924-16-3","N-Nitrosodibutylamine" +"01140258A","55285-14-8","Carbosulfan" +"01140260A","1445-75-6","Diisopropyl methylphosphonate" +"01140262A","72-55-9","p,p'-DDE" +"01140264A","51-21-8","5-Fluorouracil" +"01140266A","121-91-5","1,3-Benzenedicarboxylic acid" +"01140268A","126-73-8","Tributyl phosphate" +"01140270A","94-13-3","Propylparaben" +"01140272A","65-23-6","Pyridoxine" +"01140274A","627-93-0","Dimethyl adipate" +"01140276A","149-57-5","2-Ethylhexanoic acid" +"01140278A","102-76-1","Triacetin" +"01140280A","288-88-0","1H-1,2,4-Triazole" +"01140282A","120-61-6","Dimethyl terephthalate" +"01140284A","108-46-3","Resorcinol" +"01140286A","112-70-9","1-Tridecanol" +"01140288A","151-21-3","Sodium dodecyl sulfate" +"01140290A","101-86-0","2-Benzylideneoctanal" +"01140292A","101-77-9","4,4'-Methylenedianiline" +"01140294A","60-54-8","Tetracycline" +"01140296A","99-59-2","2-Methoxy-5-nitroaniline" +"01140298A","606-20-2","2,6-Dinitrotoluene" +"01140300A","2104-64-5","EPN" +"01140302A","55290-64-7","Dimethipin" +"01140304A","33820-53-0","Isopropalin" +"01140306A","112-30-1","1-Decanol" +"01140308A","136-77-6","4-Hexylresorcinol" +"01140310A","57-83-0","Progesterone" +"01140312A","4418-26-2","Sodium dehydroacetate" +"01140314A","112-00-5","Dodecyltrimethylammonium chloride" +"01140316A","309-00-2","Aldrin" +"01140318A","1156-19-0","Tolazamide" +"01140320A","77-40-7","Bisphenol B" +"01140322A","5392-40-5","3,7-Dimethyl-2,6-octadienal" +"01140324A","77-92-9","Citric acid" +"01140326A","143-50-0","Kepone" +"01140328A","872-50-4","N-Methyl-2-pyrrolidone" +"01140330A","73-22-3","l-Tryptophan" +"01140332A","111-87-5","1-Octanol" +"01140334A","145-73-3","Endothal" +"01140336A","104-67-6","5-Heptyldihydro-2(3H)-furanone" +"01140338A","141-43-5","Ethanolamine" +"01140340A","53-03-2","Prednisone" +"01140342A","57-63-6","17alpha-Ethinylestradiol" +"01140344A","828-00-2","Dimethoxane" +"01140346A","116-25-6","1-(Hydroxymethyl)-5,5-dimethylhydantoin" +"01140348A","110-85-0","Piperazine" +"01140350A","97-53-0","Eugenol" +"01140352A","98-54-4","4-tert-Butylphenol" +"01140354A","117-79-3","2-Aminoanthraquinone" +"01140356A","103-90-2","Acetaminophen" +"01140358A","7378-99-6","N,N-Dimethyloctylamine" +"01140360A","127-07-1","Hydroxyurea" +"01140362A","1934-21-0","FD&C Yellow 5" +"01140364A","84-75-3","Dihexyl phthalate" +"01140366A","25956-17-6","Allura Red C.I.16035" +"01140368A","106-65-0","Dimethyl succinate" +"01140370A","105-99-7","Dibutyl hexanedioate" +"01140372A","92-52-4","Biphenyl" +"01140374A","584-13-4","4-Amino-1,2,4-triazole" +"01140376A","101-20-2","Triclocarban" +"01140378A","298-46-4","Carbamazepine" +"01140380A","5216-25-1","4-Chlorobenzotrichloride" +"01140382A","79-94-7","3,3',5,5'-Tetrabromobisphenol A" +"01140384A","68515-49-1","1,2-Benzenedicarboxylic acid, di-C9-11-branched alkyl esters, C10-rich" +"01140386A","126-86-3","2,4,7,9-Tetramethyl-5-decyne-4,7-diol" +"01140388A","149-30-4","2-Mercaptobenzothiazole" +"01140390A","78-42-2","Tris(2-ethylhexyl) phosphate" +"01140392A","80-08-0","Dapsone" +"01140394A","629-76-5","1-Pentadecanol" +"01140396A","111-82-0","Methyl dodecanoate" +"01140398A","112-49-2","Triethylene glycol dimethyl ether" +"01140400A","105-87-3","Geranyl acetate" +"01140402A","1120-71-4","1,3-Propane sultone" +"01140404A","115-96-8","Tris(2-chloroethyl) phosphate" +"01140406A","88-12-0","N-Vinyl-2-pyrrolidone" +"01140408A","91-22-5","Quinoline" +"01140410A","121-33-5","4-Hydroxy-3-methoxybenzaldehyde" +"01140412A","614-45-9","tert-Butyl perbenzoate" +"01140414A","80-43-3","Dicumyl peroxide" +"01140416A","93-15-2","Methyleugenol" +"01140418A","23593-75-1","Clotrimazole" +"01140420A","100-54-9","3-Pyridinecarbonitrile" +"01140422A","141-04-8","Diisobutyl adipate" +"01140424A","150-68-5","Monuron" +"01140426A","732-26-3","2,4,6-Tris(tert-butyl)phenol" +"01140428A","111-76-2","2-Butoxyethanol" +"01140430A","112-50-5","2-[2-(2-Ethoxyethoxy)ethoxy]ethanol" +"01140432A","2451-62-9","Triglycidyl isocyanurate" +"01140434A","112-53-8","1-Dodecanol" +"01140436A","4455-26-9","N-Methyldioctylamine" +"01140438A","78-63-7","2,5-Dimethyl-2,5-di-(tert-butylperoxy)hexane" +"01140440A","29590-42-9","Isooctyl acrylate" +"01140442A","2783-94-0","FD&C Yellow 6" +"01140444A","79902-63-9","Simvastatin" +"01140446A","86479-06-3","Hexaflumuron" +"01140448A","27955-94-8","4,4',4""-Ethane-1,1,1-triyltriphenol" +"01140450A","124-94-7","Triamcinolone" +"01140452A","754-91-6","PFOSA" +"01140454A","110-62-3","Pentanal" +"01140456A","99-97-8","N,N,4-Trimethylaniline" +"01140458A","527-60-6","2,4,6-Trimethylphenol" +"01140460A","57-50-1","Sucrose" +"01140462A","50-55-5","Reserpine" +"01140464A","1260-17-9","Carminic acid" +"01140466A","99-54-7","3,4-Dichloronitrobenzene" +"01140468A","112-72-1","1-Tetradecanol" +"01140470A","126-11-4","2-(Hydroxymethyl)-2-nitro-1,3-propanediol" +"01140472A","13311-84-7","Flutamide" +"01140474A","10540-29-1","Tamoxifen" +"01140476A","2687-25-4","2,3-Diaminotoluene" +"01140478A","54-11-5","Nicotine" +"01140480A","137-30-4","Ziram" +"01140482A","115-86-6","Triphenyl phosphate" +"01140484A","1929-77-7","Vernolate" +"01140486A","115-28-6","Chlorendic acid" +"01140488A","72-54-8","p,p'-DDD" +"01140490A","95-80-7","2,4-Diaminotoluene" +"01140492A","56-81-5","Glycerol" +"01140494A","79-06-1","Acrylamide" +"01140496A","50-78-2","Aspirin" +"01140498A","121-00-6","2-tert-Butyl-4-methoxyphenol" +"01140500A","262376-75-0","HMR1426" +"01140502A","725228-45-5","AVE5638" +"01140504A","929601-09-2","SR58611" +"01140506A","NOCAS_47342","SR125047" +"01140508A","NOCAS_47374","SSR161421" +"01140510A","189003-92-7","Trelanserin" +"01140512A","NOCAS_47334","MK-968" +"01140514A","742693-38-5","SSR504734" +"01140516A","155990-20-8","SR271425" +"01140518A","NOCAS_47330","PharmaGSID_47330" +"01140520A","1068967-96-3","SAR102608" +"01140522A","473289-62-2","Ilepatril" +"01140524A","NOCAS_47346","SSR162369" +"01140526A","139290-65-6","Volinanserin" +"01140528A","NOCAS_47366","SAR115740" +"01140530A","298198-52-4","SSR180711" +"01140532A","NOCAS_47333","PharmaGSID_47333" +"01140534A","NOCAS_47362","SSR150106" +"01140536A","NOCAS_47351","SSR240612" +"01140538A","210826-40-7","CP-456773" +"01140540A","197077-55-7","UK-333747" +"01140542A","158081-99-3","CP-105696" +"01140544A","220860-50-4","CP-457920" +"01140546A","179465-71-5","CJ-013790" +"01140548A","290352-28-2","CP-634384" +"01140550A","135080-03-4","CP-100829" +"01140552A","501027-49-2","PD-0333941" +"01140554A","89-04-3","Trioctyl trimellitate" +"01140558A","194098-25-4","CP-409092" +"01140560A","484-17-3","9-Phenanthrol" +"01140562A","289716-94-5","CP-607366" +"01140564A","349495-42-7","PharmaGSID_47263" +"01140566A","177785-47-6","PharmaGSID_47261" +"01140568A","527680-56-4","PHA-00568487" +"01140570A","478149-53-0","PHA-00543613" +"01140572A","57-74-9","Chlordane" +"01140574A","261947-38-0","CP-532623" +"01140576A","134002-60-1","CP-085958" +"01140578A","113734-18-2","CP-114271" +"01140580A","249296-43-3","CJ-013610" +"01140582A","NOCAS_47265","CP-471358" +"01140584A","124378-77-4","Enadoline" +"01140586A","214535-77-0","CP-457677" +"01140588A","112733-06-9","Zenarestat" +"01140590A","199171-88-5","CP-401387" +"01140592A","253450-09-8","Besonprodil" +"01140594A","445295-04-5","CP-671305" +"01140596A","361343-19-3","Elzasonan" +"01140598A","NOCAS_47248","CI-1018" +"01140600A","27138-31-4","Di(propylene glycol) dibenzoate" +"01140602A","678-39-7","1,1,2,2-Tetrahydroperfluoro-1-decanol" +"01140604A","2155-70-6","Tributyltin methacrylate" +"01140608A","120-82-1","1,2,4-Trichlorobenzene" +"01140610A","169590-42-5","Celecoxib" +"01140612A","4291-63-8","Cladribine" +"01140614A","111-21-7","Triethylene glycol diacetate" +"01140616A","7173-51-5","Didecyldimethylammonium chloride" +"01140618A","3296-90-0","2,2-Bis(bromomethyl)-1,3-propanediol" +"01140620A","79-44-7","Dimethylcarbamoyl chloride" +"01140622A","334-48-5","Decanoic acid" +"01140624A","100-02-7","4-Nitrophenol" +"01140626A","1119-40-0","Dimethyl glutarate" +"01140628A","118-71-8","Maltol" +"01140630A","96-76-4","2,4-Di-tert-butylphenol" +"01140632A","6055-19-2","Cyclophosphamide monohydrate" +"01140634A","50-29-3","p,p'-DDT" +"01140636A","302-79-4","all-trans-Retinoic acid" +"01140638A","112-27-6","Triethylene glycol" +"01140640A","97-54-1","Isoeugenol" +"01140642A","1461-22-9","Tributyltin chloride" +"01140644A","4151-50-2","Sulfluramid" +"01140646A","131-18-0","Dipentyl phthalate" +"01140648A","1948-33-0","tert-Butylhydroquinone" +"01140650A","111-90-0","2-(2-Ethoxyethoxy)ethanol" +"01140652A","111-46-6","Diethylene glycol" +"01140654A","80-46-6","4-(2-Methylbutan-2-yl)phenol" +"01140656A","112-34-5","2-(2-Butoxyethoxy)ethanol" +"01140658A","99-71-8","4-(Butan-2-yl)phenol" +"01140660A","80844-07-1","Etofenprox" +"01140662A","150-13-0","4-Aminobenzoic acid" +"01140664A","111-77-3","Diethylene glycol monomethyl ether" +"01140666A","107-88-0","1,3-Butanediol" +"01140668A","108-11-2","4-Methyl-2-pentanol" +"01140670A","26628-22-8","Sodium azide" +"01140672A","579-66-8","2,6-Diethylaniline" +"01140674A","134-20-3","Methyl 2-aminobenzoate" +"01140676A","148-24-3","8-Hydroxyquinoline" +"01140678A","59-50-7","4-Chloro-3-methylphenol" +"01140680A","90-04-0","2-Anisidine" +"01140682A","102-60-3","N,N,N',N'-Tetrakis(2-Hydroxypropyl)ethylenediamine" +"01140684A","121-79-9","Propyl gallate" +"01140686A","59756-60-4","Fluridone" +"01140688A","104-40-5","4-Nonylphenol" +"01140690A","2433-14-9","4-Cyclohexylcyclohexanol" +"01140692A","84371-65-3","Mifepristone" +"01140694A","2416-94-6","2,3,6-Trimethylphenol" +"01140696A","1120-36-1","1-Tetradecene" +"01140698A","59-87-0","Nitrofurazone" +"01140700A","1806-26-4","4-Octylphenol" +"01140702A","140-66-9","4-(1,1,3,3-Tetramethylbutyl)phenol" +"01140704A","92-84-2","Phenothiazine" +"01140706A","60-09-3","4-Aminoazobenzene" +"01140708A","81-90-3","Phenolphthalin" +"01140710A","59-67-6","Nicotinic acid" +"01140714A","15310-01-7","Benodanil" +"01140716A","NOCAS_47387","SAR102779" +"01140718A","1861-32-1","Chlorthal-dimethyl" +"01140720A","NOCAS_47328","MK-274" +"01140722A","NOCAS_47377","AVE6324" +"01140724A","97-56-3","2-Amino-5-azotoluene" +"01140726A","94-59-7","Safrole" +"01140728A","57-91-0","17alpha-Estradiol" +"01140730A","108-93-0","Cyclohexanol" +"01140732A","7631-86-9","Silica" +"01140734A","33228-44-3","4-Pentylaniline" +"01140736A","108-01-0","Dimethylaminoethanol" +"01140738A","107-41-5","2-Methyl-2,4-pentanediol" +"01140740A","534-52-1","2-Methyl-4,6-dinitrophenol" +"01140742A","6846-50-0","2,2,4-Trimethyl-1,3-pentanediol diisobutyrate" +"01140744A","140-64-7","Pentamidine isethionate" +"01140746A","106-87-6","4-Vinyl-1-cyclohexene dioxide" +"01140748A","91-62-3","6-Methylquinoline" +"01140750A","92-68-2","4-Cyclohexylcyclohexanone" +"01140752A","5877-42-9","4-Ethyloct-1-yn-3-ol" +"01140754A","63612-50-0","Nilutamide" +"01140756A","52-01-7","Spironolactone" +"01140758A","15619-48-4","1-Benzylquinolinium chloride" +"01140760A","36673-16-2","Isopropyl triethanolamine titanate" +"01140762A","13071-79-9","Terbufos" +"01140764A","1987-50-4","4-Heptylphenol" +"01140766A","7758-19-2","Sodium chlorite" +"01140768A","82640-04-8","Raloxifene hydrochloride" +"01140770A","111-30-8","Glutaraldehyde" +"01140772A","84-16-2","meso-Hexestrol" +"01140774A","107-98-2","1-Methoxy-2-propanol" +"01140776A","62-75-9","N-Nitrosodimethylamine" +"01140778A","123-51-3","Isopentyl alcohol" +"01140780A","486-66-8","Daidzein" +"01140782A","57-85-2","Testosterone propionate" +"01140784A","135-19-3","2-Naphthalenol" +"01140786A","427-51-0","Cyproterone acetate" +"01140788A","77-89-4","Acetyltriethyl citrate" +"01140790A","108-45-2","1,3-Benzenediamine" +"01140792A","824-78-2","Sodium 4-nitrophenolate" +"01140794A","744-45-6","Diphenyl isophthalate" +"01140796A","446-86-6","Azathioprine" +"01140798A","2605-79-0","N,N-Dimethyldecylamine oxide" +"01140800A","108-80-5","Cyanuric acid" +"01140802A","97-77-8","Disulfiram" +"01140804A","5349-51-9","4-(2-Methylbutan-2-yl)cyclohexanol" +"01140806A","106-49-0","4-Methylaniline" +"01140808A","10605-21-7","Carbendazim" +"01140810A","307-24-4","PFHxA" +"01140812A","98-87-3","Benzal chloride" +"01140814A","7487-94-7","Mercuric chloride" +"01140816A","826-62-0","2-Norbornene-5,6-dicarboxylic anhydride" +"01140818A","102-27-2","N-Ethyl-3-methylaniline" +"01140820A","69-74-9","Cytarabine hydrochloride" +"01140822A","206-44-0","Fluoranthene" +"01140824A","107534-96-3","Tebuconazole" +"01140826A","103-33-3","Azobenzene" +"01140828A","121-14-2","2,4-Dinitrotoluene" +"01140830A","122-66-7","1,2-Diphenylhydrazine" +"01140832A","56-04-2","6-Methyl-2-thiouracil" +"01140834A","51-79-6","Urethane" +"01140836A","2144-53-8","Tridecafluorohexylethyl methacrylate" +"01140838A","577-11-7","Docusate sodium" +"01140840A","3319-31-1","Tris(2-ethylhexyl) trimellitate" +"01140842A","25155-30-0","Sodium dodecylbenzenesulfonate" +"01140844A","335-76-2","PFDA" +"01140846A","147-24-0","Diphenhydramine hydrochloride" +"01140848A","56-53-1","Diethylstilbestrol" +"01140850A","1034-01-1","Octyl gallate" +"01140852A","496-72-0","3,4-Diaminotoluene" +"01140854A","95-94-3","1,2,4,5-Tetrachlorobenzene" +"01140856A","2835-95-2","5-Amino-2-methylphenol" +"01140858A","111-44-4","Bis(2-chloroethyl) ether" +"01140860A","100-97-0","Methenamine" +"01140862A","117-39-5","Quercetin" +"01140864A","647-42-7","3,3,4,4,5,5,6,6,7,7,8,8,8-Tridecafluorooctan-1-ol" +"01140866A","72-20-8","Endrin" +"01140868A","84-69-5","Diisobutyl phthalate" +"01140870A","72178-02-0","Fomesafen" +"01140872A","106-47-8","4-Chloroaniline" +"01140874A","55-18-5","N-Nitrosodiethylamine" +"01140876A","76-44-8","Heptachlor" +"01140878A","627-18-9","3-Bromo-1-propanol" +"01140880A","57-97-6","7,12-Dimethylbenz(a)anthracene" +"01140882A","82385-42-0","Sodium saccharin hydrate" +"01140884A","68-26-8","Retinol" +"01140886A","81-81-2","Warfarin" +"01140888A","25265-71-8","Dipropylene glycol" +"01140890A","30516-87-1","3'-Azido-3'-deoxythymidine" +"01140892A","86386-73-4","Fluconazole" +"01140894A","3147-75-9","Octrizole" +"01140896A","87-61-6","1,2,3-Trichlorobenzene" +"01140898A","548-62-9","Gentian Violet" +"01140900A","58-14-0","Pyrimethamine" +"01140902A","2176-62-7","Pentachloropyridine" +"01140904A","59-30-3","Folic acid" +"01140906A","101-80-4","4,4'-Oxydianiline" +"01140908A","62-23-7","4-Nitrobenzoic acid" +"01140910A","6915-15-7","Malic acid" +"01140912A","3811-73-2","Sodium (2-pyridylthio)-N-oxide" +"01140914A","112-38-9","10-Undecenoic acid" +"01140916A","52-51-7","Bronopol" +"01140918A","106-24-1","Geraniol" +"01140920A","131-17-9","Diallyl phthalate" +"01140922A","101-61-1","4,4'-Methylenebis(N,N-dimethylaniline)" +"01140924A","99-55-8","2-Methyl-5-nitroaniline" +"01140926A","532-32-1","Sodium benzoate" +"01140928A","4180-23-8","(E)-Anethole" +"01140930A","22915-73-7","Hexane-1,6-diyl dibenzoate" +"01140932A","2432-87-3","Dioctyl succinate" +"01140934A","6624-73-3","Pentane-1,5-diyl dibenzoate" +"01140936A","82469-79-2","Butyryl trihexyl citrate" +"01140938A","120-55-8","Diethylene glycol dibenzoate" +"01140940A","67-20-9","Nitrofurantoin" +"01140942A","2058-46-0","Oxytetracycline hydrochloride" +"01140944A","56-55-3","Benz(a)anthracene" +"01140946A","100-01-6","4-Nitroaniline" +"01140948A","563-12-2","Ethion" +"01140950A","2921-88-2","Chlorpyrifos" +"01140952A","133-90-4","Chloramben" +"01140954A","69-09-0","Chlorpromazine hydrochloride" +"01140956A","50892-23-4","Pirinixic acid" +"01140958A","99-65-0","1,3-Dinitrobenzene" +"01140960A","64-86-8","Colchicine" +"01140962A","26530-20-1","Octhilinone" +"01140964A","103-24-2","Bis(2-ethylhexyl) nonanedioate" +"01140966A","108-44-1","3-Methylaniline" +"01140968A","34590-94-8","Dipropylene glycol monomethyl ether" +"01140970A","86-73-7","Fluorene" +"01140972A","85-01-8","Phenanthrene" +"01140974A","50-35-1","Thalidomide" +"01140976A","104795-68-8","CI-959" +"01140978A","95-83-0","4-Chloro-1,2-diaminobenzene" +"01140980A","91-66-7","N,N-Diethylaniline" +"01140982A","446-72-0","Genistein" +"01140984A","3056-17-5","Stavudine" +"01140986A","63-05-8","4-Androstene-3,17-dione" +"01140988A","86-30-6","N-Nitrosodiphenylamine" +"01140990A","112529-15-4","Pioglitazone hydrochloride" +"01140992A","84852-15-3","4-Nonylphenol, branched" +"01140994A","69655-05-6","2',3'-Dideoxyinosine" +"01140996A","52-86-8","Haloperidol" +"01140998A","29420-49-3","PFBS-K" +"01141000A","66-27-3","Methyl methanesulfonate" +"01141002A","79-16-3","N-Methylacetamide" +"01141004A","76-03-9","Trichloroacetic acid" +"01141006A","25498-49-1","Tripropylene glycol monomethyl ether" +"01141008A","139-13-9","Nitrilotriacetic acid" +"01141010A","57-41-0","5,5-Diphenylhydantoin" +"01141012A","637-07-0","Clofibrate" +"01141014A","2772-45-4","2,4-Bis(1-methyl-1-phenylethyl)phenol" +"01141016A","88-60-8","2-tert-Butyl-5-methylphenol" +"01141018A","128-39-2","2,6-Di-tert-butylphenol" +"01141020A","NOCAS_47255","CP-465394" +"01141022A","136-60-7","Butyl benzoate" +"01141024A","556-67-2","Octamethylcyclotetrasiloxane" +"01141026A","87-69-4","L-Tartaric acid" +"01141028A","90-94-8","Michler's ketone" +"01141030A","41372-08-1","Methyldopa sesquihydrate" +"01141032A","57-11-4","Octadecanoic acid" +"01141034A","50-28-2","17beta-Estradiol" +"01141036A","544-76-3","Hexadecane" +"01141038A","5315-79-7","1-Hydroxypyrene" +"01141040A","106-25-2","(2Z)-3,7-Dimethylocta-2,6-dien-1-ol" +"01141042A","27178-16-1","Diisodecyl hexanedioate" +"01141044A","94-28-0","Triethylene glycol bis(2-ethylhexanoate)" +"01141046A","1836-75-5","Nitrofen" +"01141048A","69-65-8","D-Mannitol" +"01141050A","54965-24-1","Tamoxifen citrate" +"01141052A","58-93-5","Hydrochlorothiazide" +"01141054A","629-62-9","Pentadecane" +"01141056A","110-26-9","N,N'-Methylenebisacrylamide" +"01141058A","88-58-4","2,5-Di-tert-butylbenzene-1,4-diol" +"01141060A","112-42-5","1-Undecanol" +"01141062A","51-52-5","6-Propyl-2-thiouracil" +"01141064A","154-42-7","6-Thioguanine" +"01141066A","119-93-7","3,3'-Dimethylbenzidine" +"01141068A","77-09-8","Phenolphthalein" +"01141070A","80-15-9","Cumene hydroperoxide" +"01141072A","1143-38-0","Anthralin" +"01141074A","205-99-2","Benzo(b)fluoranthene" +"01141076A","120-95-6","2,4-Bis(2-methylbutan-2-yl)phenol" +"01141078A","291305-06-1","UK-373911" +"01141080A","127308-82-1","Zamifenacin" +"01141082A","402910-27-4","UK-416244" +"01141084A","NOCAS_47299","CP-422935" +"01141086A","230954-09-3","CP-544439" +"01141088A","NOCAS_47291","CI-1044" +"01141090A","353280-07-6","CP-612372" +"01141092A","668981-02-0","CP-863187" +"01141094A","1300-72-7","Sodium xylenesulfonate" +"01141096A","4904-61-4","1,5,9-Cyclododecatriene" +"01141098A","50-22-6","Corticosterone" +"01141100A","129-00-0","Pyrene" +"01141102A","32809-16-8","Procymidone" +"01141104A","95-14-7","1,2,3-Benzotriazole" +"01141106A","80-05-7","Bisphenol A" +"01141108A","77-47-4","Hexachlorocyclopentadiene" +"01141110A","27176-87-0","Dodecylbenzenesulfonic acid" +"01141112A","60-57-1","Dieldrin" +"01141114A","85-68-7","Butyl benzyl phthalate" +"01141118A","166412-78-8","Diisononyl cyclohexane-1,2-dicarboxylate" +"01141120A","131860-33-8","Azoxystrobin" +"01141122A","19044-88-3","Oryzalin" +"01141124A","55219-65-3","Triadimenol" +"01141126A","120-32-1","Clorophene" +"01141128A","608-73-1","1,2,3,4,5,6-Hexachlorocyclohexane" +"01141130A","584-79-2","Allethrin" +"01141132A","3380-34-5","Triclosan" +"01141134A","53894-23-8","Triisononyl trimellitate" +"01141136A","108-67-8","1,3,5-Trimethylbenzene" +"01141138A","51-24-1","Tiratricol" +"01141140A","68392-35-8","4-Hydroxytamoxifen" +"01141142A","797-63-7","Norgestrel" +"01141144A","105624-86-0","5HPP-33" +"01141146A","6344-67-8","3-Hydroxyfluorene" +"01141148A","1024-57-3","Heptachlor epoxide" +"01141150A","2528-16-7","Monobenzyl phthalate" +"01141152A","1563-66-2","Carbofuran" +"01141154A","110235-47-7","Mepanipyrim" +"01141162A","107-21-1","Ethylene glycol" +"01141164A","77-78-1","Dimethyl sulfate" +"01141166A","149413-74-1","FR150011" +"01141168A","146011-65-6","FR145237" +"01141170A","4098-71-9","Isophorone diisocyanate" +"01141172A","174185-16-1","FR167356" +"01141174A","102409-92-7","FR073317" +"01141176A","138472-01-2","FR900409" +"01141178A","NOCAS_48172","PharmaGSID_48172" +"01141180A","136042-19-8","FR130739" +"01141182A","129299-90-7","Fabesetron hydrochloride" +"01141184A","10161-33-8","17beta-Trenbolone" +"01141186A","789-02-6","o,p'-DDT" +"01141188A","929-59-9","2,2'-[Ethane-1,2-diylbis(oxy)]diethanamine" +"01141190A","91082-17-6","C10-21 sulfonic acids phenyl esters" +"01141192A","57-30-7","Phenobarbital sodium" +"01141194A","68-96-2","17alpha-Hydroxyprogesterone" +"01141196A","8000-34-8","Clove leaf oil" +"01141200A","6893-02-3","3,5,3'-Triiodothyronine" +"01141202A","1478-61-1","Bisphenol AF" +"01141204A","60-35-5","Acetamide" +"01141206A","68-22-4","Norethindrone" +"01141208A","53-16-7","Estrone" +"01141210A","35256-85-0","Butam" +"01141212A","1111-78-0","Ammonium carbamate" +"01141214A","2687-96-9","1-Dodecyl-2-pyrrolidinone" +"01141216A","1338-43-8","Sorbitan, mono-(9Z)-9-octadecenoate" +"01141218A","123-35-3","Myrcene" +"01141220A","79-43-6","Dichloroacetic acid" +"01141222A","127-51-5","alpha-Isomethylionone" +"01141224A","123-01-3","Dodecylbenzene" +"01141226A","62-38-4","Phenylmercuric acetate" +"01141228A","10222-01-2","2,2-Dibromo-3-nitrilopropionamide" +"01141230A","1191-50-0","Sodium myristyl sulfate" +"01141232A","2634-33-5","1,2-Benzisothiazolin-3-one" +"01141234A","88-85-7","Dinoseb" +"01141236A","208-96-8","Acenaphthylene" +"01141238A","650-51-1","Sodium trichloroacetate" +"01141240A","20325-40-0","3,3'-Dimethoxybenzidine dihydrochloride" +"01141242A","331623-06-4","MK-547" +"01141244A","96-23-1","1,3-Dichloro-2-propanol" +"01141246A","129453-61-8","Fulvestrant" +"01141252A","119-61-9","Benzophenone" +"01141254A","103-23-1","Di(2-ethylhexyl) adipate" +"11140700A","1806-26-4","4-Octylphenol" +"11140702A","140-66-9","4-(1,1,3,3-Tetramethylbutyl)phenol" +"11140704A","92-84-2","Phenothiazine" +"11140794A","744-45-6","Diphenyl isophthalate" +"11141106A","80-05-7","Bisphenol A" +"11141120A","131860-33-8","Azoxystrobin" +"11141122A","19044-88-3","Oryzalin" +"11141124A","55219-65-3","Triadimenol" +"11141126A","120-32-1","Clorophene" +"11141130A","584-79-2","Allethrin" +"11141132A","3380-34-5","Triclosan" +"21140700A","1806-26-4","4-Octylphenol" +"21140702A","140-66-9","4-(1,1,3,3-Tetramethylbutyl)phenol" +"21140704A","92-84-2","Phenothiazine" +"21140794A","744-45-6","Diphenyl isophthalate" +"21141106A","80-05-7","Bisphenol A" +"21141120A","131860-33-8","Azoxystrobin" +"21141122A","19044-88-3","Oryzalin" +"21141124A","55219-65-3","Triadimenol" +"21141126A","120-32-1","Clorophene" +"21141130A","584-79-2","Allethrin" +"21141132A","3380-34-5","Triclosan" +"BF00107322","55566-30-8","Tetrakis(hydroxymethyl)phosphonium sulfate" +"BF00128067","60-51-5","Dimethoate" +"BF00128068","115-32-2","Dicofol" +"BF00128069","141-66-2","Dicrotophos" +"BF00128070","134605-64-4","Butafenacil" +"BF00128071","131341-86-1","Fludioxonil" +"BF00128072","79241-46-6","Fluazifop-P-butyl" +"BF00128073","68694-11-1","Triflumizole" +"BF00128075","173584-44-6","Indoxacarb" +"BF00128076","29091-21-2","Prodiamine" +"BF00128078","68157-60-8","Forchlorfenuron" +"BF00128079","120068-37-3","Fipronil" +"BF00128080","97886-45-8","Dithiopyr" +"BF00128081","103361-09-7","Flumioxazin" +"BF00128082","122008-85-9","Cyhalofop-butyl" +"BF00128083","128639-02-1","Carfentrazone-ethyl" +"BF00128084","131807-57-3","Famoxadone" +"BF00128085","57966-95-7","Cymoxanil" +"BF00128086","57837-19-1","Metalaxyl" +"BF00128087","23031-36-9","Prallethrin" +"BF00128088","156052-68-5","Zoxamide" +"BF00128090","112281-77-3","Tetraconazole" +"BF00128091","74051-80-2","Sethoxydim" +"BF00128092","161050-58-4","Methoxyfenozide" +"BF00128094","113136-77-9","Cyclanilide" +"BF00128096","94361-06-5","Cyproconazole" +"BF00128097","298-00-0","Methyl parathion" +"BF00128098","23184-66-9","Butachlor" +"BF00128099","81777-89-1","Clomazone" +"BF00128100","149979-41-9","Tepraloxydim" +"BF00128101","52315-07-8","Cypermethrin" +"BF00128102","42874-03-3","Oxyfluorfen" +"BF00128103","35575-96-3","Azamethiphos" +"BF00128104","10043-35-3","Boric acid" +"BF00128105","55-38-9","Fenthion" +"BF00128106","15972-60-8","Alachlor" +"BF00128107","52-68-6","Trichlorfon" +"BF00128108","122-14-5","Fenitrothion" +"BF00128109","7287-19-6","Prometryn" +"BF00128110","1582-09-8","Trifluralin" +"BF00128111","1861-40-1","Benfluralin" +"BF00128112","43121-43-3","Triadimefon" +"BF00128114","40487-42-1","Pendimethalin" +"BF00128115","10265-92-6","Methamidophos" +"BF00128116","1698-60-8","Chloridazon" +"BF00128117","144550-36-7","Iodosulfuron-methyl-sodium" +"BF00128118","123312-89-0","Pymetrozine" +"BF00128119","42509-80-8","Isazofos" +"BF00128120","16752-77-5","Methomyl" +"BF00128121","2593-15-9","Etridiazole" +"BF00128122","335-67-1","PFOA" +"BF00128123","87-90-1","Symclosene" +"BF00128124","101-10-0","Cloprop" +"BF00128125","55406-53-6","3-Iodo-2-propynyl-N-butylcarbamate" +"BF00128126","136-45-8","Dipropyl pyridine-2,5-dicarboxylate" +"BF00128127","3380-34-5","Triclosan" +"BF00128128","1929-82-4","Nitrapyrin" +"BF00128129","15299-99-7","Napropamide" +"BF00128130","134-62-3","DEET" +"BF00128131","94-82-6","2,4-DB" +"BF00128132","36734-19-7","Iprodione" +"BF00128133","66215-27-8","Cyromazine" +"BF00128134","4376-18-5","Monomethyl phthalate" +"BF00128135","120-32-1","Clorophene" +"BF00128136","63-25-2","Carbaryl" +"BF00128137","6153-64-6","Oxytetracycline dihydrate" +"BF00128138","1918-00-9","Dicamba" +"BF00128139","330-54-1","Diuron" +"BF00128140","55219-65-3","Triadimenol" +"BF00128141","50471-44-8","Vinclozolin" +"BF00128142","69377-81-7","Fluroxypyr" +"BF00128143","53112-28-0","Pyrimethanil" +"BF00128144","138261-41-3","Imidacloprid" +"BF00128145","23103-98-2","Pirimicarb" +"BF00128146","78587-05-0","Hexythiazox" +"BF00128147","118134-30-8","Spiroxamine" +"BF00128148","199119-58-9","Trifloxysulfuron-sodium" +"BF00128149","188489-07-8","Flufenpyr-ethyl" +"BF00128165","153719-23-4","Thiamethoxam" +"BF00128166","81334-34-1","Imazapyr" +"BF00128167","741-58-2","Bensulide" +"BF00128168","84087-01-4","Quinclorac" +"BF00128169","76738-62-0","Paclobutrazol" +"BF00128170","300-76-5","Naled" +"BF00128171","5598-13-0","Chlorpyrifos-methyl" +"BF00128172","1007-28-9","Deisopropylatrazine" +"BF00128173","30560-19-1","Acephate" +"BF00128174","71751-41-2","Abamectin" +"BF00128175","333-41-5","Diazinon" +"BF00128176","27314-13-2","Norflurazon" +"BF00128177","51707-55-2","Thidiazuron" +"BF00128178","1134-23-2","Cycloate" +"BF00128179","66230-04-4","Esfenvalerate" +"BF00128180","81335-37-7","Imazaquin" +"BF00128181","39515-41-8","Fenpropathrin" +"BF00128182","1610-18-0","Prometon" +"BF00128183","51338-27-3","Diclofop-methyl" +"BF00128185","34256-82-1","Acetochlor" +"BF00128186","116-06-3","Aldicarb" +"BF00128187","110488-70-5","Dimethomorph" +"BF00128188","141112-29-0","Isoxaflutole" +"BF00128189","361377-29-9","Fluoxastrobin" +"BF00128190","111988-49-9","Thiacloprid" +"BF00128191","81406-37-3","Fluroxypyr-meptyl" +"BF00128192","85509-19-9","Flusilazole" +"BF00128193","79983-71-4","Hexaconazole" +"BF00128194","112410-23-8","Tebufenozide" +"BF00128195","35554-44-0","Imazalil" +"BF00128196","82558-50-7","Isoxaben" +"BF00128197","79538-32-2","Tefluthrin" +"BF00128198","124495-18-7","Quinoxyfen" +"BF00128199","104098-48-8","Imazapic" +"BF00128200","74115-24-5","Clofentezine" +"BF00128201","148-79-8","Thiabendazole" +"BF00128203","21087-64-9","Metribuzin" +"BF00128204","1897-45-6","Chlorothalonil" +"BF00128205","94-75-7","2,4-Dichlorophenoxyacetic acid" +"BF00128206","1194-65-6","Dichlobenil" +"BF00128208","122-39-4","Diphenylamine" +"BF00128209","420-04-2","Cyanamide" +"BF00128210","123-33-1","Maleic hydrazide" +"BF00128211","2425-06-1","Captafol" +"BF00128212","55335-06-3","Triclopyr" +"BF00128213","6734-80-1","Metam-sodium hydrate" +"BF00128214","2303-17-5","Tri-allate" +"BF00128215","126833-17-8","Fenhexamid" +"BF00128216","23135-22-0","Oxamyl" +"BF00128218","142459-58-3","Flufenacet" +"BF00128219","181274-15-7","Propoxycarbazone-sodium" +"BF00128220","88671-89-0","Myclobutanil" +"BF00128221","69327-76-0","Buprofezin" +"BF00128222","121552-61-2","Cyprodinil" +"BF00128223","66441-23-4","Fenoxaprop-ethyl" +"BF00128224","28249-77-6","Thiobencarb" +"BF00128225","119446-68-3","Difenoconazole" +"BF00128226","7696-12-0","Tetramethrin" +"BF00128227","51218-45-2","Metolachlor" +"BF00128228","23950-58-5","Propyzamide" +"BF00128229","1634-78-2","Malaoxon" +"BF00128230","135410-20-7","Acetamiprid" +"BF00128232","210880-92-5","Clothianidin" +"BF00128233","114311-32-9","Imazamox" +"BF00128234","33089-61-1","Amitraz" +"BF00128235","67747-09-5","Prochloraz" +"BF00128236","81335-77-5","Imazethapyr" +"BF00128237","133-07-3","Folpet" +"BF00128238","62924-70-3","Flumetralin" +"BF00128239","533-74-4","Dazomet" +"BF00128240","1596-84-5","Daminozide" +"BF00128241","101-05-3","Anilazine" +"BF00128243","26225-79-6","Ethofumesate" +"BF00128244","314-40-9","Bromacil" +"BF00128245","55283-68-6","Ethalfluralin" +"BF00128246","21725-46-2","Cyanazine" +"BF00128247","50594-66-6","Acifluorfen" +"BF00128248","60207-90-1","Propiconazole" +"BF00128249","34014-18-1","Tebuthiuron" +"BF00128250","5902-51-2","Terbacil" +"BF00128251","19666-30-9","Oxadiazon" +"BF00128252","759-94-4","EPTC" +"BF00128253","10453-86-8","Resmethrin" +"BF00128255","1702-17-6","Clopyralid" +"BF00128256","834-12-8","Ametryn" +"BF00128257","52645-53-1","Permethrin" +"BF00128258","115-29-7","Endosulfan" +"BF00128259","2310-17-0","Phosalone" +"BF00128260","51235-04-2","Hexazinone" +"BF00128261","72490-01-8","Fenoxycarb" +"BF00128262","1918-02-1","Picloram" +"BF00128263","2164-17-2","Fluometuron" +"BF00128264","6923-22-4","Monocrotophos" +"BF00128265","23564-05-8","Thiophanate-methyl" +"BF00128266","31218-83-4","Propetamphos" +"BF00128267","25057-89-0","Bentazone" +"BF00128268","114369-43-6","Fenbuconazole" +"BF00128269","24307-26-4","Mepiquat chloride" +"BF00128270","95737-68-1","Pyriproxyfen" +"BF00128271","129630-19-9","Pyraflufen-ethyl" +"BF00128272","5234-68-4","Carboxin" +"BF00128273","330-55-2","Linuron" +"BF00128274","105512-06-9","Clodinafop-propargyl" +"BF00128275","131-70-4","Monobutyl phthalate" +"BF00128276","3337-71-1","Asulam" +"BF00128277","122-99-6","2-Phenoxyethanol" +"BF00128278","82657-04-3","Bifenthrin" +"BF00128279","90-43-7","2-Phenylphenol" +"BF00128280","19044-88-3","Oryzalin" +"BF00128281","66332-96-5","Flutolanil" +"BF00128282","950-37-8","Methidathion" +"BF00128283","121-75-5","Malathion" +"BF00128285","13194-48-4","Ethoprop" +"BF00128286","22224-92-6","Fenamiphos" +"BF00128287","584-79-2","Allethrin" +"BF00128288","1763-23-1","PFOS" +"BF00128289","117-81-7","Di(2-ethylhexyl) phthalate" +"BF00128290","131860-33-8","Azoxystrobin" +"BF00128291","188425-85-6","Boscalid" +"BF00128292","51-03-6","Piperonyl butoxide" +"BF00128293","72-43-5","Methoxychlor" +"BF00128294","4376-20-9","MEHP" +"BF00128295","77501-63-4","Lactofen" +"BF00128296","12427-38-2","Maneb" +"BF00128297","96182-53-5","Tebupirimfos" +"BF00128298","75-60-5","Dimethylarsinic acid" +"BF00128299","56-72-4","Coumaphos" +"BF00128300","22781-23-3","Bendiocarb" +"BF00128301","86-50-0","Azinphos-methyl" +"BF00128302","33629-47-9","Butralin" +"BF00128303","23422-53-9","Formetanate hydrochloride" +"BF00128304","60168-88-9","Fenarimol" +"BF00128305","87674-68-8","Dimethenamid" +"BF00128306","135158-54-2","Acibenzolar-S-methyl" +"BF00128307","113-48-4","MGK-264" +"BF00128308","43222-48-6","Difenzoquat metilsulfate" +"BF00128309","120116-88-3","Cyazofamid" +"BF00128310","57754-85-5","Clopyralid-olamine" +"BF00128311","2008-41-5","Butylate" +"BF00128312","2212-67-1","Molinate" +"BF00128313","29232-93-7","Pirimiphos-methyl" +"BF00128314","7786-34-7","Mevinphos" +"BF00128315","28434-00-6","S-Bioallethrin" +"BF00128317","54593-83-8","Chlorethoxyfos" +"BF00128318","98967-40-9","Flumetsulam" +"BF00128319","25606-41-1","Propamocarb hydrochloride" +"BF00128320","133-06-2","Captan" +"BF00128321","123343-16-8","Pyrithiobac-sodium" +"BF00128322","87546-18-7","Flumiclorac-pentyl" +"BF00128323","117718-60-2","Thiazopyr" +"BF00128324","83657-24-3","Diniconazole" +"BF00128325","117337-19-6","Fluthiacet-methyl" +"BF00128326","145701-21-9","Diclosulam" +"BF00128328","78-48-8","Tribufos" +"BF00128329","94-74-6","MCPA" +"BF00128330","709-98-8","Propanil" +"BF00128331","120-36-5","Dichlorprop" +"BF00128332","122-34-9","Simazine" +"BF00128333","16672-87-0","Ethephon" +"BF00128334","96-45-7","Ethylene thiourea" +"BF00128335","137-26-8","Thiram" +"BF00128336","6385-62-2","Diquat dibromide monohydrate" +"BF00128337","122836-35-5","Sulfentrazone" +"BF00128339","69806-50-4","Fluazifop-butyl" +"BF00128340","2675-77-6","Chloroneb" +"BF00128341","59669-26-0","Thiodicarb" +"BF00128342","76-87-9","Triphenyltin hydroxide" +"BF00128343","1689-84-5","Bromoxynil" +"BF00128344","101-21-3","Chlorpropham" +"BF00128345","131-11-3","Dimethyl phthalate" +"BF00128346","114-26-1","Propoxur" +"BF00128347","139-40-2","Propazine" +"BF00128348","58-89-9","Lindane" +"BF00128349","1912-24-9","Atrazine" +"BF00128350","82-68-8","Pentachloronitrobenzene" +"BF00128351","84-74-2","Dibutyl phthalate" +"BF00128352","17804-35-2","Benomyl" +"BF00128353","80-05-7","Bisphenol A" +"BF00128354","104206-82-8","Mesotrione" +"BF00128355","87820-88-0","Tralkoxydim" +"BF00128356","131983-72-7","Triticonazole" +"BF00128357","962-58-3","Diazoxon" +"BF00128358","5598-15-2","Chlorpyrifos oxon" +"BF00128359","NOCAS_34742","Milbemectin (mixture of 70% Milbemcin A4, 30% Milbemycin A3)" +"BF00131805","153233-91-1","Etoxazole" +"BF00131806","116714-46-6","Novaluron" +"BF00131807","87818-31-3","Cinmethylin" +"BF00131808","68359-37-5","Cyfluthrin" +"BF10128127","3380-34-5","Triclosan" +"BF10128135","120-32-1","Clorophene" +"BF10128140","55219-65-3","Triadimenol" +"BF10128280","19044-88-3","Oryzalin" +"BF10128287","584-79-2","Allethrin" +"BF10128288","1763-23-1","PFOS" +"BF10128290","131860-33-8","Azoxystrobin" +"BF10128353","80-05-7","Bisphenol A" +"BF20128127","3380-34-5","Triclosan" +"BF20128135","120-32-1","Clorophene" +"BF20128140","55219-65-3","Triadimenol" +"BF20128280","19044-88-3","Oryzalin" +"BF20128287","584-79-2","Allethrin" +"BF20128288","1763-23-1","PFOS" +"BF20128290","131860-33-8","Azoxystrobin" +"TX000097","58394-64-2","Benzyloctyl adipate" +"TX000777","79622-59-6","Fluazinam" +"TX000789","148477-71-8","Spirodiclofen" +"TX000991","85264-33-1","(3,5-Dimethyl-1H-pyrazol-1-yl)methanol" +"TX001026","33956-49-9","Codlelure" +"TX001028","99-86-5","alpha-Terpinene" +"TX001030","525-79-1","Kinetin" +"TX001034","95-13-6","Indene" +"TX001038","140-56-7","Fenaminosulf" +"TX001040","654055-01-3","Morin hydrate" +"TX001052","101-42-8","Fenuron" +"TX001060","7540-51-4","(S)-(-)-beta-Citronellol" +"TX001064","571-58-4","1,4-Dimethylnaphthalene" +"TX001068","6485-40-1","R-(-)-Carvone" +"TX001069","541-73-1","1,3-Dichlorobenzene" +"TX001072","28804-88-8","Dimethylnaphthalene" +"TX001074","99-85-4","gamma-Terpinene" +"TX001083","2444-46-4","Nonivamide" +"TX001086","140-11-4","Benzyl acetate" +"TX001087","116-29-0","Tetradifon" +"TX001106","101463-69-8","Flufenoxuron" +"TX001112","11099-07-3","Glyceryl stearates" +"TX001118","4468-42-2","3-Phenylhexane" +"TX001132","283594-90-1","Spiromesifen" +"TX001134","18924-66-8","2,2'-(Tetradecylimino)diethanol" +"TX001140","1541-81-7","4-Dodecylmorpholine" +"TX001166","55512-33-9","Pyridate" +"TX001178","163520-33-0","Isoxadifen-ethyl" +"TX001184","21145-77-7","6-Acetyl-1,1,2,4,4,7-hexamethyltetralin" +"TX001222","2917-73-9","Dibutyl nonanedioate" +"TX001230","3913-02-8","2-Butyloctan-1-ol" +"TX001247","42978-66-5","Tripropylene glycol diacrylate" +"TX0012711","110-17-8","Fumaric acid" +"TX0012712","99-63-8","1,3-Benzenedicarbonyl dichloride" +"TX0012713","5329-14-6","Sulfamic acid" +"TX0012714","7757-79-1","Potassium nitrate" +"TX0012715","137-42-8","Metam-sodium" +"TX0012716","126-30-7","2,2-Dimethylpropane-1,3-diol" +"TX0012717","61-82-5","Amitrole" +"TX0012718","110-65-6","2-Butyne-1,4-diol" +"TX0012719","824-39-5","Sodium 2-nitrophenolate" +"TX0012720","3164-85-0","Potassium 2-ethylhexanoate" +"TX0012721","684-93-5","N-Nitroso-N-methylurea" +"TX0012722","1762-95-4","Thiocyanic acid, ammonium salt" +"TX0012723","139-02-6","Sodium phenolate" +"TX0012724","106-50-3","1,4-Benzenediamine" +"TX0012725","110-16-7","Maleic acid" +"TX0012726","123-77-3","Azodicarbonamide" +"TX0012727","62-74-8","Sodium fluoroacetate" +"TX0012728","3926-62-3","Sodium chloroacetate" +"TX0012729","3811-04-9","Potassium chlorate" +"TX0012730","611-20-1","2-Hydroxybenzonitrile" +"TX0012731","110-15-6","Butanedioic acid" +"TX0012732","534-13-4","N,N'-Dimethylthiourea" +"TX0012733","2231-57-4","Thiocarbazide" +"TX0012734","461-58-5","Cyanoguanidine" +"TX0012735","6610-29-3","N-Methylhydrazinecarbothioamide" +"TX0012736","5536-61-8","Sodium methacrylate" +"TX0012737","79-14-1","Glycolic acid" +"TX0012738","108-68-9","3,5-Dimethylphenol" +"TX0012739","143390-89-0","Kresoxim-methyl" +"TX0012741","178928-70-6","Prothioconazole" +"TX0012745","791-31-1","Triphenylsilanol" +"TX0012750","623-36-9","2-Methylpent-2-enal" +"TX0012757","4390-04-9","2,2,4,4,6,8,8-Heptamethylnonane" +"TX0012762","821-55-6","2-Nonanone" +"TX0012769","3647-69-6","4-(2-Chloroethyl)morpholine hydrochloride (1:1)" +"TX0012774","93-02-7","2,5-Dimethoxybenzaldehyde" +"TX0012777","84-15-1","o-Terphenyl" +"TX001343","1570-64-5","4-Chloro-2-methylphenol" +"TX001350","101-84-8","Diphenyl oxide" +"TX001394","95-49-8","2-Chlorotoluene" +"TX001399","123-11-5","4-Methoxybenzaldehyde" +"TX001400","460-00-4","1-Bromo-4-fluorobenzene" +"TX001440","109-86-4","2-Methoxyethanol" +"TX001556","83-67-0","Theobromine" +"TX001593","56-38-2","Parathion" +"TX001595","41198-08-7","Profenofos" +"TX001598","155569-91-8","Emamectin benzoate" +"TX001609","62-73-7","Dichlorvos" +"TX001612","298-04-4","Disulfoton" +"TX001620","6317-18-6","Methylene bis(thiocyanate)" +"TX001632","999-97-3","Hexamethyldisilazane" +"TX001689","101-83-7","Dicyclohexylamine" +"TX001697","109-55-7","3-(Dimethylamino)propylamine" +"TX001698","102-82-9","Tributylamine" +"TX001701","124-09-4","1,6-Hexanediamine" +"TX001705","104-76-7","2-Ethyl-1-hexanol" +"TX001708","95-48-7","o-Cresol" +"TX001712","124-18-5","Decane" +"TX001716","124-13-0","Octanal" +"TX001735","87-86-5","Pentachlorophenol" +"TX001757","101-72-4","N-Isopropyl-N'-phenyl-p-phenylenediamine" +"TX001775","75-64-9","tert-Butylamine" +"TX001784","99-87-6","p-Cymene" +"TX001787","111-49-9","Hexamethyleneimine" +"TX001793","620-17-7","3-Ethylphenol" +"TX001796","25168-05-2","Chlorotoluene" +"TX001801","90-12-0","1-Methylnaphthalene" +"TX001810","109-77-3","Propanedinitrile" +"TX001830","95-57-8","2-Chlorophenol" +"TX001843","88-72-2","2-Nitrotoluene" +"TX001876","110-80-5","2-Ethoxyethanol" +"TX001881","109-02-4","4-Methylmorpholine" +"TX001882","121-69-7","N,N-Dimethylaniline" +"TX001887","100-37-8","N,N-Diethylethanolamine" +"TX001903","108-91-8","Cyclohexylamine" +"TX001907","68-12-2","N,N-Dimethylformamide" +"TX001919","75-86-5","2-Hydroxy-2-methylpropanenitrile" +"TX001921","108-95-2","Phenol" +"TX002104","95-63-6","1,2,4-Trimethylbenzene" +"TX002114","110-43-0","2-Heptanone" +"TX002126","1563-38-8","2,3-Dihydro-2,2-dimethyl-7-benzofuranol" +"TX002131","87-25-2","Ethyl anthranilate" +"TX002132","98-86-2","Acetophenone" +"TX002152","79-24-3","Nitroethane" +"TX002177","81-07-2","Saccharin" +"TX002193","106-43-4","4-Chlorotoluene" +"TX002202","141-32-2","Butyl acrylate" +"TX002205","93-65-2","Mecoprop" +"TX002210","126-98-7","Methacrylonitrile" +"TX002231","95-76-1","3,4-Dichloroaniline" +"TX002249","29387-86-8","Propylene glycol monobutyl ether" +"TX002286","1112-39-6","Dimethoxydimethylsilane" +"TX002304","1873-88-7","1,1,1,3,5,5,5-Heptamethyltrisiloxane" +"TX002308","1118-46-3","Butyltin trichloride" +"TX002330","1214-39-7","N-Benzyladenine" +"TX002331","105-54-4","Ethyl butyrate" +"TX002390","4940-11-8","2-Ethyl-3-hydroxy-4H-pyran-4-one" +"TX002400","2031-67-6","Triethoxymethylsilane" +"TX002408","117-80-6","Dichlone" +"TX002412","2996-92-1","Trimethoxyphenylsilane" +"TX002414","140-08-9","Tris(2-chloroethyl) phosphite" +"TX002416","1076-97-7","1,4-Cyclohexanedicarboxylic acid" +"TX002436","92-69-3","4-Phenylphenol" +"TX002449","1120-21-4","Undecane" +"TX002452","93-76-5","2,4,5-Trichlorophenoxyacetic acid" +"TX002454","143-08-8","1-Nonanol" +"TX002460","122-20-3","Triisopropanolamine" +"TX002467","140-95-4","Dimethylolurea" +"TX002472","111-96-6","Bis(2-methoxyethyl) ether" +"TX002488","104-87-0","4-Methylbenzaldehyde" +"TX002496","1401-55-4","Tannic acid" +"TX002507","109-46-6","N,N'-Dibutylthiourea" +"TX002517","512-42-5","Sodium methyl sulfate" +"TX002519","34451-19-9","Butyl (2S)-2-hydroxypropanoate" +"TX002527","957-51-7","Diphenamid" +"TX002572","50-21-5","Lactic acid" +"TX002616","110-97-4","Diisopropanolamine" +"TX002640","131-57-7","2-Hydroxy-4-methoxybenzophenone" +"TX002664","587-85-9","Diphenylmercury(II)" +"TX002666","142-31-4","Sodium octyl sulfate" +"TX002668","1646-88-4","Aldoxycarb" +"TX002674","6190-65-4","Deethylatrazine" +"TX002700","142-18-7","1-Monolaurin" +"TX002714","141-22-0","(9Z,12R)-12-Hydroxyoctadec-9-enoic acid" +"TX002740","123-07-9","4-Ethylphenol" +"TX002742","493-52-7","Methyl red" +"TX002764","57-09-0","Hexadecyltrimethylammonium bromide" +"TX002797","69806-40-2","Haloxyfop-methyl" +"TX002798","110-05-4","Di-tert-butyl peroxide" +"TX002849","110-33-8","Dihexyl hexanedioate" +"TX002851","1559-34-8","3,6,9,12-Tetraoxahexadecan-1-ol" +"TX002858","10025-74-8","Dysprosium(III) chloride" +"TX002866","2756-56-1","Isobornyl propanoate" +"TX002890","138-22-7","Butyl lactate" +"TX002892","139-87-7","Ethyl diethanolamine" +"TX002896","877-24-7","Monopotassium phthalate" +"TX002902","97-78-9","N-Dodecanoyl-N-methylglycine" +"TX002904","4574-04-3","Myristyltrimethylammonium chlorideN,N,N-Trimethyltetradecan-1-aminium chloride" +"TX002908","3025-30-7","Ethyl (2E,4Z)-deca-2,4-dienoate" +"TX002910","140-38-5","4-Chlorophenylurea" +"TX002923","628-63-7","Pentyl acetate" +"TX002934","35400-43-2","Sulprofos" +"TX002938","59-40-5","Sulfaquinoxaline" +"TX002950","544-63-8","Tetradecanoic acid" +"TX002960","77-86-1","Tromethamine" +"TX002972","123-99-9","Nonanedioic acid" +"TX002978","80-54-6","3-(4-tert-Butylphenyl)-2-methylpropanal" +"TX002988","110-69-0","Butanal oxime" +"TX002994","24157-81-1","2,6-Diisopropylnaphthalene" +"TX003066","99-62-7","1,3-Diisopropylbenzene" +"TX003076","78-51-3","Tris(2-butoxyethyl) phosphate" +"TX003085","96-09-3","Styrene oxide" +"TX003128","88-30-2","3-Trifluoromethyl-4-nitrophenol" +"TX003134","90-30-2","N-Phenyl-1-naphthylamine" +"TX003151","118-75-2","Chloranil" +"TX003154","2934-05-6","2,4-Diisopropylphenol" +"TX003156","4107-98-6","N,N-Diisopropylaniline" +"TX003158","78-07-9","Ethyltriethoxysilane" +"TX003160","23089-26-1","Levomenol" +"TX003164","21662-09-9","(4Z)-4-Decenal" +"TX003168","93-92-5","(+/-)-alpha-Methylbenzyl acetate" +"TX003170","122-42-9","Propham" +"TX003177","5870-93-9","Heptyl butanoate" +"TX003184","499-75-2","Isopropyl-o-cresol" +"TX003188","78-70-6","Linalool" +"TX003190","104-61-0","gamma-Nonanolactone" +"TX003196","7681-82-5","Sodium iodide" +"TX003204","2425-77-6","2-Hexyl-1-decanol" +"TX003208","657-84-1","Sodium 4-methylbenzenesulfonate" +"TX003214","717-74-8","1,3,5-Triisopropylbenzene" +"TX003216","21245-02-3","2-Ethylhexyl 4-(dimethylamino)benzoate" +"TX003232","6259-76-3","Hexyl salicylate" +"TX003236","1008-72-6","Sodium 2-formylbenzenesulfonate" +"TX003238","941-69-5","1-Phenyl-1H-pyrrole-2,5-dione" +"TX003240","118-58-1","Benzyl salicylate" +"TX003253","97-74-5","Tetramethylthiuram monosulfide" +"TX003266","7212-44-4","Nerolidol" +"TX003276","94-71-3","2-Ethoxyphenol" +"TX003280","112-12-9","2-Undecanone" +"TX003282","104-54-1","3-Phenyl-2-propen-1-ol" +"TX003292","122-78-1","Phenylacetaldehyde" +"TX003294","6152-33-6","Sodium 2-phenylphenate tetrahydrate" +"TX003320","66-71-7","1,10-Phenanthroline" +"TX003326","487-06-9","5,7-Dimethoxy-2H-chromen-2-one" +"TX003338","587-65-5","2-Chloro-N-phenylacetamide" +"TX003350","80-09-1","4,4'-Sulfonyldiphenol" +"TX003370","143-07-7","Dodecanoic acid" +"TX003374","78-40-0","Triethyl phosphate" +"TX003383","123-92-2","3-Methylbutyl acetate" +"TX003404","4065-45-6","Sulisobenzone" +"TX003426","97-59-6","Allantoin" +"TX003432","928-96-1","(Z)-3-Hexen-1-ol" +"TX003436","706-14-9","gamma-Decanolactone" +"TX003449","126-07-8","Griseofulvin" +"TX003458","496-46-8","Glycoluril" +"TX003472","99-07-0","3-Dimethylaminophenol" +"TX003506","609-54-1","2,5-Dimethylbenzenesulfonic acid" +"TX003522","55934-93-5","Tripropylene glycol butyl ether" +"TX003547","88-41-5","2-tert-Butylcyclohexyl acetate" +"TX003572","133855-98-8","Epoxiconazole" +"TX003721","556-61-6","Methyl isothiocyanate" +"TX003751","2642-71-9","Azinphos-ethyl" +"TX003824","1120-01-0","Sodium hexyldecyl sulfate" +"TX003846","106-30-9","Ethyl heptanoate" +"TX003863","695-06-7","gamma-Caprolactone" +"TX003871","51630-58-1","Fenvalerate" +"TX003873","6728-26-3","(2E)-2-Hexenal" +"TX003879","128-95-0","1,4-Diaminoanthraquinone" +"TX003887","682-01-9","Tetrapropyl orthosilicate" +"TX003893","25155-18-4","Methylbenzethonium chloride" +"TX003896","106-27-4","Isopentyl butyrate" +"TX003909","83-88-5","Riboflavin" +"TX003911","120-46-7","1,3-Diphenyl-1,3-propanedione" +"TX003913","107-75-5","7-Hydroxy-3,7-dimethyloctanal" +"TX003917","50-70-4","D-Glucitol" +"TX003949","101-81-5","Diphenylmethane" +"TX003951","84-61-7","Dicyclohexyl phthalate" +"TX003957","489-01-0","2,6-Di-tert-butyl-4-methoxyphenol" +"TX003961","64-10-8","1-Phenylurea" +"TX003964","126-14-7","Sucrose octaacetate" +"TX003967","81-88-9","Rhodamine B" +"TX003969","532-02-5","Sodium 2-naphthalenesulfonate" +"TX003980","64-19-7","Acetic acid" +"TX004022","79-19-6","Thiosemicarbazide" +"TX004047","1335-46-2","Methylionone" +"TX004059","2122-70-5","Ethyl 1-naphthaleneacetate" +"TX004067","4437-85-8","Butylene carbonate" +"TX004086","95-32-9","2-(Morpholin-4-yldithio)-1,3-benzothiazole" +"TX004105","92-04-6","2-Chloro-4-phenylphenol" +"TX004193","818-61-1","2-Hydroxyethyl acrylate" +"TX004197","138-86-3","Limonene" +"TX004206","135-57-9","2,2'-Dibenzoylaminodiphenyl disulfide" +"TX004209","4130-42-1","2,6-Di-tert-butyl-4-ethylphenol" +"TX004217","645-62-5","2-Ethyl-2-hexenal" +"TX004227","2492-26-4","Sodium 2-mercaptobenzothiolate" +"TX004228","122-19-0","N,N-Dimethyl-N-octadecylbenzenemethanaminium chloride" +"TX004259","605-45-8","Diisopropyl phthalate" +"TX004297","107-92-6","Butanoic acid" +"TX004301","130-14-3","Sodium 1-naphthalenesulfonate" +"TX004310","497-39-2","4,6-Di-tert-butyl-m-cresol" +"TX004330","123-17-1","2,6,8-Trimethyl-4-nonanol" +"TX004334","2554-06-5","1,3,5,7-Tetramethyl-1,3,5,7-tetravinylcyclotetrasiloxane" +"TX004356","147-81-9","Arabinose" +"TX004358","87-01-4","7-(Dimethylamino)-4-methylcoumarin" +"TX004362","26402-26-6","Glyceryl monooctanoate" +"TX004364","2390-60-5","Basic Blue 7" +"TX004370","2610-11-9","C.I. Direct Red 81 disodium salt" +"TX004380","27344-41-8","Disodium 4,4'-bis(2-sulfostyryl)biphenyl" +"TX004392","103-34-4","4,4'-Dithiodimorpholine" +"TX004396","13171-00-1","1-(6-tert-Butyl-1,1-dimethyl-2,3-dihydro-1H-inden-4-yl)ethanone" +"TX004402","120-65-0","2-((Dimethylamino)methyl)phenol" +"TX004404","129-06-6","Sodium warfarin" +"TX004416","4712-55-4","Diphenyl phosphite" +"TX004428","2687-94-7","N-Octyl-2-pyrrolidone" +"TX004438","97-00-7","1-Chloro-2,4-dinitrobenzene" +"TX004451","485-31-4","Binapacryl" +"TX004466","139-88-8","7-Ethyl-2-methyl-4-undecanolsulfate, sodium salt" +"TX004479","618-45-1","3-Isopropylphenol" +"TX004481","1929-73-3","2,4-D-Butotyl" +"TX004485","99607-70-2","Cloquintocet-mexyl" +"TX004507","71283-80-2","Fenoxaprop-P-ethyl" +"TX004511","26002-80-2","Phenothrin" +"TX004513","67564-91-4","(2R,6S)-Fenpropimorph" +"TX004516","470-90-6","Chlorfenvinphos" +"TX004525","1031-07-8","Endosulfan sulfate" +"TX004539","122453-73-0","Chlorfenapyr" +"TX004541","14816-18-3","Phoxim" +"TX004545","311-45-5","Paraoxon" +"TX004547","959-98-8","Endosulfan I" +"TX004563","3734-33-6","Denatonium benzoate" +"TX004572","19774-82-4","Amiodarone hydrochloride" +"TX004579","2445-77-4","2-Methylbutyl isovalerate" +"TX004611","5138-18-1","Sulfosuccinic acid" +"TX004615","57-06-7","Allyl isothiocyanate" +"TX004631","50-27-1","Estriol" +"TX004639","1189-08-8","1,3-Butyleneglycol dimethacrylate" +"TX004809","101-37-1","2,4,6-Tris(allyloxy)-1,3,5-triazine" +"TX004833","7779-27-3","1,3,5-Triethylhexahydro-s-triazine" +"TX004883","3452-97-9","3,5,5-Trimethyl-1-hexanol" +"TX004891","4638-48-6","5-Chlorosalicylanilide" +"TX004903","51632-16-7","1-(Bromomethyl)-3-phenoxybenzene" +"TX004907","124-76-5","Isoborneol" +"TX004943","5850-86-2","C.I. Acid Orange 8, monosodium salt" +"TX004947","31519-22-9","1,4-Dihydroxy-2-naphthoic acid" +"TX004950","120-18-3","Naphthalene-2-sulfonic acid" +"TX004955","126-06-7","3-Bromo-1-chloro-5,5-dimethylhydantoin" +"TX004973","4707-47-5","Methyl 2,4-dihydroxy-3,6-dimethylbenzoate" +"TX005018","15625-89-5","Trimethylolpropane triacrylate" +"TX005053","585-34-2","3-tert-Butylphenol" +"TX005055","2386-87-0","UT-632" +"TX005069","119-47-1","2,2'-Methylenebis(4-methyl-6-tert-butylphenol)" +"TX005115","108-83-8","Diisobutyl ketone" +"TX005122","95-53-4","2-Methylaniline" +"TX005144","98-07-7","Benzotrichloride" +"TX005147","85-40-5","1,2,3,6-Tetrahydrophthalimide" +"TX005170","88-74-4","2-Nitroaniline" +"TX005224","328-84-7","1,2-Dichloro-4-(trifluoromethyl)benzene" +"TX005228","118-79-6","2,4,6-Tribromophenol" +"TX005248","107-07-3","2-Chloroethanol" +"TX005251","110-12-3","5-Methyl-2-hexanone" +"TX005252","95-50-1","1,2-Dichlorobenzene" +"TX005257","107-54-0","3,5-Dimethyl-1-hexyn-3-ol" +"TX005263","692-86-4","Ethyl undec-10-enoate" +"TX005327","2627-95-4","1,3-Divinyl-1,1,3,3-tetramethyl disiloxane" +"TX005338","4162-45-2","Tetrabromobisphenol A bis(2-hydroxyethyl) ether" +"TX005400","728-40-5","2,6-Di-tert-butyl-4-nitrophenol" +"TX005405","22248-79-9","Z-Tetrachlorvinphos" +"TX005406","1646-75-9","Aldicarb oxime" +"TX005417","6706-59-8","L-Glucitol" +"TX005423","59227-89-3","Laurocapram" +"TX005457","827-21-4","Sodium m-xylene-4-sulfonate" +"TX005465","1742-14-9","1,1-Bis(3,4-dimethylphenyl)ethane" +"TX005469","27306-78-1","Silwet L77" +"TX005471","25638-17-9","Butylnaphthalenesulfonic acid sodium salt" +"TX005479","2110-18-1","2-(3-Phenylpropyl)pyridine" +"TX005481","14765-30-1","2-sec-Butylcyclohexanone" +"TX005483","80-27-3","Terpinyl propionate" +"TX005491","3383-96-8","Temephos" +"TX005501","151-05-3","Dimethylbenzylcarbinyl acetate" +"TX005516","10094-34-5","1,1-Dimethyl-2-phenylethyl butanoate" +"TX005519","32388-55-9","1-Cedr-8-en-9-ylethanone" +"TX005531","2694-54-4","Triallyl trimellitate" +"TX005537","27253-33-4","Calcium neodecanoate" +"TX005560","110-25-8","Oleyl sarcosine" +"TX005562","1907-65-9","N-Butyl-p-toluenesulfonamide" +"TX005566","5153-25-3","2-Ethylhexylparaben" +"TX005668","29385-43-1","Tolyltriazole" +"TX005680","25812-30-0","Gemfibrozil" +"TX005729","22839-47-0","Aspartame" +"TX005743","60-33-3","Linoleic acid" +"TX005749","127-47-9","Retinol acetate" +"TX005751","54-85-3","Isoniazid" +"TX005758","13674-87-8","TDCPP" +"TX005767","53-43-0","Dehydroepiandrosterone" +"TX005779","1300-73-8","Dimethylaniline" +"TX005790","72-33-3","Mestranol" +"TX005795","80-26-2","alpha-Terpinyl acetate" +"TX005797","120-14-9","Veratraldehyde" +"TX005815","552-30-7","Trimellitic anhydride" +"TX005817","2016-57-1","1-Decanamine" +"TX005828","117-08-8","Tetrachlorophthalic anhydride" +"TX005850","111991-09-4","Nicosulfuron" +"TX005887","2439-01-2","Chinomethionate" +"TX005921","14351-66-7","Sodium abietate" +"TX005927","63-42-3","Lactose" +"TX005945","23779-32-0","1-[3-(Triethoxysilyl)propyl]urea" +"TX005947","107-51-7","Octamethyltrisiloxane" +"TX005971","2761-24-2","Triethoxypentylsilane" +"TX005975","81741-28-8","Tributyltetradecylphosphonium chloride" +"TX005983","1559-35-9","2-(2-Ethylhexyloxy)ethanol" +"TX006035","58430-94-7","3,5,5-Trimethylhexyl acetate" +"TX006045","68555-86-2","Acid Orange 156" +"TX006050","17418-58-5","C.I. Disperse Red 60" +"TX006056","21739-91-3","Cytembena" +"TX006091","120-56-9","Triethylene glycol dibenzoate" +"TX006093","15046-75-0","Sodium 2-methylbenzenesulfonate" +"TX006101","67786-14-5","Acid Red 337" +"TX006105","126-92-1","Sodium ethasulfate" +"TX006121","1825-21-4","Pentachloroanisole" +"TX006129","95266-40-3","Trinexapac-ethyl" +"TX006139","23564-06-9","Thiophanate" +"TX006143","139340-56-0","Darbufelone mesylate" +"TX006145","221246-12-4","Fandosentan potassium salt" +"TX006146","145742-28-5","CP-122721" +"TX006147","186392-65-4","Ingliforib" +"TX006153","149062-75-9","PharmaGSID_47259" +"TX006155","207736-05-8","CI-1029" +"TX006157","171866-31-2","CP-283097" +"TX006160","NOCAS_47267","CP-642931" +"TX006163","676116-04-4","PD 0343701" +"TX006174","368832-42-2","CP-728663" +"TX006177","123122-55-4","Candoxatril" +"TX006179","203942-49-8","UK-337312" +"TX006180","215297-27-1","UK-343664" +"TX006183","NOCAS_47292","PD 0200347" +"TX006194","NOCAS_47305","CP-608039" +"TX006198","162706-14-1","UK-156819" +"TX006199","461023-63-2","Aplaviroc hydrochloride" +"TX006200","180084-01-9","SB236057A" +"TX006201","184653-84-7","Carabersat" +"TX006202","NOCAS_47325","SB413217A" +"TX006203","NOCAS_47311","GSK163929B" +"TX006204","200940-23-4","SB243213A" +"TX006205","97322-87-7","Troglitazone" +"TX006206","139149-55-6","SB202235" +"TX006207","196808-45-4","Farglitazar" +"TX006208","263553-33-9","GW473178E methyl benzene sulphonic acid" +"TX006209","864283-48-7","GSK232420A" +"TX006210","219790-72-4","SB281832" +"TX006211","444610-91-7","PharmaGSID_47315" +"TX006212","313994-79-5","MK-578" +"TX006217","181640-09-5","SR144190" +"TX006218","264618-44-2","SSR146977" +"TX006220","159138-81-5","Cariporide mesylate" +"TX006225","NOCAS_47351","SSR240612" +"TX006226","NOCAS_47353","SSR241586" +"TX006229","288104-79-0","Surinabant" +"TX006230","439687-69-1","Nelivaptan" +"TX006238","344930-95-6","SSR69071" +"TX006239","221671-62-1","SR146131" +"TX006241","478263-98-8","AVE3295" +"TX006243","862243-29-6","AVE9423" +"TX006244","648917-13-9","AVE2865" +"TX006246","NOCAS_47379","SSR126768" +"TX006248","NOCAS_47383","AVE3247" +"TX006249","NOCAS_47385","SAR377142" +"TX006251","NOCAS_47389","SAR150640" +"TX006255","851916-42-2","MK-812" +"TX006256","1061517-62-1","PharmaGSID_47337" +"TX006299","65277-42-1","Ketoconazole" +"TX006301","75330-75-5","Lovastatin" +"TX006303","59-05-2","Methotrexate" +"TX006305","81131-70-6","Pravastatin sodium" +"TX006393","NOCAS_47349","AVE8488" +"TX006416","NOCAS_47381","AVE8923" +"TX006525","219714-96-2","Penoxsulam" +"TX006533","21564-17-0","2-(Thiocyanomethylthio)benzothiazole" +"TX006534","98886-44-3","Fosthiazate" +"TX006537","119515-38-7","Icaridin" +"TX006551","1114-71-2","Pebulate" +"TX006553","64700-56-7","Triclopyr-butotyl" +"TX006576","79277-27-3","Thifensulfuron-methyl" +"TX006609","137-66-6","Ascorbyl palmitate" +"TX006623","1118-92-9","N,N-Dimethyloctanamide" +"TX006631","20780-48-7","3,7-Dimethyloctan-3-yl acetate" +"TX006633","6359-90-6","C.I. Acid Yellow 34, monosodium salt" +"TX006647","58846-77-8","Decyl beta-D-glucopyranoside" +"TX006656","17230-88-5","Danazol" +"TX006663","2491-38-5","2-Bromo-4-hydroxyacetophenone" +"TX006673","51229-78-8","Chloroallyl methenamine chloride" +"TX006695","94-91-7","N,N'-Disalicylidene-1,2-diaminopropane" +"TX006699","35691-65-7","1,2-Dibromo-2,4-dicyanobutane" +"TX006719","6359-82-6","Acid Yellow 11" +"TX006743","1323-38-2","Glyceryl monoricinoleate" +"TX006755","3547-33-9","2-Hydroxyethyl octyl sulfide" +"TX006763","5116-94-9","Monotridecyl phosphate" +"TX006852","83834-59-7","2-Ethylhexyl trans-4-methoxycinnamate" +"TX006872","586-62-9","Terpinolene" +"TX006874","16587-71-6","4-(tert-Pentyl)-cyclohexanone" +"TX006884","463-40-1","Linolenic acid" +"TX006887","52-76-6","Lynestrenol" +"TX006890","77-83-8","Ethyl methylphenylglycidate" +"TX006892","118-55-8","Phenyl salicylate" +"TX006897","839-90-7","Tris(2-hydroxyethyl) isocyanurate" +"TX006930","135-20-6","Cupferron" +"TX006944","143-22-6","2-[2-(2-Butoxyethoxy)ethoxy]ethanol" +"TX006949","135-88-6","N-Phenyl-2-naphthylamine" +"TX006955","624-18-0","1,4-Benzenediamine dihydrochloride" +"TX006966","15708-41-5","Ethylenediaminetetraacetic acid ferric sodium salt" +"TX006970","512-56-1","Trimethyl phosphate" +"TX007037","5394-36-5","5-Ethyl-5-methylhydantoin" +"TX007058","106-23-0","Citronellal" +"TX007122","18172-67-3","(-)-beta-Pinene" +"TX007126","33228-45-4","4-Hexylaniline" +"TX007152","540-18-1","Pentyl butyrate" +"TX007156","111-15-9","2-Ethoxyethyl acetate" +"TX007164","103055-07-8","Lufenuron" +"TX007177","7775-27-1","Sodium persulfate" +"TX007179","53-19-0","o,p'-DDD" +"TX007188","610-39-9","3,4-Dinitrotoluene" +"TX007199","612-82-8","3,3'-Dimethylbenzidine dihydrochloride" +"TX007207","97-23-4","Dichlorophen" +"TX007221","2702-72-9","2,4-D sodium salt" +"TX007227","3194-55-6","1,2,5,6,9,10-Hexabromocyclododecane" +"TX007233","55589-62-3","Acesulfame potassium" +"TX007257","683-18-1","Dibutyltin dichloride" +"TX007281","753-73-1","Dimethyltin dichloride" +"TX007287","636-21-5","2-Methylaniline hydrochloride" +"TX007304","538-75-0","Dicyclohexylcarbodiimide" +"TX007318","93-89-0","Ethyl benzoate" +"TX007350","98-53-3","4-tert-Butylcyclohexanone" +"TX007352","762-04-9","Diethyl phosphite" +"TX007354","4602-84-0","Farnesol" +"TX007366","3391-86-4","1-Octen-3-ol" +"TX007368","93-56-1","Styrene glycol" +"TX007384","88-04-0","4-Chloro-3,5-dimethylphenol" +"TX007406","58-86-6","D-Xylose" +"TX007424","88-69-7","2-Isopropylphenol" +"TX007427","638-07-3","Ethyl 4-chloro-3-oxobutanoate" +"TX007433","13676-54-5","Bismaleimide" +"TX007436","8001-54-5","Benzalkonium chloride" +"TX007439","1119-97-7","Tetradonium bromide" +"TX007460","123-00-2","4-Morpholinepropanamine" +"TX007471","122-18-9","Benzylhexadecyldimethylammonium chloride" +"TX007482","142-87-0","Sodium decyl sulfate" +"TX007494","61-73-4","Methylene blue" +"TX007496","633-96-5","C.I. Acid Orange 7" +"TX007504","5437-45-6","Benzyl bromoacetate" +"TX007522","56375-79-2","N,N-Dibutyl-N-methylbutan-1-aminium chloride" +"TX007526","3026-63-9","Sodium tridecyl sulfate" +"TX007556","5146-66-7","3,7-Dimethyl-2,6-octadienenitrile" +"TX007558","51-05-8","Procaine hydrochloride" +"TX007577","104-51-8","Butylbenzene" +"TX007602","97-52-9","2-Methoxy-4-nitroaniline" +"TX007617","98-00-0","Furfuryl alcohol" +"TX007619","87-68-3","Hexachloro-1,3-butadiene" +"TX007631","26027-38-3","Polyoxyethylene(10)nonylphenyl ether" +"TX007656","14371-10-9","(2E)-3-Phenylprop-2-enal" +"TX007663","542-92-7","1,3-Cyclopentadiene" +"TX007683","756-79-6","Dimethyl methylphosphonate" +"TX007707","770-35-4","1-Phenoxy-2-propanol" +"TX007718","140-10-3","E-Cinnamic acid" +"TX007737","114-07-8","Erythromycin" +"TX007739","3844-45-9","FD&C Blue No. 1" +"TX007768","129-17-9","Sulfan blue" +"TX007784","103-41-3","Benzyl cinnamate" +"TX007792","451-40-1","1,2-Diphenylethanone" +"TX007804","58-85-5","Biotin" +"TX007806","29836-26-8","Octyl beta-D-glucopyranoside" +"TX007832","500-38-9","Nordihydroguaiaretic acid" +"TX007859","4422-95-1","1,3,5-Benzenetricarbonyl trichloride" +"TX007874","93-08-3","2'-Acetonaphthone" +"TX008014","3737-41-5","3,3,4,4-Tetrachlorotetrahydrothiophene 1,1-dioxide" +"TX008016","5137-55-3","Methyltrioctylammonium chloride" +"TX008030","112-03-8","N,N,N-Trimethyloctadecan-1-aminium chloride" +"TX008063","827-19-0","Sodium 2,5-dimethylbenzenesulfonate" +"TX008065","533-23-3","2,4-D-ethyl ester" +"TX008067","39300-45-3","Dinocap" +"TX008069","81405-85-8","Imazamethabenz" +"TX008070","25311-71-1","Isofenphos" +"TX008073","118-47-8","Pyrazolone T" +"TX008082","973-21-7","Dinobuton" +"TX008087","13301-61-6","C.I. Disperse Orange 37" +"TX008138","116-66-5","1,1,3,3,5-Pentamethyl-4,6-dinitro-2,3-dihydro-1H-indene" +"TX008142","102-96-5","beta-Nitrostyrene" +"TX008320","110-91-8","Morpholine" +"TX008321","602-01-7","2,3-Dinitrotoluene" +"TX008326","94-80-4","2,4-D 1-butyl ester" +"TX008364","1072-15-7","Sulfuric acid, monononyl ester, sodium salt" +"TX008383","70-30-4","Hexachlorophene" +"TX008388","25496-72-4","Glyceryl monooleate" +"TX008392","553-70-8","Magnesium dibenzoate" +"TX008400","6359-98-4","C.I. Acid Yellow 17, disodium salt" +"TX008408","5700-49-2","1,2-Ethanediamine dihydriodide" +"TX008414","28159-98-0","Cybutryne" +"TX008416","26644-46-2","Triforine" +"TX008424","1323-19-9","Sodium triisopropyl naphthalene sulfonate" +"TX008428","125116-23-6","Metconazole" +"TX008434","30399-84-9","Isooctadecanoic acid" +"TX008436","104-43-8","4-Dodecylphenol" +"TX008450","126-72-7","Tris(2,3-dibromopropyl) phosphate" +"TX008467","27193-86-8","Dodecylphenol" +"TX008471","2807-30-9","2-Propoxyethanol" +"TX008567","13826-35-2","3-Phenoxybenzenemethanol" +"TX008581","3268-49-3","3-(Methylthio)propanal" +"TX008599","94-46-2","Isopentyl benzoate" +"TX008620","98-06-6","tert-Butylbenzene" +"TX008642","110-27-0","Isopropyl tetradecanoic acid" +"TX008655","5333-42-6","2-Octyl-1-dodecanol" +"TX008670","1163-19-5","Decabromodiphenyl oxide" +"TX008673","616-45-5","2-Pyrrolidinone" +"TX008685","112-14-1","Octyl acetate" +"TX008690","3524-68-3","Pentaerythritol triacrylate" +"TX008698","3118-97-6","C.I. Solvent Orange 7" +"TX008704","13048-33-4","1,6-Hexanediol diacrylate" +"TX008707","8000-41-7","Terpineol" +"TX008715","2078-54-8","Propofol" +"TX008724","1067-53-4","Tris(2-methoxyethoxy)vinylsilane" +"TX008726","1760-24-3","N-[3-(Trimethoxysilyl)propyl]ethane-1,2-diamine" +"TX008731","612-83-9","3,3'-Dichlorobenzidine dihydrochloride" +"TX008734","78491-02-8","Diazolidinyl urea" +"TX008744","112-80-1","Oleic acid" +"TX008746","120-51-4","Benzyl benzoate" +"TX008759","2409-55-4","2-tert-Butyl-4-methylphenol" +"TX008763","583-78-8","2,5-Dichlorophenol" +"TX008765","556-52-5","Glycidol" +"TX008768","10016-20-3","alpha-Cyclodextrin" +"TX008800","860-22-0","C.I. Acid Blue 74" +"TX008808","18794-84-8","trans-beta-Farnesene" +"TX008831","112-07-2","2-Butoxyethyl acetate" +"TX008835","57-10-3","Hexadecanoic acid" +"TX008837","50-81-7","L-Ascorbic acid" +"TX008849","104-66-5","1,2-Diphenoxyethane" +"TX008863","7011-83-8","Dihydrojasmone lactone" +"TX008879","15214-89-8","2-Acrylamido-2-methyl-1-propanesulfonic acid" +"TX008884","3252-43-5","Dibromoacetonitrile" +"TX008911","1646-87-3","Aldicarb sulfoxide" +"TX008940","156-10-5","4-Nitrosodiphenylamine" +"TX008967","103-09-3","2-Ethylhexyl acetate" +"TX008996","142-16-5","Bis(2-ethylhexyl) maleate" +"TX009003","103-11-7","2-Ethylhexyl acrylate" +"TX009007","78-69-3","3,7-Dimethyl-3-octanol" +"TX009019","39236-46-9","Imidazolidinyl urea" +"TX009031","140-49-8","4'-(Chloroacetyl)acetanilide" +"TX009035","102-06-7","1,3-Diphenylguanidine" +"TX009041","94-18-8","Benzylparaben" +"TX009051","630-56-8","Hydroxyprogesterone caproate" +"TX009063","51580-86-0","Sodium dichloro-s-triazinetrione dihydrate" +"TX009065","480-40-0","Chrysin" +"TX009067","142-04-1","Aniline hydrochloride" +"TX009070","13292-46-1","Rifampicin" +"TX009080","20265-97-8","4-Methoxyaniline hydrochloride" +"TX009091","NOCAS_47218","Sodium bisulfite, mixture of NaHSO3 and Na2S2O5" +"TX009150","8018-01-7","Mancozeb" +"TX009156","76578-14-8","Quizalofop-ethyl" +"TX009165","836-30-6","4-Nitro-N-phenylaniline" +"TX009193","73-31-4","Melatonin" +"TX009211","7659-86-1","2-Ethylhexyl sulfanylacetate" +"TX009220","23386-52-9","Dicyclohexyl sodium sulfosuccinate" +"TX009242","1459-93-4","Dimethyl isophthalate" +"TX009245","111-20-6","Decanedioic acid" +"TX009258","271-89-6","2,3-Benzofuran" +"TX009272","550-44-7","N-Methylphthalimide" +"TX009281","919-30-2","3-Aminopropyltriethoxysilane" +"TX009285","960-71-4","Triphenylborane" +"TX009307","112-35-6","2-[2-(2-Methoxyethoxy)ethoxy]ethanol" +"TX009310","111-11-5","Methyl octanoate" +"TX009349","110-42-9","Methyl decanoate" +"TX009353","112-55-0","1-Dodecanethiol" +"TX009384","1212-29-9","N,N'-Dicyclohexylthiourea" +"TX009389","6789-88-4","Hexyl benzoate" +"TX009393","112-60-7","Tetraethylene glycol" +"TX009405","94-60-0","Dimethyl hexahydroterephthalate" +"TX009413","90823-38-4","Denatonium saccharide" +"TX009419","98319-26-7","Finasteride" +"TX009434","111-27-3","1-Hexanol" +"TX009469","108-39-4","m-Cresol" +"TX009478","112-18-5","N,N-Dimethyldodecan-1-amine" +"TX009480","16219-75-3","5-Ethylidene-2-norbornene" +"TX009482","298-07-7","Bis(2-ethylhexyl) phosphate" +"TX009484","90-72-2","2,4,6-Tris(dimethylaminomethyl)phenol" +"TX009499","96-18-4","1,2,3-Trichloropropane" +"TX009515","108-94-1","Cyclohexanone" +"TX009542","107-46-0","Hexamethyldisiloxane" +"TX009546","112-63-0","Methyl linoleate" +"TX009562","109-52-4","Pentanoic acid" +"TX009566","68515-48-0","DINP branched" +"TX009571","75-07-0","Acetaldehyde" +"TX009582","9016-87-9","Polymethylene polyphenyl isocynate" +"TX009588","868-85-9","Dimethyl hydrogen phosphite" +"TX009604","57-14-7","1,1-Dimethylhydrazine" +"TX009641","103-65-1","Propylbenzene" +"TX009652","1330-78-5","Tricresyl phosphate" +"TX009662","108-38-3","1,3-Dimethylbenzene" +"TX009664","644-97-3","Phenyl phosphorus dichloride" +"TX009710","1675-54-3","Bisphenol A diglycidyl ether" +"TX009720","50-14-6","Ergocalciferol" +"TX009736","56-95-1","Chlorhexidine diacetate" +"TX009742","553-26-4","4,4'-Bipyridine" +"TX009750","13463-41-7","Zinc pyrithione" +"TX009766","520-36-5","Apigenin" +"TX009790","67485-29-4","Hydramethylnon" +"TX009792","58-18-4","17-Methyltestosterone" +"TX009802","66357-35-5","Ranitidine" +"TX009808","9004-82-4","Sodium lauryl polyoxyethylene ether sulfate" +"TX009816","119-07-3","Octyl decyl phthalate" +"TX009828","16079-88-2","Bromo-3-chloro-5,5-dimethylhydantoin" +"TX009841","127-39-9","Sodium 1,4-diisobutyl sulfosuccinate" +"TX009862","68959-20-6","Disiquonium chloride" +"TX009864","79-57-2","Oxytetracycline" +"TX009872","105-53-3","Diethyl propanedioate" +"TX009893","1120-04-3","Octadecyl sulfate sodium salt" +"TX009907","3653-48-3","MCPA-sodium" +"TX009943","26447-10-9","Ammonium xylene sulfonate" +"TX009957","53219-21-9","Dihydromyrcenol" +"TX009977","2782-57-2","Troclosene" +"TX009987","115-95-7","Linalyl acetate" +"TX010001","474-86-2","Equilin" +"TX010009","2392-39-4","Dexamethasone sodium phosphate" +"TX010035","66575-29-9","Forskolin" +"TX010052","989-38-8","Rhodamine 6G" +"TX010056","1241-94-7","2-Ethylhexyl diphenyl phosphate" +"TX010068","118-56-9","3,3,5-Trimethylcyclohexyl salicylate" +"TX010069","25152-84-5","(E,E)-2,4-Decadienal" +"TX010111","6379-73-3","Carvacryl methyl ether" +"TX010112","2465-27-2","Auramine hydrochloride" +"TX010165","85507-79-5","Phthalic acid, diundecyl ester, branched and linear" +"TX010177","68515-75-3","Hexanedioic acid, di-C7-9-branched and linear alkyl esters" +"TX010183","98730-04-2","Benoxacor" +"TX010199","1638-22-8","4-Butylphenol" +"TX010202","13473-26-2","D&C Red 27" +"TX010217","13684-63-4","Phenmedipham" +"TX010228","64359-81-5","4,5-Dichloro-2-octyl-3(2H)-isothiazolone" +"TX010235","10081-67-1","4-(2-Phenylpropan-2-yl)-N-[4-(2-phenylpropan-2-yl)phenyl]aniline" +"TX010291","77-06-5","Gibberellic acid" +"TX010297","29122-68-7","Atenolol" +"TX010299","491-80-5","Biochanin A" +"TX010325","144-49-0","Fluoroacetic acid" +"TX010330","16356-11-9","1,3,5-Undecatriene" +"TX010334","103-69-5","N-Ethylaniline" +"TX010353","24851-98-7","Methyl dihydrojasmonate" +"TX010357","2043-57-4","1H,1H,2H,2H-Perfluorooctyl iodide" +"TX010358","77-90-7","Acetyl tributyl citrate" +"TX010366","126-00-1","Diphenolic acid" +"TX010572","94-47-3","2-Phenylethyl benzoate" +"TX010870","1763-23-1","PFOS" +"TX010993","80-07-9","4,4'-Dichlorodiphenyl sulfone" +"TX011176","60-12-8","2-Phenylethanol" +"TX011208","111-62-6","Ethyl oleate" +"TX011231","123-96-6","2-Octanol" +"TX011236","54464-57-2","1-(2,3,8,8-Tetramethyl-1,2,3,4,5,6,7,8-octahydronaphthalen-2-yl)ethanone" +"TX011250","645-56-7","4-Propylphenol" +"TX011264","58-56-0","Pyridoxine hydrochloride" +"TX011276","124-19-6","Nonanal" +"TX011349","123-05-7","2-Ethylhexanal" +"TX011371","118-82-1","4,4'-Methylenebis(2,6-di-t-butylphenol)" +"TX011414","124-03-8","Ethylhexadecyldimethylammonium bromide" +"TX011420","111-70-6","1-Heptanol" +"TX011425","121-39-1","Ethyl 3-phenylglycidate" +"TX011469","111-55-7","1,2-Ethanediol diacetate" +"TX011482","134-31-6","8-Hydroxyquinoline sulfate" +"TX011545","37764-25-3","Dichlormid" +"TX011564","105-21-5","1,4-Heptanolide" +"TX011571","112-31-2","Decanal" +"TX011613","85532-75-8","PK 11195" +"TX011622","117428-22-5","Picoxystrobin" +"TX011625","54-62-6","4-Aminofolic acid" +"TX011630","41481-66-7","4,4'-Sulfonylbis[2-(prop-2-en-1-yl)phenol]" +"TX011636","NOCAS_47394","Grinstad Soft-N-Safe" +"TX011638","4449-51-8","Cyclopamine" +"TX011660","NOCAS_48176","YM218" +"TX011664","151506-44-4","FR140423" +"TX011720","1095-90-5","Methadone hydrochloride" +"TX011877","3173-72-6","1,5-Naphthalene diisocyanate" +"TX011879","98105-99-8","Sarafloxacin" +"TX011884","509-34-2","C.I. Solvent Red 49" +"TX011886","101-67-7","4,4'-Dioctyldiphenylamine" +"TX011893","78-98-8","Methyl glyoxal" +"TX011894","123-02-4","1-Phenyltridecane" +"TX011903","41484-35-9","Thioethylene glycol bis(3,5-di-tert-butyl-4-hydroxyhydrocinnamate)" +"TX011905","94-86-0","2-Ethoxy-5-(1-propenyl)phenol" +"TX011910","596-03-2","4',5'-Dibromofluorescein" +"TX012209","66-81-9","Cycloheximide" +"TX012211","521-18-6","5alpha-Dihydrotestosterone" +"TX012263","NOCAS_48514","PharmaGSID_48514" +"TX012264","NOCAS_48518","PharmaGSID_48518" +"TX012265","825643-57-0","PharmaGSID_48513" +"TX012266","107071-66-9","Ro 23-7637" +"TX012267","625114-41-2","Piragliatin" +"TX012268","NOCAS_48516","PharmaGSID_48516" +"TX012269","686756-87-6","PharmaGSID_48519" +"TX012270","1191914-21-2","PharmaGSID_48521" +"TX012271","NOCAS_48509","PharmaGSID_48509" +"TX012272","NOCAS_48505","PharmaGSID_48505" +"TX012273","588941-45-1","PharmaGSID_48506" +"TX012274","460081-99-6","PharmaGSID_48510" +"TX012275","NOCAS_48507","PharmaGSID_48507" +"TX012276","1062243-51-9","PharmaGSID_48511" +"TX012277","2481-94-9","C.I. Solvent Yellow 56" +"TX012279","29548-30-9","Farnesyl acetate" +"TX012284","4221-68-5","1,1-Bis(3-cyclohexyl-4-hydroxyphenyl)cyclohexane" +"TX012286","90982-32-4","Chlorimuron-ethyl" +"TX012287","70630-17-0","Metalaxyl-M" +"TX012290","563-04-2","Tri-m-tolyl phosphate" +"TX012291","135590-91-9","Mefenpyr-diethyl" +"TX012293","930-55-2","N-Nitrosopyrrolidine" +"TX012294","26896-20-8","Neodecanoic acid" +"TX012295","108419-33-6","Acetic acid, C8-10-branched alkyl esters, C9-rich" +"TX012297","4553-62-2","2-Methylpentanedinitrile" +"TX012299","111-40-0","Diethylenetriamine" +"TX012300","1333-39-7","Phenolsulfonic acid" +"TX012301","10042-59-8","2-Propyl-1-heptanol" +"TX012302","108-32-7","Propylene carbonate" +"TX012303","9016-00-6","Polydimethylsiloxane" +"TX012304","116-02-9","3,3,5-Trimethylcyclohexanol" +"TX012305","13254-34-7","2,6-Dimethyl-2-heptanol" +"TX012306","104-45-0","4-Propylanisole" +"TX012307","94-96-2","2-Ethyl-1,3-hexanediol" +"TX012308","127-19-5","N,N-Dimethylacetamide" +"TX012309","75-50-3","Trimethylamine" +"TX012310","68-11-1","Thioglycolic acid" +"TX012311","89-87-2","1,3-Dimethyl-4-nitrobenzene" +"TX012312","7773-06-0","Ammonium sulfamate" +"TX012325","8018-01-7","Mancozeb" +"TX012337","79-97-0","3,3'-Dimethylbisphenol A" +"TX012340","50-65-7","Niclosamide" +"TX012521","712-50-5","Cyclohexylphenylketone" +"TX012537","67-30-1","Tetrac" +"TX012553","NOCAS_48522","HMR1171 trifluoroacetate (1:1)" +"TX012554","129298-91-5","TNP-470" +"TX012606","2971-36-0","2,2-Bis(4-hydroxyphenyl)-1,1,1-trichloroethane" +"TX012611","52806-53-8","Hydroxyflutamide" +"TX012622","639-58-7","Triphenyltin chloride" +"TX012623","121-54-0","Benzethonium chloride" +"TX012627","1939-36-2","Trimethylenediaminetetraacetic acid" +"TX012628","17354-14-2","1,4-Bis(butylamino)anthracene-9,10-dione" +"TX012631","10022-28-3","1,1-Dimethoxyoctane" +"TX012641","239110-15-7","Fluopicolide" +"TX012643","163515-14-8","Dimethenamid-P" +"TX012645","1885-29-6","2-Aminobenzonitrile" +"TX012646","2114-11-6","Allyl carbamate" +"TX012647","5405-41-4","Ethyl 3-hydroxybutyrate" +"TX012648","105-90-8","Geranyl propionate" +"TX012649","1879-09-0","6-tert-Butyl-2,4-dimethylphenol" +"TX012651","3648-21-3","Diheptyl phthalate" +"TX012652","106-32-1","Ethyl octanoate" +"TX012653","135-02-4","2-Methoxybenzaldehyde" +"TX012654","452-58-4","2,3-Diaminopyridine" +"TX012655","4856-95-5","Borane - morpholine complex" +"TX012656","1609-47-8","Diethyl dicarbonate" +"TX012657","108-74-7","Hexahydro-1,3,5-trimethyl-1,3,5-triazine" +"TX012658","109-08-0","2-Methylpyrazine" +"TX012659","150-19-6","3-Methoxyphenol" +"TX012660","140-53-4","4-Chlorophenylacetonitrile" +"TX012670","78-30-8","Tri-o-cresyl phosphate" +"TX013433","54686-97-4","Bis(p-methylbenzylidene)sorbitol" +"TX013434","92-44-4","2,3-Dihydroxynaphthalene" +"TX013435","85-22-3","2,3,4,5,6-Pentabromoethylbenzene" +"TX013437","122931-48-0","Rimsulfuron" +"TX013438","110553-27-0","2-Methyl-4,6-bis[(octylthio)methyl]phenol" +"TX013448","927-62-8","1-Butanamine, N,N-dimethyl-" +"TX013465","763-32-6","3-Methylbut-3-en-1-ol" +"TX013466","700-13-0","2,3,5-Trimethylhydroquinone" +"TX013470","78-97-7","Lactonitrile" +"TX013472","81-30-1","Naphthalene-1,8:4,5-tetracarboxylic dianhydride" +"TX013474","719-59-5","2-Amino-5-chlorobenzophenone" +"TX013481","693-54-9","2-Decanone" +"TX013482","626-60-8","3-Chloropyridine" +"TX013484","6117-91-5","But-2-en-1-ol" +"TX013494","93-53-8","Hydratropaldehyde" +"TX013499","87-91-2","Diethyl L-tartrate" +"TX013505","5888-33-5","Isobornyl acrylate" +"TX013506","7005-72-3","1-Chloro-4-phenoxybenzene" +"TX013507","75980-60-8","Diphenyl(2,4,6-trimethylbenzoyl)phosphine oxide" +"TX013508","626-39-1","1,3,5-Tribromobenzene" +"TX013510","56-37-1","Benzyltriethylammonium chloride" +"TX013511","95-56-7","2-Bromophenol" +"TX013520","98-02-2","2-Furylmethanethiol" +"TX013522","65-71-4","Thymine" +"TX013526","86-98-6","4,7-Dichloroquinoline" +"TX013527","92-91-1","4'-Acetylbiphenyl" +"TX013532","86-28-2","9-Ethylcarbazole" +"TX013536","603-36-1","Triphenylstibine" +"TX013537","20662-14-0","Scandium chloride hexahydrate" +"TX013540","821-48-7","Bis(2-chloroethyl)amine hydrochloride" +"TX013541","6283-25-6","2-Chloro-5-nitroaniline" +"TX013542","79-07-2","Acetamide, 2-chloro-" +"TX013543","827-94-1","2,6-Dibromo-4-nitroaniline" +"TX013544","716-79-0","2-Phenylbenzimidazole" +"TX013546","5977-14-0","3-Oxobutanamide" +"TX013549","120983-64-4","Pyrasulfotole metabolite (SXX 0665)" +"TX013550","569-64-2","Malachite green" +"TX013551","81-61-8","Quinalizarin" +"TX013553","67-71-0","Dimethyl sulfone" +"TX013554","687-47-8","(L)-(-)-Ethyl lactate" +"TX013555","615-20-3","2-Chlorobenzothiazole" +"TX013557","60-01-5","Glycerol tributyrate" +"TX013560","619-73-8","4-Nitrobenzyl alcohol" +"TX013563","626-64-2","4-Pyridinol" +"TX013565","5655-61-8","(-)Bronyl acetate" +"TX013566","31482-56-1","C.I. Disperse Orange 25" +"TX013567","707-61-9","2,3-Dihydro-4-methyl-1-phenyl-1H-phosphole 1-oxide" +"TX013571","611-59-6","1,7-Dimethylxanthine" +"TX013573","1207-12-1","4,6-Dimethyldibenzothiophene" +"TX013575","6358-53-8","C.I. Solvent Red 80" +"TX013576","5949-05-3","(S)-(-)-Citronellal" +"TX013577","6174-86-3","3-Chloro-7-hydroxy-4-methyl-2-benzopyrone" +"TX013578","21679-31-2","Chromium(III) acetylacetonate" +"TX013582","623-33-6","Ethyl glycinate hydrochloride" +"TX013594","93-52-7","1,2-dibromo(phenyl)ethane" +"TX013608","6175-45-7","2,2-Diethoxyacetophenone" +"TX013610","35958-30-6","Phenol, 2,2'-ethylidenebis[4,6-bis(1,1-dimethylethyl)-" +"TX013738","87-13-8","Diethyl ethoxymethylenemalonate" +"TX013755","873-32-5","2-Chlorobenzonitrile" +"TX013756","82-44-0","1-Chloroanthraquinone" +"TX013761","1672-46-4","Digoxigenin" +"TX013772","99129-21-2","Clethodim" +"TX013775","76-83-5","Trityl chloride" +"TX013776","89-75-8","2,4-Dichlorobenzoyl chloride" +"TX014251","10061-01-5","(Z)-Dichloropropene" +"TX014271","68844-77-9","Astemizole" +"TX014272","147526-32-7","Pitavastatin calcium" +"TX014277","143201-11-0","Cerivastatin sodium" +"TX014279","142-29-0","Cyclopentene" +"TX014280","111-34-2","Butyl vinyl ether" +"TX014281","100-43-6","4-Vinylpyridine" +"TX014344","142-19-8","Prop-2-en-1-yl heptanoate" +"TX014346","76703-62-3","gamma-Cyhalothrin" +"TX014347","243973-20-8","Pinoxaden" +"TX014349","97-89-2","Citronellyl isobutyrate" +"TX014357","108-31-6","2,5-Furandione" +"TX014358","4719-04-4","1,3,5-Triazine-1,3,5(2H,4H,6H)-triethanol" +"TX014360","64091-91-4","4-(N-Methyl-N-nitrosamino)-1-(3-pyridyl)-1-butanone" +"TX014362","584-03-2","1,2-Butanediol" +"TX014364","55179-31-2","Bitertanol" +"TX014377","171118-09-5","Metolachlor ESA" +"TX014380","18015-76-4","C.I. Basic Green 4 oxalate (1:x)" +"TX014392","1319-77-3","Cresol" +"TX014396","7492-66-2","Citral diethyl acetal" +"TX014401","51384-51-1","Metoprolol" +"TX014402","20120-33-6","Phosphonic acid, (3-((hydroxymethyl)amino)-3-oxopropyl)-, dimethyl ester" +"TX014404","76014-81-8","4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanol" +"TX014415","832-69-9","1-Methyl phenanthrene" +"TX014418","147150-35-4","Cloransulam-methyl" +"TX014419","5742-17-6","2,4-D, isopropylamine salt" +"TX014430","3697-42-5","Chlorhexidine dihydrochloride" +"TX014455","54-31-9","Furosemide" +"TX014482","67762-27-0","Alcohols, C16-18" +"TX014486","187022-11-3","Acetochlor ESA" +"TX014500","142-92-7","Hexyl acetate" +"TX014518","108-89-4","4-Methylpyridine" +"TX014524","2499-95-8","Hexyl acrylate" +"TX014540","503-74-2","Isovaleric acid" +"TX014554","2835-39-4","Allyl isovalerate" +"TX014584","106-36-5","Propyl propionate" +"TX014586","108-03-2","1-Nitropropane" +"TX014610","110-93-0","6-Methyl-5-hepten-2-one" +"TX014614","111-85-3","1-Chlorooctane" +"TX014626","56-75-7","Chloramphenicol" +"TX014641","97-86-9","Isobutyl methacrylate" +"TX014644","1135-66-6","(-)-Isolongifolene" +"TX014648","52663-68-0","2,2',3,4',5,5',6-Heptachloro-1,1'-biphenyl" +"TX014654","473-55-2","Pinane" +"TX014671","6842-15-5","1-Propene, tetramer" +"TX014674","462-95-3","Diethoxymethane" +"TX014675","544-01-4","Isoamyl ether" +"TX014676","3388-04-3","beta-(3,4-Epoxycyclohexyl)ethyltrimethoxysilane" +"TX014677","23726-91-2","(E)-beta-Damascone" +"TX014678","121-72-2","N,N,3-Trimethylaniline" +"TX014679","108-48-5","2,6-Dimethylpyridine" +"TX014680","2680-03-7","N,N-Dimethylacrylamide" +"TX014681","10416-59-8","N,O-bis(Trimethylsilyl)acetamide" +"TX014686","107-70-0","4-Methoxy-4-methyl-2-pentanone" +"TX014712","526-73-8","1,2,3-Trimethylbenzene" +"TX014713","115-18-4","2-Methyl-3-buten-2-ol" +"TX014714","17557-23-2","Neopentyl glycol diglycidyl ether" +"TX014715","109-97-7","Pyrrole" +"TX014716","108-87-2","Methylcyclohexane" +"TX014717","104-90-5","5-Ethyl-2-methylpyridine" +"TX014718","123-15-9","2-Methylpentanal" +"TX014719","110-01-0","Tetrahydrothiophene" +"TX014720","16529-56-9","2-Methyl-3-butenenitrile" +"TX014721","135-98-8","sec-Butylbenzene" +"TX014722","498-81-7","Dihydro-alpha-terpineol" +"TX014723","103-28-6","Benzyl 2-methylpropanoate" +"TX014724","141-93-5","1,3-Diethylbenzene" +"TX014725","122-73-6","Benzyl 3-methylbutyl ether" +"TX014726","150-46-9","Boric acid, triethyl ester" +"TX014727","102-85-2","Tributyl phosphite" +"TX014728","3852-09-3","Methyl 3-methoxypropionate" +"TX014729","16409-43-1","4-Methyl-2-(2-methylprop-1-en-1-yl)tetrahydro-2H-pyran" +"TX014730","175178-82-2","Tyrphostin" +"TX014741","5131-66-8","1-Butoxy-2-propanol" +"TX014752","98-29-3","4-tert-Butylcatechol" +"TX014760","126-75-0","Demeton-S" +"TX014765","212141-51-0","Vatalanib dihydrochloride" +"TX014768","826-36-8","2,2,6,6-Tetramethyl-4-piperidone" +"TX014774","646-06-0","1,3-Dioxolane" +"TX014823","50-33-9","Phenylbutazone" +"TX014824","504-63-2","1,3-Propanediol" +"TX014830","1747-60-0","2-Amino-6-methoxybenzothiazole" +"TX014832","487-68-3","2,4,6-Trimethylbenzaldehyde" +"TX014833","3120-74-9","3-Methyl-4-(methylthio)phenol" +"TX014835","17420-30-3","Benzonitrile, 2-amino-5-nitro-" +"TX014837","2497-06-5","Disulfoton sulfone" +"TX014839","464-48-2","(1S)-(-)-Camphor" +"TX014843","23128-74-7","Antioxidant 1098" +"TX014844","23696-85-7","Damascenone" +"TX014845","33693-04-8","Terbumeton" +"TX014846","2859-67-8","3-(3-Pyridyl)-1-propanol" +"TX014847","2032-65-7","Methiocarb" +"TX014848","139968-49-3","Metaflumizone" +"TX014850","1656-48-0","3,3'-Oxydipropionitrile" +"TX014853","540-38-5","4-Iodophenol" +"TX014854","NOCAS_57890","Anti-OP-18/Stathmin antibody produced in rabbit" +"TX014855","56070-16-7","Terbufos sulfone" +"TX014856","1139-30-6","(-)Carophyllene oxide" +"TX014857","551-93-9","2'-Aminoacetophenone" +"TX014858","2588-04-7","Phorate sulfone" +"TX014859","144-74-1","Sulfathiazole sodium" +"TX014860","103-26-4","Methyl cinnamate" +"TX014861","122-01-0","4-Chlorobenzoyl chloride" +"TX014862","1885-14-9","Phenyl carbonochloridate" +"TX014863","123-56-8","Succinimide" +"TX014864","120-21-8","4-(Diethylamino)benzaldehyde" +"TX014865","4584-49-0","2-Chloropropyldimethylamine hydrochloride" +"TX014866","2479-46-1","1,3-Bis(4-aminophenoxy)benzene" +"TX014867","14024-18-1","Iron(III) acetylacetonate" +"TX014868","110-75-8","2-Chloroethyl vinyl ether" +"TX014869","105-31-7","Hex-1-yn-3-ol" +"TX014870","496-11-7","Indan" +"TX014871","2426-54-2","2-(Diethylamino)ethyl acrylate" +"TX014872","1752-30-3","Acetone thiosemicarbazide" +"TX014873","141-91-3","2,6-Dimethyl morpholine" +"TX014874","116-17-6","Tripropan-2-yl phosphite" +"TX014875","103-56-0","3-Phenylprop-2-en-1-yl propanoate" +"TX014876","14938-35-3","4-Pentylphenol" +"TX014877","17321-47-0","O,O-Dimethyl phosphoramidothioate" +"TX014878","136-85-6","5-Methyl-1H-benzotriazole" +"TX014879","111-31-9","1-Hexanethiol" +"TX014880","3068-00-6","1,2,4-Butanetriol" +"TX014881","130-15-4","1,4-Naphthoquinone" +"TX014882","1489-69-6","Cyclopropanecarboxaldehyde" +"TX014883","319-86-8","delta-Hexachlorocyclohexane" +"TX014884","213464-77-8","Orthosulfamuron" +"TX014885","53-41-8","Androsterone" +"TX014886","1678-91-7","Ethylcyclohexane" +"TX014887","1885-38-7","(2E)-3-Phenylprop-2-enenitrile" +"TX014888","3277-26-7","1,1,3,3-Tetramethyldisiloxane" +"TX014889","121-87-9","2-Chloro-4-nitroaniline" +"TX014890","2402-78-0","2,6-Dichloropyridine" +"TX014891","134-85-0","4-Chlorobenzophenone" +"TX014892","2648-61-5","2,2-Dichloro-1-phenylethanone" +"TX014893","140939-17-9","Alachlor sec-oxanilic acid sodium salt" +"TX014894","35045-02-4","Metribuzin-DA" +"TX014896","152019-73-3","Metolachlor OA" +"TX014897","56507-37-0","Diketometribuzin" +"TX014898","506-68-3","Cyanogen bromide" +"TX014901","301-00-8","Methyl linolenate" +"TX014902","19721-22-3","3-Mercapto-1-propanol" +"TX014903","50-69-1","D-Ribose" +"TX014904","13963-57-0","Aluminum trisacetoacetate" +"TX014905","100-25-4","1,4-Dinitrobenzene" +"TX014906","1470-94-6","Indan-5-ol" +"TX014907","17754-90-4","4-(Diethylamino)salicylaldehyde" +"TX014908","13183-79-4","1-N-Methyl-5-thiotetrazole" +"TX014909","15059-52-6","Dysprosium(III) chloride hexahydrate" +"TX014910","10482-56-1","(L)-alpha-Terpineol" +"TX014911","109-04-6","2-Bromopyridine" +"TX014912","1100-88-5","Benzyltriphenylphosphonium chloride" +"TX014913","2832-40-8","C.I. Disperse Yellow 3" +"TX014914","364-76-1","4-Fluoro-3-nitroaniline" +"TX014915","4584-46-7","(2-Chloroethyl)dimethylamine hydrochloride" +"TX014916","1121-78-4","6-Methyl-3-hydroxypyridine" +"TX014917","13759-92-7","Europium(III) chloride hexahydrate" +"TX014918","16867-04-2","3-Hydroxy-2-pyridone" +"TX014919","131-52-2","Sodium pentachlorophenate" +"TX014920","13080-86-9","4,4'-(Isopropylidenebis(4,1-phenyleneoxy))dianiline" +"TX014921","142-08-5","2-Pyridone" +"TX014922","112-29-8","1-Bromodecane" +"TX014923","104-82-5","4-Methylbenzyl chloride" +"TX014924","90325-47-6","1,2,3-Hexanetriol" +"TX014925","24683-00-9","2-Isobutyl-3-methoxypyrazine" +"TX014926","124-05-0","1,2-Bis((chlorocarbonyl)oxy)ethane" +"TX014927","106-58-1","1,4-Dimethylpiperazine" +"TX014928","109-78-4","3-Hydroxypropanenitrile" +"TX014929","104-72-3","Decylbenzene" +"TX014930","100-80-1","3-Methylstyrene" +"TX014931","1569-60-4","6-Methylhept-5-en-2-ol" +"TX014932","111-43-3","Propyl ether" +"TX014962","95-69-2","4-Chloro-2-methylaniline" +"TX014970","495-18-1","N-Hydroxybenzamide" +"TX014971","700-06-1","Indole-3-carbinol" +"TX014985","134-32-7","1-Naphthylamine" +"TX014994","1469-48-3","cis-1,2,3,6-Tetrahydrophthalimide" +"TX015088","57018-04-9","Tolclofos-methyl" +"TX015102","89415-87-2","1,3-Dichloro-5-ethyl-5-methylhydantoin" +"TX015108","3064-70-8","Bis(trichloromethyl)sulfone" +"TX015116","193-39-5","Indeno(1,2,3-cd)pyrene" +"TX015122","61949-77-7","trans-Permethrin" +"TX015165","110-52-1","1,4-Dibromobutane" +"TX015169","115-84-4","2-Butyl-2-ethyl-1,3-propanediol" +"TX015170","513-86-0","Acetoin" +"TX015183","19660-16-3","2,3-Dibromopropyl acrylate" +"TX015192","611-14-3","1-Ethyl-2-methylbenzene" +"TX015203","3006-93-7","N,N'-1,3-Phenylenedimaleimide" +"TX015208","16484-77-8","Mecoprop-P" +"TX015215","5103-71-9","cis-Chlordane" +"TX015217","61949-76-6","1RS cis-Permethrin" +"TX015224","3424-82-6","o,p'-DDE" +"TX015226","91-67-8","N,N-Diethyl-m-toluidine" +"TX015239","5103-74-2","gamma-Chlordane" +"TX015272","140939-15-7","Alachlor ESA, sodium salt" +"TX015277","85721-33-1","Ciprofloxacin" +"TX015309","78-62-6","Diethoxy(dimethyl)silane" +"TX015310","78-77-3","1-Bromo-2-methylpropane" +"TX015311","80-48-8","Methyl toluene-4-sulphonate" +"TX015312","83-56-7","1,5-Dihydroxynaphthalene" +"TX015313","874-90-8","4-Anisonitrile" +"TX015314","88-10-8","Diethylcarbamoyl chloride" +"TX015315","89-61-2","1,4-Dichloro-2-nitrobenzene" +"TX015317","91-10-1","2,6-Dimethoxyphenol" +"TX015319","58654-67-4","2-Octanone, 5-methyl-" +"TX015320","589-66-2","2-Methylpropyl but-2-enoate" +"TX015321","591-12-8","alpha-Angelica lactone" +"TX015322","609-23-4","2,4,6-Triiodophenol" +"TX015324","619-50-1","Methyl p-nitrobenzoate" +"TX015325","6358-09-4","2-Amino-6-chloro-4-nitrophenol" +"TX015326","6440-58-0","1,3-Dimethylol-5,5-dimethylhydantoin" +"TX015358","84-58-2","2,3-Dichloro-5,6-dicyano-p-benzoquinone" +"TX015359","79-30-1","2-Methylpropanoyl chloride" +"TX015360","868-57-5","Methyl 2-methylbutyrate" +"TX015362","93-16-3","4-Prop-1-enylveratrole" +"TX015363","5694-00-8","Glycidamide" +"TX015364","96-54-8","1-Methylpyrrole" +"TX015366","627-30-5","3-Chloro-1-propanol" +"TX015367","616-47-7","1-Methylimidazole" +"TX015370","617-89-0","Furfurylamine" +"TX015371","622-45-7","Cyclohexyl acetate" +"TX015372","609-66-5","2-Chlorobenzamide" +"TX015373","763-29-1","2-Methylpent-1-ene" +"TX015374","767-00-0","4-Hydroxybenzonitrile" +"TX015375","7786-61-0","2-Methoxy-4-vinylphenol" +"TX015376","78-46-6","Dibutyl butylphosphonate" +"TX015377","643-28-7","2-Isopropylaniline" +"TX015378","591-22-0","3,5-Dimethylpyridine" +"TX015379","635-22-3","4-Chloro-3-nitroaniline" +"TX015381","64436-13-1","Arsenobetaine" +"TX015382","6843-66-9","Dimethoxy(diphenyl)silane" +"TX015383","122454-29-9","Tralopyril" +"TX015384","580-51-8","3-Phenylphenol" +"TX015386","75389-89-8","Diethylmethylbenzenediamine" +"TX015389","87-41-2","Phthalide" +"TX015390","79-09-4","Propionic acid" +"TX015391","628-81-9","1-Ethoxybutane" +"TX015392","109293-97-2","Diflufenzopyr" +"TX015393","20018-09-1","Diiodomethyl 4-methylphenyl sulfone" +"TX015394","2051-62-9","4-Chlorobiphenyl" +"TX015396","874-60-2","p-Toluoyl chloride" +"TX015397","565-80-0","2,4-Dimethylpentan-3-one" +"TX015398","1942-71-8","2-(4-tert-Butylphenoxy)cyclohexan-1-ol" +"TX015405","612-12-4","1,2-Bis(chloromethyl)benzene" +"TX015406","615-13-4","1,3-Dihydro-2H-inden-2-one" +"TX015407","626-48-2","6-Methyluracil" +"TX015527","3634-83-1","1,3-Bis(isocyanatomethyl)benzene" +"TX1012716","126-30-7","2,2-Dimethylpropane-1,3-diol" +"TX1012717","61-82-5","Amitrole" +"TX1012721","684-93-5","N-Nitroso-N-methylurea" +"TX1012726","123-77-3","Azodicarbonamide" +"TX1012735","6610-29-3","N-Methylhydrazinecarbothioamide" +"TX101701","124-09-4","1,6-Hexanediamine" +"TX101787","111-49-9","Hexamethyleneimine" +"TX103292","122-78-1","Phenylacetaldehyde" +"TX109150","8018-01-7","Mancozeb" +"TX110870","1763-23-1","PFOS" +"TX112294","26896-20-8","Neodecanoic acid" +"TX112302","108-32-7","Propylene carbonate" +"TX112325","8018-01-7","Mancozeb" +"TX209150","8018-01-7","Mancozeb" +"TX210870","1763-23-1","PFOS" +"TX212325","8018-01-7","Mancozeb" diff --git a/inst/sql/mcdat.csv b/inst/sql/mcdat.csv index f90ebec..0a102d2 100644 --- a/inst/sql/mcdat.csv +++ b/inst/sql/mcdat.csv @@ -1,7171 +1,7171 @@ -"spid","apid","rowi","coli","wllt","wllq","conc","rval","srcf","acsn" -"TX004193","09Apr2014.Plate.12",6,6,"t",1,1.235,16.68,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",5,6,"t",1,3.704,16.53,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",6,7,"t",1,1.235,16.81,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",5,7,"t",1,3.704,14.84,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",4,6,"t",1,11.111,15.33,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",4,7,"t",1,11.111,15.01,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",3,6,"t",1,33.333,14.8,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",3,7,"t",1,33.333,14.81,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",2,6,"t",1,100,9.72,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",2,7,"t",1,100,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",7,6,"t",1,0.412,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",7,7,"t",1,0.412,12.53,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",6,6,"t",1,1.235,10.98,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",6,7,"t",1,1.235,11.84,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",5,6,"t",1,3.704,13.6,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",5,7,"t",1,3.704,14.26,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",4,6,"t",1,11.111,10.85,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",4,7,"t",1,11.111,11.74,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",3,6,"t",1,33.333,9.57,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",3,7,"t",1,33.333,10.13,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",2,6,"t",1,100,9.04,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004059","09Apr2014.Plate.28",2,7,"t",1,100,9.45,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",7,4,"t",1,0.004,13.04,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",7,5,"t",1,0.004,11,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",6,4,"t",1,0.012,13.1,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",6,5,"t",1,0.012,12.24,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",5,4,"t",1,0.037,11.35,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",5,5,"t",1,0.037,14.04,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",4,4,"t",1,0.111,12.34,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",4,5,"t",1,0.111,15.12,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",3,4,"t",1,0.333,11.78,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",3,5,"t",1,0.333,12.96,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",2,4,"t",1,1,8.81,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003893","09Apr2014.Plate.25",2,5,"t",1,1,9.92,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",7,8,"t",1,0.206,15.01,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",7,9,"t",1,0.206,16.32,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",6,8,"t",1,0.617,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",6,9,"t",1,0.617,13.61,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",5,8,"t",1,1.852,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",5,9,"t",1,1.852,11.57,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",4,8,"t",1,5.556,12.17,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",4,9,"t",1,5.556,12.02,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",3,8,"t",1,16.667,9.8,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",3,9,"t",1,16.667,8.25,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",2,8,"t",1,50,11.31,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003879","09Apr2014.Plate.16",2,9,"t",1,50,8.91,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",7,4,"t",1,0.206,15.79,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",7,5,"t",1,0.206,11.59,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",6,4,"t",1,0.617,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",6,5,"t",1,0.617,13.7,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",5,4,"t",1,1.852,15.79,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",5,5,"t",1,1.852,11.74,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",4,4,"t",1,5.556,14.16,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",4,5,"t",1,5.556,14.86,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",3,4,"t",1,16.667,9.28,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",3,5,"t",1,16.667,11.1,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",2,4,"t",1,50,6.34,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003871","09Apr2014.Plate.13",2,5,"t",1,50,5.43,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",7,6,"t",1,0.082,66.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",7,7,"t",1,0.082,67.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",6,6,"t",1,0.247,69.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",6,7,"t",1,0.247,75.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",5,6,"t",1,0.741,78.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",5,7,"t",1,0.741,82.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",4,6,"t",1,2.222,77.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",4,7,"t",1,2.222,80.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",3,6,"t",1,6.667,65.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",3,7,"t",1,6.667,68.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",2,6,"t",1,20,55.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003751","03Sep2014.Plate.6",2,7,"t",1,20,64.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",7,4,"t",1,0.082,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",7,5,"t",1,0.082,15.21,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",6,4,"t",1,0.247,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",6,5,"t",1,0.247,12.75,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",5,4,"t",1,0.741,10.18,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",5,5,"t",1,0.741,7.43,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",4,4,"t",1,2.222,4.47,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",4,5,"t",1,2.222,3.02,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",3,4,"t",1,6.667,1.49,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",3,5,"t",1,6.667,1.15,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",2,4,"t",1,20,0.57,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003572","09Apr2014.Plate.20",2,5,"t",1,20,0.67,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",7,10,"t",1,0.412,15.97,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",7,11,"t",1,0.412,12.82,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",6,10,"t",1,1.235,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",6,11,"t",1,1.235,11.13,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",5,10,"t",1,3.704,9.8,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",5,11,"t",1,3.704,7.4,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",4,10,"t",1,11.111,6.76,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",4,11,"t",1,11.111,8.05,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",3,10,"t",1,33.333,4.72,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",3,11,"t",1,33.333,4.63,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",2,10,"t",1,100,2.64,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003350","09Apr2014.Plate.23",2,11,"t",1,100,2.14,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",7,4,"t",1,0.412,15.43,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",7,5,"t",1,0.412,12.03,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",6,4,"t",1,1.235,16.34,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",6,5,"t",1,1.235,18.89,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",5,4,"t",1,3.704,17.67,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",5,5,"t",1,3.704,15.75,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",4,4,"t",1,11.111,22.45,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",4,5,"t",1,11.111,16.62,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",3,4,"t",1,33.333,22.06,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",3,5,"t",1,33.333,21.4,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",2,4,"t",1,100,22.12,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003294","09Apr2014.Plate.11",2,5,"t",1,100,19.6,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",7,4,"t",1,0.412,11.24,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",7,5,"t",1,0.412,7.51,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",6,4,"t",1,1.235,11.15,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",6,5,"t",1,1.235,10.54,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",5,4,"t",1,3.704,9.49,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",5,5,"t",1,3.704,7.54,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",4,4,"t",1,11.111,9.63,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",4,5,"t",1,11.111,7.2,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",3,4,"t",1,33.333,11.09,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",3,5,"t",1,33.333,9.07,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",2,4,"t",1,100,9.2,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003282","09Apr2014.Plate.21",2,5,"t",1,100,10.32,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",7,6,"t",1,0.412,15.11,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",7,7,"t",1,0.412,14.42,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",6,6,"t",1,1.235,16.29,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",6,7,"t",1,1.235,12.15,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",5,6,"t",1,3.704,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",5,7,"t",1,3.704,13.01,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",4,6,"t",1,11.111,14.89,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",4,7,"t",1,11.111,13.8,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",3,6,"t",1,33.333,18.84,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",3,7,"t",1,33.333,17.67,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",2,6,"t",1,100,24.39,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003240","09Apr2014.Plate.16",2,7,"t",1,100,19.55,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",7,4,"t",1,0.041,13.1,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",7,5,"t",1,0.041,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",6,4,"t",1,0.123,12.26,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",6,5,"t",1,0.123,11.68,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",5,4,"t",1,0.37,15.27,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",5,5,"t",1,0.37,15.06,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",4,4,"t",1,1.111,13.79,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",4,5,"t",1,1.111,13.35,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",3,4,"t",1,3.333,14.89,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",3,5,"t",1,3.333,14.78,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",2,4,"t",1,10,12.34,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003238","09Apr2014.Plate.34",2,5,"t",1,10,12.64,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",7,4,"t",1,0.206,16.79,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",7,5,"t",1,0.206,15.14,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",6,4,"t",1,0.617,32.71,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",6,5,"t",1,0.617,18.75,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",5,4,"t",1,1.852,13.5,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",5,5,"t",1,1.852,14.54,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",4,4,"t",1,5.556,12.53,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",4,5,"t",1,5.556,12.67,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",3,4,"t",1,16.667,15.4,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",3,5,"t",1,16.667,16.4,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",2,4,"t",1,50,15.82,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003216","09Apr2014.Plate.18",2,5,"t",1,50,17.16,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",7,10,"t",1,0.412,15.26,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",7,11,"t",1,0.412,14.22,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",6,10,"t",1,1.235,14.17,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",6,11,"t",1,1.235,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",5,10,"t",1,3.704,17.85,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",5,11,"t",1,3.704,13.28,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",4,10,"t",1,11.111,17.12,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",4,11,"t",1,11.111,12.87,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",3,10,"t",1,33.333,13.64,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",3,11,"t",1,33.333,11.49,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",2,10,"t",1,100,22.89,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003170","09Apr2014.Plate.27",2,11,"t",1,100,20.44,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",7,8,"t",1,0.412,15.79,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",7,9,"t",1,0.412,14.96,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",6,8,"t",1,1.235,13.15,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",6,9,"t",1,1.235,12.74,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",5,8,"t",1,3.704,13.65,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",5,9,"t",1,3.704,16.01,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",4,8,"t",1,11.111,15.2,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",4,9,"t",1,11.111,16,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",3,8,"t",1,33.333,13.23,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",3,9,"t",1,33.333,13.44,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",2,8,"t",1,100,15.33,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003164","09Apr2014.Plate.27",2,9,"t",1,100,17.3,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",7,4,"t",1,0.206,20.04,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",7,5,"t",1,0.206,14.64,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",6,4,"t",1,0.617,13.76,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",6,5,"t",1,0.617,12.1,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",5,4,"t",1,1.852,15.41,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",5,5,"t",1,1.852,16.98,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",4,4,"t",1,5.556,19.92,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",4,5,"t",1,5.556,13.71,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",3,4,"t",1,16.667,17.84,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",3,5,"t",1,16.667,14.82,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",2,4,"t",1,50,13.88,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX003076","09Apr2014.Plate.15",2,5,"t",1,50,13.1,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",7,4,"t",1,0.412,11.99,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",7,5,"t",1,0.412,10.82,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",6,4,"t",1,1.235,9.68,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",6,5,"t",1,1.235,10.16,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",5,4,"t",1,3.704,12.91,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",5,5,"t",1,3.704,11.49,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",4,4,"t",1,11.111,13.44,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",4,5,"t",1,11.111,9.48,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",3,4,"t",1,33.333,7.9,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",3,5,"t",1,33.333,8.12,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",2,4,"t",1,100,8.45,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002934","09Apr2014.Plate.31",2,5,"t",1,100,6.35,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",7,4,"t",1,0.412,14.77,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",7,5,"t",1,0.412,12.15,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",6,4,"t",1,1.235,12.18,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",6,5,"t",1,1.235,10.37,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",5,4,"t",1,3.704,16.39,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",5,5,"t",1,3.704,11.85,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",4,4,"t",1,11.111,15.08,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",3,4,"t",1,33.333,16.37,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",4,5,"t",1,11.111,13.68,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",3,5,"t",1,33.333,15.11,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",2,4,"t",1,100,16.64,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002910","09Apr2014.Plate.29",2,5,"t",1,100,14.66,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",7,7,"t",1,0.412,11.17,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",7,6,"t",1,0.412,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",6,6,"t",1,1.235,11.99,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",6,7,"t",1,1.235,12.4,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",5,6,"t",1,3.704,17.18,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",4,6,"t",1,11.111,15.89,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",5,7,"t",1,3.704,13.77,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",4,7,"t",1,11.111,14.01,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",3,6,"t",1,33.333,18.58,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",3,7,"t",1,33.333,22.22,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",2,7,"t",1,100,17.45,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002674","09Apr2014.Plate.29",2,6,"t",1,100,22.29,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",7,6,"t",1,0.206,16.34,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",7,7,"t",1,0.206,10.81,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",6,6,"t",1,0.617,12.76,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",5,6,"t",1,1.852,14.77,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",6,7,"t",1,0.617,13.04,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",5,7,"t",1,1.852,13.43,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",4,6,"t",1,5.556,13.71,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",4,7,"t",1,5.556,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",3,7,"t",1,16.667,11.73,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",3,6,"t",1,16.667,15.89,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",2,6,"t",1,50,16.39,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002640","09Apr2014.Plate.23",2,7,"t",1,50,16.18,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",7,6,"t",1,0.412,11.37,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",6,6,"t",1,1.235,14.07,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",7,7,"t",1,0.412,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",6,7,"t",1,1.235,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",5,6,"t",1,3.704,14.62,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",5,7,"t",1,3.704,11.71,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",4,7,"t",1,11.111,13.74,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",4,6,"t",1,11.111,11.64,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",3,6,"t",1,33.333,20.03,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",3,7,"t",1,33.333,17.71,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",2,6,"t",1,100,8.79,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",7,4,"t",1,0.412,11.56,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002436","09Apr2014.Plate.21",2,7,"t",1,100,6.62,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",7,5,"t",1,0.412,11.54,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",6,4,"t",1,1.235,11.33,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",5,4,"t",1,3.704,11.68,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",6,5,"t",1,1.235,13.71,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",5,5,"t",1,3.704,13.64,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",4,5,"t",1,11.111,12.82,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",4,4,"t",1,11.111,13.57,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",3,4,"t",1,33.333,15.96,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",3,5,"t",1,33.333,15.76,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",2,5,"t",1,100,9.29,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002330","09Apr2014.Plate.24",2,4,"t",1,100,10.58,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",7,8,"t",1,0.412,15.98,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",7,9,"t",1,0.412,15.27,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",6,8,"t",1,1.235,16.5,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",5,8,"t",1,3.704,17.29,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",6,9,"t",1,1.235,15.15,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",5,9,"t",1,3.704,14.06,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",4,8,"t",1,11.111,19.28,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",4,9,"t",1,11.111,15.14,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",3,9,"t",1,33.333,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",3,8,"t",1,33.333,21.46,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",2,8,"t",1,100,12.34,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX002231","09Apr2014.Plate.33",2,9,"t",1,100,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",7,11,"t",1,0.082,58.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",7,10,"t",1,0.082,64.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",6,10,"t",1,0.247,64.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",6,11,"t",1,0.247,69.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",5,11,"t",1,0.741,64.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",5,10,"t",1,0.741,69.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",4,10,"t",1,2.222,61.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",4,11,"t",1,2.222,60.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",3,10,"t",1,6.667,55.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",3,11,"t",1,6.667,61.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",2,10,"t",1,20,50.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001757","03Sep2014.Plate.2",2,11,"t",1,20,58.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",7,8,"t",1,0.206,12.69,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",7,9,"t",1,0.206,11.47,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",6,9,"t",1,0.617,10.01,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",6,8,"t",1,0.617,11.64,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",5,8,"t",1,1.852,14.12,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",5,9,"t",1,1.852,14.76,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",4,8,"t",1,5.556,12.21,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",3,8,"t",1,16.667,10.18,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",4,9,"t",1,5.556,13.13,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",3,9,"t",1,16.667,8.72,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",2,8,"t",1,50,6.08,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001689","09Apr2014.Plate.30",2,9,"t",1,50,4.88,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001595","20130320.Plate.4",7,7,"t",1,0.04,20.96,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",7,6,"t",1,0.04,16.59,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",6,6,"t",1,0.12,17.41,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",6,7,"t",1,0.12,18.43,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",5,6,"t",1,0.37,15.64,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",4,6,"t",1,1.11,14.59,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",5,7,"t",1,0.37,17.96,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",4,7,"t",1,1.11,19.78,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",3,6,"t",1,3.33,15.31,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",3,7,"t",1,3.33,18.37,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",2,7,"t",1,10,13.45,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001595","20130320.Plate.4",2,6,"t",1,10,13.03,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX001593","20130320.Plate.3",7,10,"t",1,0.04,10.98,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",7,11,"t",1,0.04,10.74,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",6,10,"t",1,0.12,10.99,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",5,10,"t",1,0.37,10.13,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",6,11,"t",1,0.12,13.51,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",5,11,"t",1,0.37,10.69,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",4,10,"t",1,1.11,5.28,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",4,11,"t",1,1.11,6.38,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",3,11,"t",1,3.33,2.97,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",3,10,"t",1,3.33,2.9,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",2,10,"t",1,10,1.48,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX001593","20130320.Plate.3",2,11,"t",1,10,1.82,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"TX0012741","03Sep2014.Plate.3",7,11,"t",1,0.082,36.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",7,10,"t",1,0.082,59.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",6,10,"t",1,0.247,65.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",6,11,"t",1,0.247,55.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",5,11,"t",1,0.741,57.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",5,10,"t",1,0.741,68.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",4,10,"t",1,2.222,64.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",4,11,"t",1,2.222,59.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",3,11,"t",1,6.667,53.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",3,10,"t",1,6.667,65.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",2,10,"t",1,20,39.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012741","03Sep2014.Plate.3",2,11,"t",1,20,36.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",7,6,"t",1,0.412,15.98,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",6,6,"t",1,1.235,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",7,7,"t",1,0.412,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",6,7,"t",1,1.235,16.5,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",5,6,"t",1,3.704,10.67,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",5,7,"t",1,3.704,11.91,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",4,7,"t",1,11.111,3.3,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",4,6,"t",1,11.111,3.44,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",3,6,"t",1,33.333,2.22,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",3,7,"t",1,33.333,2.29,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",2,6,"t",1,100,1.27,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",7,10,"t",1,0.412,14.52,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012739","09Apr2014.Plate.32",2,7,"t",1,100,1.23,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",7,11,"t",1,0.412,13.53,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",6,10,"t",1,1.235,17.35,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",6,11,"t",1,1.235,17.26,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",5,10,"t",1,3.704,14.66,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",5,11,"t",1,3.704,13.09,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",4,10,"t",1,11.111,12.67,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",4,11,"t",1,11.111,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",3,11,"t",1,33.333,13.2,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",3,10,"t",1,33.333,13.91,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",2,10,"t",1,100,8.35,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012733","09Apr2014.Plate.11",2,11,"t",1,100,8.07,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",7,7,"t",1,0.412,13.78,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",7,6,"t",1,0.412,14.55,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",6,6,"t",1,1.235,12.5,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",6,7,"t",1,1.235,11.04,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",5,6,"t",1,3.704,19.53,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",4,6,"t",1,11.111,20.16,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",5,7,"t",1,3.704,18.08,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",4,7,"t",1,11.111,17.87,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",3,6,"t",1,33.333,15.56,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",3,7,"t",1,33.333,16,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",2,7,"t",1,100,1.81,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX0012724","09Apr2014.Plate.30",2,6,"t",1,100,1.74,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",7,8,"t",1,0.206,6.4,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",7,9,"t",1,0.206,5.93,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",6,8,"t",1,0.617,8.48,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",5,8,"t",1,1.852,7.51,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",6,9,"t",1,0.617,5.76,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",5,9,"t",1,1.852,6.66,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",4,8,"t",1,5.556,8.51,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",4,9,"t",1,5.556,7.88,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",3,9,"t",1,16.667,6.25,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",3,8,"t",1,16.667,8.59,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",2,8,"t",1,50,8.66,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001184","09Apr2014.Plate.21",2,9,"t",1,50,6.56,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",7,8,"t",1,0.206,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",6,8,"t",1,0.617,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",7,9,"t",1,0.206,10.14,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",6,9,"t",1,0.617,10.33,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",5,8,"t",1,1.852,9.84,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",5,9,"t",1,1.852,8.78,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",4,9,"t",1,5.556,9.69,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",4,8,"t",1,5.556,9.93,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",3,8,"t",1,16.667,9.95,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",3,9,"t",1,16.667,9.39,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",2,8,"t",1,50,9.41,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",7,8,"t",1,0.412,12.51,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001140","09Apr2014.Plate.12",2,9,"t",1,50,12.69,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",7,9,"t",1,0.412,9.35,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",6,8,"t",1,1.235,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",6,9,"t",1,1.235,12.27,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",5,9,"t",1,3.704,9.38,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",5,8,"t",1,3.704,10.31,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",4,8,"t",1,11.111,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",4,9,"t",1,11.111,11.4,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",3,9,"t",1,33.333,7.2,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",3,8,"t",1,33.333,10.12,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",2,8,"t",1,100,1.55,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001132","09Apr2014.Plate.24",2,9,"t",1,100,1.36,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",7,10,"t",1,0.412,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",7,11,"t",1,0.412,13.8,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",6,10,"t",1,1.235,11.64,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",6,11,"t",1,1.235,12.5,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",5,11,"t",1,3.704,10.52,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",5,10,"t",1,3.704,13.02,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",4,10,"t",1,11.111,12.42,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",4,11,"t",1,11.111,11.87,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",3,10,"t",1,33.333,14.4,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",2,10,"t",1,100,11.73,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",3,11,"t",1,33.333,13.09,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001106","09Apr2014.Plate.13",2,11,"t",1,100,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",7,4,"t",1,0.082,60.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",6,4,"t",1,0.247,74.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",7,5,"t",1,0.082,60.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",6,5,"t",1,0.247,66.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",5,4,"t",1,0.741,76.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",4,4,"t",1,2.222,69.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",5,5,"t",1,0.741,82.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",4,5,"t",1,2.222,78.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",3,4,"t",1,6.667,63.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",2,4,"t",1,20,44.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",3,5,"t",1,6.667,65.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX001083","03Sep2014.Plate.6",2,5,"t",1,20,47.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX000789","20130320.Plate.6",7,8,"t",1,0.08,15.79,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",7,9,"t",1,0.08,16.97,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",6,9,"t",1,0.25,15.35,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",6,8,"t",1,0.25,13.53,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",5,8,"t",1,0.74,13.18,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",5,9,"t",1,0.74,14.96,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",4,8,"t",1,2.22,12.11,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",3,8,"t",1,6.67,10.5,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",4,9,"t",1,2.22,12.09,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",3,9,"t",1,6.67,9.97,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",2,8,"t",1,20,10.85,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"TX000789","20130320.Plate.6",2,9,"t",1,20,9.54,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"PRO","20130321.Plate.9",5,2,"m",1,3,0.62,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"PRO","20130321.Plate.9",5,3,"m",1,3,0.76,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"PRO","20130321.Plate.8",5,3,"m",1,3,0.55,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"PRO","20130321.Plate.8",5,2,"m",1,3,0.71,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"PRO","20130321.Plate.7",5,3,"m",1,3,0.66,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"PRO","20130321.Plate.6",5,3,"m",1,3,0.59,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"PRO","20130321.Plate.7",5,2,"m",1,3,0.53,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"PRO","20130321.Plate.6",5,2,"m",1,3,0.67,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"PRO","20130321.Plate.5",5,3,"m",1,3,0.5,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"PRO","20130321.Plate.5",5,2,"m",1,3,0.6,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"PRO","20130321.Plate.4",5,2,"m",1,3,0.54,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"PRO","20130321.Plate.4",5,3,"m",1,3,0.6,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"PRO","20130321.Plate.3",5,3,"m",1,3,0.66,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"PRO","20130321.Plate.3",5,2,"m",1,3,0.67,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"PRO","20130321.Plate.2",5,3,"m",1,3,0.58,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"PRO","20130321.Plate.1",5,3,"m",1,3,0.56,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"PRO","20130321.Plate.2",5,2,"m",1,3,0.61,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"PRO","20130321.Plate.1",5,2,"m",1,3,0.61,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"PRO","20130320.Plate.9",5,3,"m",1,3,0.56,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"PRO","20130320.Plate.8",5,3,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"PRO","20130320.Plate.9",5,2,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"PRO","20130320.Plate.8",5,2,"m",1,3,0.48,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"PRO","20130320.Plate.7",5,3,"m",1,3,0.6,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"PRO","20130320.Plate.7",5,2,"m",1,3,0.63,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"PRO","20130320.Plate.6",5,3,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"PRO","20130320.Plate.5",5,3,"m",1,3,0.71,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"PRO","20130320.Plate.6",5,2,"m",0,3,NA,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"PRO","20130320.Plate.5",5,2,"m",1,3,0.67,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"PRO","20130320.Plate.4",5,3,"m",1,3,0.62,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"PRO","20130320.Plate.4",5,2,"m",1,3,0.57,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"PRO","20130320.Plate.3",5,2,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"PRO","20130320.Plate.3",5,3,"m",1,3,0.59,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"PRO","20130320.Plate.2",5,3,"m",1,3,0.63,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"PRO","20130320.Plate.2",5,2,"m",1,3,0.58,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"PRO","20130320.Plate.15",5,3,"m",1,3,0.71,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"PRO","20130320.Plate.14",5,3,"m",1,3,0.66,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"PRO","20130320.Plate.15",5,2,"m",1,3,0.57,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"PRO","20130320.Plate.14",5,2,"m",1,3,0.6,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"PRO","20130320.Plate.13",5,3,"m",1,3,0.65,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"PRO","20130320.Plate.13",5,2,"m",1,3,0.65,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"PRO","20130320.Plate.12",5,2,"m",1,3,0.68,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"PRO","20130320.Plate.12",5,3,"m",1,3,0.54,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"PRO","20130320.Plate.11",5,3,"m",1,3,0.51,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"PRO","20130320.Plate.11",5,2,"m",1,3,0.59,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"PRO","20130320.Plate.10",5,3,"m",1,3,0.7,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"PRO","20130320.Plate.1",5,3,"m",1,3,0.96,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"PRO","20130320.Plate.10",5,2,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"PRO","20130320.Plate.1",5,2,"m",1,3,0.3,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"FOR","20130321.Plate.9",3,3,"p",1,10,116.71,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"FOR","20130321.Plate.9",3,2,"p",1,10,123.01,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"FOR","20130321.Plate.8",3,2,"p",1,10,123.65,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"FOR","20130321.Plate.8",3,3,"p",1,10,123.05,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"FOR","20130321.Plate.7",3,3,"p",1,10,113.89,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"FOR","20130321.Plate.7",3,2,"p",1,10,130.81,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"FOR","20130321.Plate.6",3,3,"p",1,10,112.82,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"FOR","20130321.Plate.5",3,3,"p",1,10,109.62,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"FOR","20130321.Plate.6",3,2,"p",1,10,127.9,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"FOR","20130321.Plate.5",3,2,"p",1,10,119.76,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"FOR","20130321.Plate.4",3,3,"p",1,10,121.74,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"FOR","20130321.Plate.4",3,2,"p",1,10,118.19,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"FOR","20130321.Plate.3",3,2,"p",1,10,114.86,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"FOR","20130321.Plate.3",3,3,"p",1,10,129.11,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"FOR","20130321.Plate.2",3,3,"p",1,10,129.4,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"FOR","20130321.Plate.2",3,2,"p",1,10,119.92,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"FOR","20130321.Plate.1",3,3,"p",1,10,118.75,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"FOR","20130320.Plate.9",3,3,"p",1,10,69.78,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"FOR","20130321.Plate.1",3,2,"p",1,10,108.86,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"FOR","20130320.Plate.9",3,2,"p",1,10,62.75,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"FOR","20130320.Plate.8",3,3,"p",1,10,54.98,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"FOR","20130320.Plate.8",3,2,"p",1,10,48.55,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"FOR","20130320.Plate.7",3,2,"p",1,10,49.77,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"FOR","20130320.Plate.7",3,3,"p",1,10,56.17,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"FOR","20130320.Plate.6",3,3,"p",1,10,60.24,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"FOR","20130320.Plate.6",3,2,"p",0,10,NA,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"FOR","20130320.Plate.5",3,3,"p",1,10,57.18,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"FOR","20130320.Plate.4",3,3,"p",1,10,64.5,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"FOR","20130320.Plate.5",3,2,"p",1,10,60.96,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"FOR","20130320.Plate.4",3,2,"p",1,10,63.74,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"FOR","20130320.Plate.3",3,3,"p",1,10,58.42,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"FOR","20130320.Plate.3",3,2,"p",1,10,46.75,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"FOR","20130320.Plate.2",3,2,"p",1,10,54.79,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"FOR","20130320.Plate.2",3,3,"p",1,10,62.92,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"FOR","20130320.Plate.15",3,3,"p",1,10,67.17,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"FOR","20130320.Plate.15",3,2,"p",1,10,63.9,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"FOR","20130320.Plate.14",3,3,"p",1,10,55.61,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"FOR","20130320.Plate.13",3,3,"p",1,10,58.54,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"FOR","20130320.Plate.14",3,2,"p",1,10,56.96,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"FOR","20130320.Plate.13",3,2,"p",1,10,62.19,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"FOR","20130320.Plate.12",3,3,"p",1,10,70.79,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"FOR","20130320.Plate.12",3,2,"p",1,10,58.34,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"FOR","20130320.Plate.11",3,2,"p",1,10,67.71,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"FOR","20130320.Plate.11",3,3,"p",1,10,59.54,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"FOR","20130320.Plate.10",3,3,"p",1,10,63.9,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"FOR","20130320.Plate.10",3,2,"p",1,10,62.58,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"FOR","20130320.Plate.1",3,3,"p",1,10,0.85,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"DMSO","20130321.Plate.9",7,3,"n",1,0.1,28.88,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"FOR","20130320.Plate.1",3,2,"p",1,10,14.53,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"DMSO","20130321.Plate.9",6,3,"n",1,0.1,28.09,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"DMSO","20130321.Plate.9",2,3,"n",1,0.1,24.64,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"DMSO","20130321.Plate.9",2,2,"n",1,0.1,25.94,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"DMSO","20130321.Plate.8",6,3,"n",1,0.1,29.46,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"DMSO","20130321.Plate.8",7,3,"n",1,0.1,27.63,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"DMSO","20130321.Plate.8",2,3,"n",1,0.1,26.18,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"DMSO","20130321.Plate.8",2,2,"n",1,0.1,26.54,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"DMSO","20130321.Plate.7",7,3,"n",1,0.1,28.85,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"DMSO","20130321.Plate.7",2,3,"n",1,0.1,22.72,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"DMSO","20130321.Plate.7",6,3,"n",1,0.1,23.34,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"DMSO","20130321.Plate.7",2,2,"n",1,0.1,24.53,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"DMSO","20130321.Plate.6",7,3,"n",1,0.1,27.46,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"DMSO","20130321.Plate.6",6,3,"n",1,0.1,31.19,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"DMSO","20130321.Plate.6",2,2,"n",1,0.1,24.65,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"DMSO","20130321.Plate.6",2,3,"n",1,0.1,29.51,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"DMSO","20130321.Plate.5",7,3,"n",1,0.1,27.24,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"DMSO","20130321.Plate.5",6,3,"n",1,0.1,31.3,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"DMSO","20130321.Plate.5",2,3,"n",1,0.1,23.97,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"DMSO","20130321.Plate.4",7,3,"n",1,0.1,28.88,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"DMSO","20130321.Plate.5",2,2,"n",1,0.1,23.34,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"DMSO","20130321.Plate.4",6,3,"n",1,0.1,30.19,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"DMSO","20130321.Plate.4",2,3,"n",1,0.1,27.55,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"DMSO","20130321.Plate.4",2,2,"n",1,0.1,22.09,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"DMSO","20130321.Plate.3",6,3,"n",1,0.1,28.65,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"DMSO","20130321.Plate.3",7,3,"n",1,0.1,27.35,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"DMSO","20130321.Plate.3",2,3,"n",1,0.1,28.05,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"DMSO","20130321.Plate.3",2,2,"n",1,0.1,23.75,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"DMSO","20130321.Plate.2",6,3,"n",1,0.1,26.73,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"DMSO","20130321.Plate.2",7,3,"n",1,0.1,28.73,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"DMSO","20130321.Plate.2",2,3,"n",1,0.1,29.84,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"DMSO","20130321.Plate.2",2,2,"n",1,0.1,26.74,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"DMSO","20130321.Plate.1",7,3,"n",1,0.1,30.72,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"DMSO","20130321.Plate.1",2,3,"n",1,0.1,25.41,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"DMSO","20130321.Plate.1",6,3,"n",1,0.1,31.49,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"DMSO","20130321.Plate.1",2,2,"n",1,0.1,28.75,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"DMSO","20130320.Plate.9",7,3,"n",1,0.1,12.87,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"DMSO","20130320.Plate.9",6,3,"n",1,0.1,14.04,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"DMSO","20130320.Plate.9",2,2,"n",1,0.1,10.85,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"DMSO","20130320.Plate.9",2,3,"n",1,0.1,12.4,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"DMSO","20130320.Plate.8",7,3,"n",1,0.1,11.1,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"DMSO","20130320.Plate.8",6,3,"n",1,0.1,11.53,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"DMSO","20130320.Plate.8",2,3,"n",1,0.1,14.01,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"DMSO","20130320.Plate.7",7,3,"n",1,0.1,14.21,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"DMSO","20130320.Plate.8",2,2,"n",1,0.1,11.73,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"DMSO","20130320.Plate.7",6,3,"n",1,0.1,11.32,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"DMSO","20130320.Plate.7",2,3,"n",1,0.1,13.62,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"DMSO","20130320.Plate.7",2,2,"n",1,0.1,15.08,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"DMSO","20130320.Plate.6",6,3,"n",1,0.1,12.29,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"DMSO","20130320.Plate.6",7,3,"n",1,0.1,11.01,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"DMSO","20130320.Plate.6",2,3,"n",1,0.1,13.35,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"DMSO","20130320.Plate.6",2,2,"n",0,0.1,NA,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"DMSO","20130320.Plate.5",7,3,"n",1,0.1,9.74,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"DMSO","20130320.Plate.5",2,3,"n",1,0.1,13.79,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"DMSO","20130320.Plate.5",6,3,"n",1,0.1,11.61,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"DMSO","20130320.Plate.5",2,2,"n",1,0.1,9.76,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"DMSO","20130320.Plate.4",7,3,"n",1,0.1,14.45,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"DMSO","20130320.Plate.4",6,3,"n",1,0.1,14.07,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"DMSO","20130320.Plate.4",2,2,"n",1,0.1,10.32,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"DMSO","20130320.Plate.4",2,3,"n",1,0.1,13.28,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"DMSO","20130320.Plate.3",7,3,"n",1,0.1,11.77,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"DMSO","20130320.Plate.3",6,3,"n",1,0.1,12.33,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"DMSO","20130320.Plate.3",2,3,"n",1,0.1,13.23,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"DMSO","20130320.Plate.2",7,3,"n",1,0.1,12.03,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"DMSO","20130320.Plate.3",2,2,"n",1,0.1,12.53,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"DMSO","20130320.Plate.2",6,3,"n",1,0.1,16.22,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"DMSO","20130320.Plate.2",2,3,"n",1,0.1,13.17,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"DMSO","20130320.Plate.2",2,2,"n",1,0.1,13.7,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"DMSO","20130320.Plate.15",6,3,"n",1,0.1,15.14,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"DMSO","20130320.Plate.15",7,3,"n",1,0.1,14.59,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"DMSO","20130320.Plate.15",2,3,"n",1,0.1,12.85,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"DMSO","20130320.Plate.15",2,2,"n",1,0.1,13.98,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"DMSO","20130320.Plate.14",7,3,"n",1,0.1,11.86,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"DMSO","20130320.Plate.14",2,3,"n",1,0.1,13.32,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"DMSO","20130320.Plate.14",6,3,"n",1,0.1,12.94,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"DMSO","20130320.Plate.14",2,2,"n",1,0.1,11.25,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"DMSO","20130320.Plate.13",7,3,"n",1,0.1,14.67,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"DMSO","20130320.Plate.13",6,3,"n",1,0.1,13.81,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"DMSO","20130320.Plate.13",2,2,"n",1,0.1,13.67,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"DMSO","20130320.Plate.13",2,3,"n",1,0.1,13.15,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"DMSO","20130320.Plate.12",7,3,"n",1,0.1,12.07,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"DMSO","20130320.Plate.12",6,3,"n",1,0.1,15.26,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"DMSO","20130320.Plate.12",2,2,"n",1,0.1,13.66,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"DMSO","20130320.Plate.12",2,3,"n",1,0.1,15.03,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"DMSO","20130320.Plate.11",7,3,"n",1,0.1,11.72,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"DMSO","20130320.Plate.11",6,3,"n",1,0.1,13.94,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"DMSO","20130320.Plate.11",2,2,"n",1,0.1,14.33,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"DMSO","20130320.Plate.11",2,3,"n",1,0.1,13.1,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"DMSO","20130320.Plate.10",7,3,"n",1,0.1,12.64,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"DMSO","20130320.Plate.10",6,3,"n",1,0.1,13,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"DMSO","20130320.Plate.10",2,3,"n",1,0.1,14.83,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"DMSO","20130320.Plate.1",7,3,"n",1,0.1,0.76,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"DMSO","20130320.Plate.10",2,2,"n",1,0.1,14.39,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"DMSO","20130320.Plate.1",6,3,"n",1,0.1,0.94,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"DMSO","20130320.Plate.1",2,3,"n",1,0.1,0.81,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"DMSO","20130320.Plate.1",2,2,"n",1,0.1,3.86,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF20128140","26Mar2014.Plate.7",7,5,"t",1,0.041,7.34,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",7,4,"t",1,0.041,10.32,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",6,4,"t",1,0.123,8.41,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",6,5,"t",1,0.123,8.36,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",5,4,"t",1,0.37,8.14,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",4,4,"t",1,1.111,7.28,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",5,5,"t",1,0.37,6.96,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",4,5,"t",1,1.111,5.34,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",3,4,"t",1,3.333,4.59,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",3,5,"t",1,3.333,3.6,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",2,5,"t",1,10,2.19,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF20128140","26Mar2014.Plate.7",2,4,"t",1,10,3.12,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",7,8,"t",1,0.041,9.41,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",7,9,"t",1,0.041,8.87,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",6,8,"t",1,0.123,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",5,8,"t",1,0.37,9.68,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",6,9,"t",1,0.123,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",5,9,"t",1,0.37,8.91,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",4,8,"t",1,1.111,10.4,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",4,9,"t",1,1.111,7.63,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",3,9,"t",1,3.333,9.6,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",3,8,"t",1,3.333,9.58,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",2,8,"t",1,10,9.29,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128353","26Mar2014.Plate.6",2,9,"t",1,10,7.74,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",7,6,"t",1,0.041,12.48,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",6,6,"t",1,0.123,10.41,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",7,7,"t",0,0.041,NA,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",6,7,"t",1,0.123,7.41,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",5,6,"t",1,0.37,8.52,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",5,7,"t",1,0.37,7.05,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",4,7,"t",1,1.111,6.3,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",4,6,"t",1,1.111,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",3,6,"t",1,3.333,6.03,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",3,7,"t",1,3.333,4.65,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",2,7,"t",1,10,3.25,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF10128140","26Mar2014.Plate.6",2,6,"t",1,10,3.23,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",7,4,"t",1,0.412,8.39,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",7,5,"t",1,0.412,8.11,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",6,4,"t",1,1.235,6.82,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",6,5,"t",1,1.235,7.95,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",5,4,"t",1,3.704,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",5,5,"t",1,3.704,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",4,5,"t",1,11.111,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",4,4,"t",1,11.111,11.27,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",3,4,"t",1,33.333,10.01,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",3,5,"t",1,33.333,9.46,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131808","26Mar2014.Plate.8",2,4,"t",1,100,13.18,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131807","20130320.Plate.5",7,10,"t",1,0.41,16.62,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131808","26Mar2014.Plate.8",2,5,"t",1,100,12.18,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00131807","20130320.Plate.5",7,11,"t",1,0.41,17.12,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",6,10,"t",1,1.23,15.4,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",6,11,"t",1,1.23,18.94,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",5,11,"t",1,3.7,17.53,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",5,10,"t",1,3.7,13.72,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",4,10,"t",1,11.11,12.85,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",4,11,"t",1,11.11,14.18,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",3,10,"t",1,33.33,8.83,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",2,10,"t",1,100,4.3,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",3,11,"t",1,33.33,10.34,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131807","20130320.Plate.5",2,11,"t",1,100,5.85,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00131806","26Mar2014.Plate.3",7,6,"t",1,0.412,8.33,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",7,7,"t",1,0.412,7.94,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",6,7,"t",1,1.235,6.58,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",6,6,"t",1,1.235,7.49,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",5,6,"t",1,3.704,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",5,7,"t",1,3.704,6.58,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",4,6,"t",1,11.111,7.59,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",3,6,"t",1,33.333,8.24,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",4,7,"t",1,11.111,7.16,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",3,7,"t",1,33.333,8.11,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",2,6,"t",1,100,8.93,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131806","26Mar2014.Plate.3",2,7,"t",1,100,7.11,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00131805","20130321.Plate.5",7,5,"t",1,0.003,27.78,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",7,4,"t",1,0.003,24.76,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",6,4,"t",1,0.01,28.49,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",6,5,"t",1,0.01,26.69,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",5,4,"t",1,0.04,25.66,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",4,4,"t",1,0.11,25.88,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",5,5,"t",1,0.04,28.26,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",4,5,"t",1,0.11,23.28,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",3,4,"t",1,0.33,21.62,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",3,5,"t",1,0.33,26.93,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",2,5,"t",1,1.001,22.05,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00131805","20130321.Plate.5",2,4,"t",1,1.001,20.97,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128356","26Mar2014.Plate.5",7,6,"t",1,0.041,9.1,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",7,7,"t",1,0.041,11.25,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",6,6,"t",1,0.123,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",5,6,"t",1,0.37,9.26,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",6,7,"t",1,0.123,10.8,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",5,7,"t",1,0.37,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",4,6,"t",1,1.111,7.14,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",3,6,"t",1,3.333,5.06,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",4,7,"t",1,1.111,7.83,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",3,7,"t",1,3.333,4.61,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",2,6,"t",1,10,2.41,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128356","26Mar2014.Plate.5",2,7,"t",1,10,1.54,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128355","20130320.Plate.7",7,7,"t",1,0.41,14.27,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",7,6,"t",1,0.41,15.92,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",6,6,"t",1,1.23,13.97,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",6,7,"t",1,1.23,14.93,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",5,6,"t",1,3.7,13.96,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",4,6,"t",1,11.11,16.05,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",5,7,"t",1,3.7,16.14,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",4,7,"t",1,11.11,16.06,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",3,6,"t",1,33.33,13.61,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",3,7,"t",1,33.33,11.03,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",2,7,"t",1,100,11.8,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128355","20130320.Plate.7",2,6,"t",1,100,10.92,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",7,8,"t",1,0.04,30.15,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",7,9,"t",1,0.04,26.57,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",6,8,"t",1,0.12,27.33,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",5,8,"t",1,0.37,23.15,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",6,9,"t",1,0.12,26.16,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",5,9,"t",1,0.37,19.91,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",4,8,"t",1,1.11,30.68,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",4,9,"t",1,1.11,31.71,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",3,9,"t",1,3.33,28.96,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",3,8,"t",1,3.33,32.27,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",2,8,"t",1,10,29.81,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128353","20130321.Plate.7",2,9,"t",1,10,28.62,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128349","20130320.Plate.14",7,10,"t",1,0.41,15.13,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",6,10,"t",1,1.23,20.36,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",7,11,"t",1,0.41,14.37,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",6,11,"t",1,1.23,18.76,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",5,10,"t",1,3.7,26.34,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",5,11,"t",1,3.7,20.67,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",4,11,"t",1,11.11,19.67,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",4,10,"t",1,11.11,19.09,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",3,10,"t",1,33.33,19.71,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",3,11,"t",1,33.33,21.82,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128349","20130320.Plate.14",2,10,"t",1,100,18.6,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128346","20130321.Plate.6",7,8,"t",1,0.41,30.21,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128349","20130320.Plate.14",2,11,"t",1,100,21.02,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128346","20130321.Plate.6",7,9,"t",1,0.41,27.92,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",6,8,"t",1,1.23,27.34,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",6,9,"t",1,1.23,28.43,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",5,9,"t",1,3.7,26.5,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",5,8,"t",1,3.7,23.9,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",4,8,"t",1,11.11,29.84,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",4,9,"t",1,11.11,25.89,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",3,8,"t",1,33.33,25.53,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",2,8,"t",1,100,23.15,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",3,9,"t",1,33.33,26.81,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128346","20130321.Plate.6",2,9,"t",1,100,21.03,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128344","20130320.Plate.12",7,10,"t",1,0.41,15.61,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",6,10,"t",1,1.23,14.62,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",7,11,"t",1,0.41,15.5,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",6,11,"t",1,1.23,17.31,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",5,10,"t",1,3.7,18.32,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",4,10,"t",1,11.11,18.69,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",5,11,"t",1,3.7,16.93,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",4,11,"t",1,11.11,21.25,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",3,10,"t",1,33.33,23.27,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",2,10,"t",1,100,22.46,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",3,11,"t",1,33.33,26.09,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128344","20130320.Plate.12",2,11,"t",1,100,28.07,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128340","20130321.Plate.9",7,6,"t",1,0.41,24.55,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",6,6,"t",1,1.23,27.14,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",7,7,"t",1,0.41,28.98,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",6,7,"t",1,1.23,27.14,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",5,6,"t",1,3.7,27.87,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",4,6,"t",1,11.11,29.22,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",5,7,"t",1,3.7,26.63,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",4,7,"t",1,11.11,29.42,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",3,6,"t",1,33.33,28.14,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",3,7,"t",1,33.33,28.49,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",2,7,"t",1,100,33.09,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128340","20130321.Plate.9",2,6,"t",1,100,31.61,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",7,10,"t",1,0.21,13.89,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",7,11,"t",1,0.21,15.5,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",6,10,"t",1,0.62,14.73,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",5,10,"t",1,1.85,14.81,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",6,11,"t",1,0.62,15.02,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",5,11,"t",1,1.85,17.65,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",4,10,"t",1,5.56,13.2,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",4,11,"t",1,5.56,15.01,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",3,11,"t",1,16.67,21.81,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",3,10,"t",1,16.67,16.14,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",2,10,"t",1,50,15.75,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128332","20130320.Plate.9",2,11,"t",1,50,20.61,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128330","20130320.Plate.7",7,10,"t",1,0.04,12.87,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",6,10,"t",1,0.12,17.08,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",7,11,"t",1,0.04,17.52,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",6,11,"t",1,0.12,14.19,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",5,10,"t",1,0.37,15,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",5,11,"t",1,0.37,15.12,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",4,11,"t",1,1.11,16.66,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",4,10,"t",1,1.11,21.91,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",3,10,"t",1,3.33,20.35,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",3,11,"t",1,3.33,16.34,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128330","20130320.Plate.7",2,10,"t",1,10,13.82,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128329","26Mar2014.Plate.4",7,10,"t",1,0.412,9.29,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128330","20130320.Plate.7",2,11,"t",1,10,19.89,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128329","26Mar2014.Plate.4",7,11,"t",1,0.412,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",6,10,"t",1,1.235,9.24,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",5,10,"t",1,3.704,7.69,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",6,11,"t",1,1.235,9.47,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",5,11,"t",1,3.704,6.81,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",4,11,"t",1,11.111,7.04,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",4,10,"t",1,11.111,8.8,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",3,10,"t",1,33.333,9.2,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",3,11,"t",1,33.333,6.85,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",2,10,"t",1,100,10.27,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",7,4,"t",1,0.004,10.07,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128329","26Mar2014.Plate.4",2,11,"t",1,100,7.34,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",7,5,"t",1,0.004,9.8,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",6,4,"t",1,0.012,7.89,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",6,5,"t",1,0.012,9.99,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",5,5,"t",1,0.037,8.03,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",5,4,"t",1,0.037,8.97,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",4,4,"t",1,0.111,7.54,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",4,5,"t",1,0.111,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",3,4,"t",1,0.333,7.71,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",2,4,"t",1,1,4.23,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",3,5,"t",1,0.333,5.98,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128324","26Mar2014.Plate.6",2,5,"t",1,1,4.37,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128322","20130320.Plate.8",7,10,"t",1,0.41,12.99,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",7,11,"t",1,0.41,15.54,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",6,11,"t",1,1.23,19.83,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",6,10,"t",1,1.23,18.49,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",5,10,"t",1,3.7,15.77,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",5,11,"t",1,3.7,16.11,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",4,10,"t",1,11.11,12.91,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",3,10,"t",1,33.33,16.83,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",4,11,"t",1,11.11,15.06,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",3,11,"t",1,33.33,15.44,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",2,10,"t",1,100,11.38,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128322","20130320.Plate.8",2,11,"t",1,100,10.3,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128318","26Mar2014.Plate.5",7,5,"t",1,0.412,10.05,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",7,4,"t",1,0.412,8.36,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",6,4,"t",1,1.235,9.49,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",6,5,"t",1,1.235,8.63,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",5,4,"t",1,3.704,8.22,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",4,4,"t",1,11.111,6.79,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",5,5,"t",1,3.704,8.25,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",4,5,"t",1,11.111,8.63,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",3,4,"t",1,33.333,8.46,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",3,5,"t",1,33.333,9.09,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",2,5,"t",1,100,12.09,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128318","26Mar2014.Plate.5",2,4,"t",1,100,8.58,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128313","20130320.Plate.12",7,6,"t",1,0.41,19.74,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",7,7,"t",1,0.41,20.21,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",6,6,"t",1,1.23,17.55,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",5,6,"t",1,3.7,26.46,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",6,7,"t",1,1.23,21.75,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",5,7,"t",1,3.7,24.18,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",4,6,"t",1,11.11,26.93,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",4,7,"t",1,11.11,23.26,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",3,7,"t",1,33.33,24.98,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",3,6,"t",1,33.33,28.95,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",2,6,"t",1,100,21.07,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128313","20130320.Plate.12",2,7,"t",1,100,21.8,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128312","20130320.Plate.14",7,4,"t",1,0.41,17.09,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",6,4,"t",1,1.23,17.4,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",7,5,"t",1,0.41,16.95,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",6,5,"t",1,1.23,21.09,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",5,4,"t",1,3.7,16.56,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",5,5,"t",1,3.7,16.67,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",4,5,"t",1,11.11,14.11,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",4,4,"t",1,11.11,16.19,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",3,4,"t",1,33.33,15.15,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",3,5,"t",1,33.33,15.74,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128312","20130320.Plate.14",2,4,"t",1,100,15.29,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128306","20130320.Plate.9",7,4,"t",1,0.41,18.87,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128312","20130320.Plate.14",2,5,"t",1,100,15.71,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128306","20130320.Plate.9",7,5,"t",1,0.41,15.79,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",6,4,"t",1,1.23,16.8,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",6,5,"t",1,1.23,13.66,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",5,5,"t",1,3.7,16.92,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",5,4,"t",1,3.7,17.5,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",4,4,"t",1,11.11,15.79,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",4,5,"t",1,11.11,14.87,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",3,4,"t",1,33.33,23.85,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",2,4,"t",1,100,20.4,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",3,5,"t",1,33.33,22,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128306","20130320.Plate.9",2,5,"t",1,100,22.11,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128303","20130320.Plate.4",7,8,"t",1,0.41,18.83,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",7,9,"t",1,0.41,17.66,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",6,8,"t",1,1.23,19.6,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",5,8,"t",1,3.7,17.67,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",6,9,"t",1,1.23,18.81,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",5,9,"t",1,3.7,15.8,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",4,8,"t",1,11.11,18.1,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",4,9,"t",1,11.11,19.08,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",3,9,"t",1,33.33,16.84,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",3,8,"t",1,33.33,18.09,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",2,8,"t",1,100,15.25,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128303","20130320.Plate.4",2,9,"t",1,100,14.86,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128302","20130321.Plate.9",7,4,"t",1,0.41,26.07,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",6,4,"t",1,1.23,24.78,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",7,5,"t",1,0.41,26.24,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",6,5,"t",1,1.23,27.45,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",5,4,"t",1,3.7,33.04,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",5,5,"t",1,3.7,31.62,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",4,5,"t",1,11.11,33.53,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",4,4,"t",1,11.11,37.21,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",3,4,"t",1,33.33,27.36,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",3,5,"t",1,33.33,26.1,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128302","20130321.Plate.9",2,4,"t",1,100,3.16,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128301","20130320.Plate.10",7,10,"t",1,0.04,14.48,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128302","20130321.Plate.9",2,5,"t",1,100,1.45,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128301","20130320.Plate.10",7,11,"t",1,0.04,16.55,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",6,10,"t",1,0.12,16.24,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",6,11,"t",1,0.12,15.39,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",5,11,"t",1,0.37,14.98,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",5,10,"t",1,0.37,13.72,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",4,10,"t",1,1.11,15.21,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",4,11,"t",1,1.11,15.32,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",3,10,"t",1,3.33,14.43,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",2,10,"t",1,10,13.13,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",3,11,"t",1,3.33,14.26,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128301","20130320.Plate.10",2,11,"t",1,10,11.61,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128300","20130321.Plate.7",7,10,"t",1,0.41,29.37,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",7,11,"t",1,0.41,28.19,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",6,11,"t",1,1.23,29.1,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",6,10,"t",1,1.23,23.85,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",5,10,"t",1,3.7,20.18,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",5,11,"t",1,3.7,23.94,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",4,10,"t",1,11.11,30.75,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",3,10,"t",1,33.33,31.77,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",4,11,"t",1,11.11,29.67,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",3,11,"t",1,33.33,28.05,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",2,10,"t",1,100,25.96,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128300","20130321.Plate.7",2,11,"t",1,100,27.58,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128299","20130320.Plate.6",7,10,"t",1,0.04,14.96,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",6,10,"t",1,0.12,12.88,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",7,11,"t",1,0.04,16.37,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",6,11,"t",1,0.12,17.4,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",5,10,"t",1,0.37,13.11,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",5,11,"t",1,0.37,13.33,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",4,11,"t",1,1.11,13.07,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",4,10,"t",1,1.11,12.69,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",3,10,"t",1,3.33,13.16,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",3,11,"t",1,3.33,12.4,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128299","20130320.Plate.6",2,10,"t",1,10,9.07,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128296","20130321.Plate.5",7,10,"t",1,0.21,30.19,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128299","20130320.Plate.6",2,11,"t",1,10,9.46,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128296","20130321.Plate.5",7,11,"t",1,0.21,26.2,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",6,10,"t",1,0.62,26.85,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",6,11,"t",1,0.62,27.31,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",5,11,"t",1,1.85,30.12,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",5,10,"t",1,1.85,28.98,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",4,10,"t",1,5.56,24.93,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",4,11,"t",1,5.56,27.37,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",3,10,"t",1,16.67,21.51,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",2,10,"t",1,50,18.76,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",3,11,"t",1,16.67,20.81,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128296","20130321.Plate.5",2,11,"t",1,50,18.65,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128295","20130320.Plate.9",7,8,"t",1,0.04,18.33,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",7,9,"t",1,0.04,15.99,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",6,9,"t",1,0.12,16.84,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",6,8,"t",1,0.12,14.2,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",5,8,"t",1,0.37,17.05,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",5,9,"t",1,0.37,15.17,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",4,9,"t",1,1.11,14.76,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",4,8,"t",1,1.11,13.55,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",3,8,"t",1,3.33,13.58,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",3,9,"t",1,3.33,11.94,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",2,9,"t",1,10,8.29,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128295","20130320.Plate.9",2,8,"t",1,10,11.48,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128292","26Mar2014.Plate.2",7,10,"t",1,0.041,13.69,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",7,11,"t",1,0.041,9.24,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",6,10,"t",1,0.123,7.8,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",5,10,"t",1,0.37,7.48,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",6,11,"t",1,0.123,8.82,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",5,11,"t",1,0.37,10.2,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",4,10,"t",1,1.111,8.72,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",4,11,"t",1,1.111,8.13,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",3,11,"t",1,3.333,7.49,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",3,10,"t",1,3.333,6.28,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",2,10,"t",1,10,6.07,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128292","26Mar2014.Plate.2",2,11,"t",1,10,6.26,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",7,8,"t",1,0.412,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",6,8,"t",1,1.235,9.07,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",7,9,"t",1,0.412,10.57,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",6,9,"t",1,1.235,8.72,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",5,8,"t",1,3.704,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",5,9,"t",1,3.704,8.17,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",4,9,"t",1,11.111,7.28,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",4,8,"t",1,11.111,7.17,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",3,8,"t",1,33.333,5.77,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",3,9,"t",1,33.333,6.04,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128291","26Mar2014.Plate.7",2,8,"t",1,100,5.17,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128286","20130320.Plate.8",7,8,"t",1,0.41,15.25,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128291","26Mar2014.Plate.7",2,9,"t",1,100,4.01,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128286","20130320.Plate.8",7,9,"t",1,0.41,15.36,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",6,8,"t",1,1.23,14.43,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",6,9,"t",1,1.23,13.84,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",5,9,"t",1,3.7,14.16,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",5,8,"t",1,3.7,13.01,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",4,8,"t",1,11.11,9.8,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",4,9,"t",1,11.11,11.08,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",3,8,"t",1,33.33,9.01,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",2,8,"t",1,100,7.39,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",3,9,"t",1,33.33,8.18,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128286","20130320.Plate.8",2,9,"t",1,100,7.59,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128285","20130320.Plate.15",7,8,"t",1,0.41,18.24,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",7,9,"t",1,0.41,16.7,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",6,9,"t",1,1.23,21.04,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",6,8,"t",1,1.23,18.05,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",5,8,"t",1,3.7,16.6,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",5,9,"t",1,3.7,16.13,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",4,8,"t",1,11.11,15.13,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",3,8,"t",1,33.33,15.76,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",4,9,"t",1,11.11,15.46,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",3,9,"t",1,33.33,14.13,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",2,8,"t",1,100,14.47,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128285","20130320.Plate.15",2,9,"t",1,100,13.38,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",7,7,"t",1,0.41,16.76,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",7,6,"t",1,0.41,16.51,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",6,6,"t",1,1.23,15.31,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",6,7,"t",1,1.23,19.01,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",5,6,"t",1,3.7,18.58,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",4,6,"t",1,11.11,14.91,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",5,7,"t",1,3.7,17.26,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",4,7,"t",1,11.11,15.21,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",3,6,"t",1,33.33,14.91,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",3,7,"t",1,33.33,16.11,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",2,7,"t",1,100,12.95,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128283","20130320.Plate.15",2,6,"t",1,100,12.7,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128282","20130320.Plate.6",7,4,"t",1,0.41,14.33,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",7,5,"t",1,0.41,13.59,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",6,4,"t",1,1.23,15.3,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",5,4,"t",1,3.7,11.72,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",6,5,"t",1,1.23,13.97,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",5,5,"t",1,3.7,14.36,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",4,4,"t",1,11.11,14.76,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",4,5,"t",1,11.11,16.56,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",3,5,"t",1,33.33,14.09,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",3,4,"t",1,33.33,12.23,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",2,4,"t",1,100,9.86,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128282","20130320.Plate.6",2,5,"t",1,100,7.32,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128281","20130321.Plate.3",7,4,"t",1,0.41,27.7,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",6,4,"t",1,1.23,27.9,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",7,5,"t",1,0.41,26.46,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",6,5,"t",1,1.23,29.23,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",5,4,"t",1,3.7,27.59,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",5,5,"t",1,3.7,28.47,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",4,5,"t",1,11.11,30.11,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",4,4,"t",1,11.11,32.29,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",3,4,"t",1,33.33,24.31,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",3,5,"t",1,33.33,21.03,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128281","20130321.Plate.3",2,4,"t",1,100,10.91,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128279","20130321.Plate.2",7,6,"t",1,0.41,31.04,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128281","20130321.Plate.3",2,5,"t",1,100,10.94,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128279","20130321.Plate.2",7,7,"t",1,0.41,28.81,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",6,6,"t",1,1.23,27.88,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",6,7,"t",1,1.23,29.35,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",5,7,"t",1,3.7,29.14,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",5,6,"t",1,3.7,28.42,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",4,6,"t",1,11.11,24.59,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",4,7,"t",1,11.11,30.11,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",3,6,"t",1,33.33,25.4,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",2,6,"t",1,100,21.26,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",3,7,"t",1,33.33,29.62,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128279","20130321.Plate.2",2,7,"t",1,100,22.48,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128278","26Mar2014.Plate.5",7,10,"t",1,0.041,9.6,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",7,11,"t",1,0.041,10.54,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",6,11,"t",1,0.123,9.49,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",6,10,"t",1,0.123,8.55,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",5,10,"t",1,0.37,16.9,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",5,11,"t",1,0.37,13.62,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",4,10,"t",1,1.111,16.65,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",3,10,"t",1,3.333,16.22,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",4,11,"t",1,1.111,14.4,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",3,11,"t",1,3.333,14.47,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",2,11,"t",1,10,9.34,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128278","26Mar2014.Plate.5",2,10,"t",1,10,8.57,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",7,10,"t",1,0.412,11.28,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",7,11,"t",1,0.412,12.96,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",6,10,"t",1,1.235,11.64,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",5,10,"t",1,3.704,11.76,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",6,11,"t",1,1.235,8.29,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",5,11,"t",1,3.704,9.59,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",4,10,"t",1,11.111,12.94,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",4,11,"t",1,11.111,13.03,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",3,11,"t",1,33.333,12.49,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",3,10,"t",1,33.333,13.88,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",2,10,"t",1,100,17.08,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128274","26Mar2014.Plate.1",2,11,"t",1,100,13.06,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",7,10,"t",1,0.041,12.62,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",6,10,"t",1,0.123,11.01,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",7,11,"t",1,0.041,9.61,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",6,11,"t",1,0.123,8.77,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",5,10,"t",1,0.37,10.63,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",5,11,"t",1,0.37,10.49,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",4,11,"t",1,1.111,9.2,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",4,10,"t",1,1.111,10.65,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",3,10,"t",1,3.333,12.97,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",3,11,"t",1,3.333,11.94,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128273","26Mar2014.Plate.7",2,10,"t",1,10,10.36,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128272","20130321.Plate.7",7,4,"t",1,0.41,29.54,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128273","26Mar2014.Plate.7",2,11,"t",1,10,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128272","20130321.Plate.7",7,5,"t",1,0.41,24.96,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",6,4,"t",1,1.23,25.19,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",6,5,"t",1,1.23,29.18,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",5,5,"t",1,3.7,22.99,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",5,4,"t",1,3.7,21.56,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",4,4,"t",1,11.11,32,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",4,5,"t",1,11.11,30.22,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",3,4,"t",1,33.33,31.61,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",3,5,"t",1,33.33,28.18,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",2,4,"t",1,100,28.98,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128272","20130321.Plate.7",2,5,"t",1,100,28.86,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128271","20130320.Plate.13",7,4,"t",1,0.41,16.15,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",7,5,"t",1,0.41,16.93,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",6,4,"t",1,1.23,17.13,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",6,5,"t",1,1.23,18,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",5,4,"t",1,3.7,18.3,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",5,5,"t",1,3.7,16.78,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",4,4,"t",1,11.11,15.3,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",3,4,"t",1,33.33,15.68,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",4,5,"t",1,11.11,15.45,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",3,5,"t",1,33.33,14.73,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",2,4,"t",1,100,15.6,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128271","20130320.Plate.13",2,5,"t",1,100,14.52,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128270","26Mar2014.Plate.2",7,9,"t",1,0.041,9.14,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",7,8,"t",1,0.041,10.34,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",6,8,"t",1,0.123,7.59,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",5,8,"t",1,0.37,8.8,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",6,9,"t",1,0.123,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",5,9,"t",1,0.37,8.2,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",4,8,"t",1,1.111,6.68,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",4,9,"t",1,1.111,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",3,9,"t",1,3.333,7.68,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",3,8,"t",1,3.333,5.85,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",2,8,"t",1,10,10.68,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128270","26Mar2014.Plate.2",2,9,"t",1,10,8.65,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128268","20130320.Plate.9",7,6,"t",1,0.003,14.82,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",7,7,"t",1,0.003,16.69,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",6,6,"t",1,0.01,12.38,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",6,7,"t",1,0.01,11.41,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",5,6,"t",1,0.04,16.55,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",5,7,"t",1,0.04,16.21,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",4,6,"t",1,0.11,7.88,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",4,7,"t",1,0.11,10.04,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",3,6,"t",1,0.33,7.53,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",3,7,"t",1,0.33,6.68,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128268","20130320.Plate.9",2,6,"t",1,1,2.72,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128266","20130321.Plate.2",7,8,"t",1,0.41,27.1,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128268","20130320.Plate.9",2,7,"t",1,1,2.71,"ToxCast_1 CR 20130320 Plate 9.csv","cort" -"BF00128266","20130321.Plate.2",7,9,"t",1,0.41,24.65,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",6,8,"t",1,1.23,28.25,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",6,9,"t",1,1.23,25.14,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",5,8,"t",1,3.7,26.87,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",5,9,"t",1,3.7,27.28,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",4,8,"t",1,11.11,26.2,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",4,9,"t",1,11.11,25.39,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",3,8,"t",1,33.33,27.53,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",3,9,"t",1,33.33,24.43,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",2,8,"t",1,100,24.51,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128266","20130321.Plate.2",2,9,"t",1,100,19.24,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128264","20130321.Plate.3",7,10,"t",1,0.41,30.24,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",7,11,"t",1,0.41,26.98,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",6,11,"t",1,1.23,28.03,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",6,10,"t",1,1.23,30.98,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",5,10,"t",1,3.7,30.03,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",5,11,"t",1,3.7,28.79,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",4,10,"t",1,11.11,29.68,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",3,10,"t",1,33.33,28.63,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",4,11,"t",1,11.11,27.11,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",3,11,"t",1,33.33,25.09,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",2,10,"t",1,100,24.92,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128264","20130321.Plate.3",2,11,"t",1,100,25.19,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128263","20130321.Plate.4",7,7,"t",1,0.41,29.09,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",7,6,"t",1,0.41,27.12,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",6,6,"t",1,1.23,28.89,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",6,7,"t",1,1.23,28.56,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",5,6,"t",1,3.7,28.12,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",4,6,"t",1,11.11,29.21,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",5,7,"t",1,3.7,28.78,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",4,7,"t",1,11.11,29.42,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",3,6,"t",1,33.33,32.43,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",3,7,"t",1,33.33,31.02,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",2,7,"t",1,100,33.27,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128263","20130321.Plate.4",2,6,"t",1,100,36.28,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128259","20130320.Plate.12",7,4,"t",1,0.04,15.19,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",7,5,"t",1,0.04,14.37,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",6,4,"t",1,0.12,19.55,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",5,4,"t",1,0.37,23.86,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",6,5,"t",1,0.12,14.08,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",5,5,"t",1,0.37,19.41,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",4,4,"t",1,1.11,23.08,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",4,5,"t",1,1.11,21.08,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",3,4,"t",1,3.33,16.61,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",3,5,"t",1,3.33,16.37,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",2,4,"t",1,10,14.6,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128259","20130320.Plate.12",2,5,"t",1,10,10.22,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128257","26Mar2014.Plate.7",7,6,"t",1,0.412,10.56,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",7,7,"t",1,0.412,8.72,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",6,6,"t",1,1.235,12.02,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",6,7,"t",1,1.235,13.18,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",5,6,"t",1,3.704,13.77,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",5,7,"t",1,3.704,13.27,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",4,6,"t",1,11.111,8.67,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",4,7,"t",1,11.111,6.94,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",3,6,"t",1,33.333,5.36,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",3,7,"t",1,33.333,5.23,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",2,6,"t",1,100,4.73,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128257","26Mar2014.Plate.7",2,7,"t",1,100,3.81,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"BF00128256","26Mar2014.Plate.1",7,4,"t",1,0.41,12.67,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","26Mar2014.Plate.1",7,5,"t",1,0.41,12.39,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","20130320.Plate.1",7,10,"t",1,0.41,12.64,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","20130320.Plate.1",7,11,"t",1,0.41,15.4,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","26Mar2014.Plate.1",6,4,"t",1,1.23,6.14,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","26Mar2014.Plate.1",6,5,"t",1,1.23,8.9,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","20130320.Plate.1",6,10,"t",1,1.23,14.26,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","20130320.Plate.1",6,11,"t",1,1.23,15.27,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","26Mar2014.Plate.1",5,4,"t",1,3.7,8.53,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","26Mar2014.Plate.1",5,5,"t",1,3.7,12.86,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","20130320.Plate.1",5,10,"t",1,3.7,16.35,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","20130320.Plate.1",5,11,"t",1,3.7,23.06,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","26Mar2014.Plate.1",4,4,"t",1,11.11,11.66,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","26Mar2014.Plate.1",4,5,"t",1,11.11,15.05,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","20130320.Plate.1",4,10,"t",1,11.11,21.69,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","20130320.Plate.1",4,11,"t",1,11.11,17.71,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","26Mar2014.Plate.1",3,4,"t",1,33.33,12.84,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","26Mar2014.Plate.1",3,5,"t",1,33.33,15.83,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","20130320.Plate.1",3,10,"t",1,33.33,14.93,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","20130320.Plate.1",3,11,"t",1,33.33,13.56,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","26Mar2014.Plate.1",2,4,"t",1,100,9.79,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","26Mar2014.Plate.1",2,5,"t",1,100,11.41,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128256","20130320.Plate.1",2,10,"t",1,100,9.71,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128256","20130320.Plate.1",2,11,"t",1,100,12.22,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128251","26Mar2014.Plate.4",7,4,"t",1,0.004,12.89,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",7,5,"t",1,0.004,10.76,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",6,4,"t",1,0.012,9.05,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",5,4,"t",1,0.037,8.06,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",6,5,"t",1,0.012,10.12,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",5,5,"t",1,0.037,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",4,4,"t",1,0.111,8.4,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",4,5,"t",1,0.111,8.12,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",3,4,"t",1,0.333,11.76,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",3,5,"t",1,0.333,8.32,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",2,4,"t",1,1,11.91,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128251","26Mar2014.Plate.4",2,5,"t",1,1,8.44,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128247","20130320.Plate.5",7,8,"t",1,0.41,19.04,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",7,9,"t",1,0.41,14.82,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",6,8,"t",1,1.23,19.79,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",6,9,"t",1,1.23,15.09,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",5,8,"t",1,3.7,16.03,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",5,9,"t",1,3.7,16.18,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",4,8,"t",1,11.11,22.1,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",4,9,"t",1,11.11,20.22,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",3,8,"t",1,33.33,19.11,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",3,9,"t",1,33.33,15.44,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",2,8,"t",1,100,13.74,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128247","20130320.Plate.5",2,9,"t",1,100,13.66,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128246","20130320.Plate.15",7,4,"t",1,0.41,21.38,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",7,5,"t",1,0.41,17.16,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",6,4,"t",1,1.23,23.18,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",6,5,"t",1,1.23,24.4,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",5,4,"t",1,3.7,28.05,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",5,5,"t",1,3.7,20.89,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",4,4,"t",1,11.11,22,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",3,4,"t",1,33.33,19.01,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",4,5,"t",1,11.11,28.71,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",3,5,"t",1,33.33,24.36,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",2,4,"t",1,100,51.19,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128246","20130320.Plate.15",2,5,"t",1,100,29.99,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128244","20130321.Plate.8",7,7,"t",1,0.41,27.59,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",7,6,"t",1,0.41,26.48,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",6,6,"t",1,1.23,27.23,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",6,7,"t",1,1.23,31.57,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",5,6,"t",1,3.7,27.03,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",4,6,"t",1,11.11,28.7,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",5,7,"t",1,3.7,29.29,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",4,7,"t",1,11.11,30.03,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",3,6,"t",1,33.33,30.02,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",3,7,"t",1,33.33,31.36,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",2,6,"t",1,100,27.92,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128244","20130321.Plate.8",2,7,"t",1,100,35.22,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128241","20130320.Plate.11",7,4,"t",1,0.04,15.41,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",7,5,"t",1,0.04,20.31,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",6,4,"t",1,0.12,14.37,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",6,5,"t",1,0.12,17.13,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",5,4,"t",1,0.37,13,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",5,5,"t",1,0.37,19.18,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",4,4,"t",1,1.11,14.62,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",4,5,"t",1,1.11,18.46,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",3,4,"t",1,3.33,13.45,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",2,4,"t",1,10,12.76,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",3,5,"t",1,3.33,16.33,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128241","20130320.Plate.11",2,5,"t",1,10,12.43,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128240","20130321.Plate.2",7,10,"t",1,0.41,28.16,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",7,11,"t",1,0.41,30.25,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",6,10,"t",1,1.23,26.11,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",6,11,"t",1,1.23,29.51,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",5,10,"t",1,3.7,30.51,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",5,11,"t",1,3.7,31.38,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",4,10,"t",1,11.11,27.22,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",4,11,"t",1,11.11,29.14,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",3,10,"t",1,33.33,29.87,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",3,11,"t",1,33.33,29.28,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",2,10,"t",1,100,24.63,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128240","20130321.Plate.2",2,11,"t",1,100,29.64,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128238","20130321.Plate.3",7,6,"t",1,0.41,28.74,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",7,7,"t",1,0.41,36.11,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",6,6,"t",1,1.23,32.84,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",6,7,"t",1,1.23,35.18,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",5,6,"t",1,3.7,38.91,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",5,7,"t",1,3.7,39.87,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",4,6,"t",1,11.11,30.38,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",4,7,"t",1,11.11,32.86,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",3,6,"t",1,33.33,23.84,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",3,7,"t",1,33.33,26.34,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",2,6,"t",1,100,24.25,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128238","20130321.Plate.3",2,7,"t",1,100,21.4,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128235","20130321.Plate.4",7,8,"t",1,0.003,32.91,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",7,9,"t",1,0.003,27.85,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",6,8,"t",1,0.01,35.05,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",6,9,"t",1,0.01,34.62,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",5,8,"t",1,0.04,30.04,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",5,9,"t",1,0.04,26.06,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",4,8,"t",1,0.11,17.54,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",4,9,"t",1,0.11,16.44,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",3,8,"t",1,0.33,6.12,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",3,9,"t",1,0.33,4.66,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",2,8,"t",1,1,1.28,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128235","20130321.Plate.4",2,9,"t",1,1,1.44,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128233","20130321.Plate.8",7,4,"t",1,0.41,31.28,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",7,5,"t",1,0.41,25.61,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",6,4,"t",1,1.23,33.72,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",6,5,"t",1,1.23,28.6,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",5,4,"t",1,3.7,27.84,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",5,5,"t",1,3.7,31.04,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",4,4,"t",1,11.11,28.45,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",4,5,"t",1,11.11,29.87,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",3,4,"t",1,33.33,27.65,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",3,5,"t",1,33.33,26.01,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",2,4,"t",1,100,29.6,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128233","20130321.Plate.8",2,5,"t",1,100,25.12,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128232","20130321.Plate.9",7,11,"t",1,0.41,27.25,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",7,10,"t",1,0.41,30.01,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",6,10,"t",1,1.23,29.69,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",6,11,"t",1,1.23,25.55,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",5,10,"t",1,3.7,28,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",4,10,"t",1,11.11,27.42,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",5,11,"t",1,3.7,28.56,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",4,11,"t",1,11.11,26.42,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",3,10,"t",1,33.33,27.95,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",3,11,"t",1,33.33,26.7,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",2,11,"t",1,100,26.01,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128232","20130321.Plate.9",2,10,"t",1,100,25.85,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128228","20130320.Plate.5",7,6,"t",1,0.41,12.48,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",7,7,"t",1,0.41,15.92,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",6,6,"t",1,1.23,15.06,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",5,6,"t",1,3.7,11.53,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",6,7,"t",1,1.23,16.18,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",5,7,"t",1,3.7,12.91,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",4,6,"t",1,11.11,13.57,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",4,7,"t",1,11.11,12.43,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",3,6,"t",1,33.33,10.41,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",3,7,"t",1,33.33,11.11,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",2,6,"t",1,100,7.7,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128228","20130320.Plate.5",2,7,"t",1,100,10.37,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128225","26Mar2014.Plate.3",7,8,"t",1,0.004,8.9,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",7,9,"t",1,0.004,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",6,8,"t",1,0.012,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",6,9,"t",1,0.012,6.87,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",5,8,"t",1,0.037,8.86,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",5,9,"t",1,0.037,7.8,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",4,8,"t",1,0.111,8.84,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",4,9,"t",1,0.111,7.74,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",3,8,"t",1,0.333,5.54,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",3,9,"t",1,0.333,6.17,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",2,8,"t",1,1,2.54,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128225","26Mar2014.Plate.3",2,9,"t",1,1,2.23,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128224","20130320.Plate.10",7,4,"t",1,0.41,17.71,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",7,5,"t",1,0.41,12.14,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",6,4,"t",1,1.23,14.33,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",6,5,"t",1,1.23,15.09,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",5,4,"t",1,3.7,14.63,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",5,5,"t",1,3.7,12.38,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",4,4,"t",1,11.11,18.75,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",4,5,"t",1,11.11,14.5,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",3,4,"t",1,33.33,14.88,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",3,5,"t",1,33.33,13.45,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",2,4,"t",1,100,13.11,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128224","20130320.Plate.10",2,5,"t",1,100,12.71,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128220","20130320.Plate.6",7,6,"t",1,0.41,3.77,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",7,7,"t",1,0.41,4.3,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",6,6,"t",1,1.23,2.11,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",6,7,"t",1,1.23,1.98,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",5,7,"t",1,3.7,1.49,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",5,6,"t",1,3.7,2.23,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",4,6,"t",1,11.11,0.75,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",4,7,"t",1,11.11,0.85,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",3,6,"t",1,33.33,0.53,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",2,6,"t",1,100,1.1,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",3,7,"t",1,33.33,0.67,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128220","20130320.Plate.6",2,7,"t",1,100,0.76,"ToxCast_1 CR 20130320 Plate 6.csv","cort" -"BF00128218","20130321.Plate.8",7,10,"t",1,0.04,25.38,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",7,11,"t",1,0.04,24.89,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",6,10,"t",1,0.12,24.15,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",6,11,"t",1,0.12,28.42,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",5,10,"t",1,0.37,27.68,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",5,11,"t",1,0.37,27.16,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",4,10,"t",1,1.11,29.27,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",4,11,"t",1,1.11,24.84,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",3,10,"t",1,3.33,22.82,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",3,11,"t",1,3.33,24.66,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",2,10,"t",1,10,19.2,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128218","20130321.Plate.8",2,11,"t",1,10,19.94,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128215","26Mar2014.Plate.2",7,4,"t",1,0.041,8.34,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",7,5,"t",1,0.041,6.54,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",6,4,"t",1,0.123,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",6,5,"t",1,0.123,7.02,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",5,4,"t",1,0.37,8.06,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",5,5,"t",1,0.37,7.36,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",4,4,"t",1,1.111,4.95,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",4,5,"t",1,1.111,4.92,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",3,4,"t",1,3.333,4.52,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",3,5,"t",1,3.333,4.37,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",2,4,"t",1,10,1.69,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128215","26Mar2014.Plate.2",2,5,"t",1,10,1.65,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128211","20130320.Plate.10",7,8,"t",1,0.003,16.75,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",7,9,"t",1,0.003,18.58,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",6,8,"t",1,0.01,16.83,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",6,9,"t",1,0.01,16.59,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",5,8,"t",1,0.04,16.42,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",5,9,"t",1,0.04,19,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",4,8,"t",1,0.11,16.2,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",4,9,"t",1,0.11,18.06,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",3,8,"t",1,0.33,16.29,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",3,9,"t",1,0.33,16.08,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",2,8,"t",1,1,15.29,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128211","20130320.Plate.10",2,9,"t",1,1,16.7,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128208","20130320.Plate.2",7,4,"t",1,0.41,17.9,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",7,5,"t",1,0.41,14.41,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",6,4,"t",1,1.23,18.07,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",6,5,"t",1,1.23,15.09,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",5,4,"t",1,3.7,21.86,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",4,4,"t",1,11.11,16.75,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",5,5,"t",1,3.7,17.1,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",4,5,"t",1,11.11,16.24,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",3,4,"t",1,33.33,19.5,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",2,4,"t",1,100,18.94,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",3,5,"t",1,33.33,16.57,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128208","20130320.Plate.2",2,5,"t",1,100,18.45,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128201","26Mar2014.Plate.4",7,6,"t",1,0.412,9.11,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",7,7,"t",1,0.412,9.73,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",6,6,"t",1,1.235,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",5,6,"t",1,3.704,8.85,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",6,7,"t",1,1.235,10.5,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",5,7,"t",1,3.704,8.33,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",4,6,"t",1,11.111,8.21,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",3,6,"t",1,33.333,10.24,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",4,7,"t",1,11.111,10.47,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",3,7,"t",1,33.333,7.96,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",2,6,"t",1,100,6.77,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128201","26Mar2014.Plate.4",2,7,"t",1,100,6.53,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128200","20130321.Plate.6",7,5,"t",1,0.08,27.75,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",7,4,"t",1,0.08,26.79,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",6,4,"t",1,0.25,32.34,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",6,5,"t",1,0.25,31.49,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",5,4,"t",1,0.74,30.56,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",5,5,"t",1,0.74,26.85,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",4,4,"t",1,2.23,37.49,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",4,5,"t",1,2.23,31.77,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",3,4,"t",1,6.7,45.49,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",3,5,"t",1,6.7,43.79,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",2,4,"t",1,20.1,49.64,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128200","20130321.Plate.6",2,5,"t",1,20.1,46.27,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128197","20130320.Plate.7",7,4,"t",1,0.04,15.07,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",7,5,"t",1,0.04,16,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",6,4,"t",1,0.12,13.4,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",6,5,"t",1,0.12,13.82,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",5,4,"t",1,0.37,16.59,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",5,5,"t",1,0.37,17.07,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",4,4,"t",1,1.11,17.83,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",4,5,"t",1,1.11,16.48,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",3,4,"t",1,3.33,15.01,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",3,5,"t",1,3.33,14.27,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",2,4,"t",1,10,23.15,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128197","20130320.Plate.7",2,5,"t",1,10,26.62,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128196","20130320.Plate.8",7,6,"t",1,0.41,13.68,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",7,7,"t",1,0.41,14.85,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",6,6,"t",1,1.23,13.36,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",6,7,"t",1,1.23,15.67,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",5,6,"t",1,3.7,10.43,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",5,7,"t",1,3.7,12.59,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",4,6,"t",1,11.11,9.4,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",4,7,"t",1,11.11,8.54,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",3,6,"t",1,33.33,7.86,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",3,7,"t",1,33.33,7.31,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",2,6,"t",1,100,3.65,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128196","20130320.Plate.8",2,7,"t",1,100,3.22,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128195","20130320.Plate.7",7,8,"t",1,0.003,16.29,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",6,8,"t",1,0.01,11.02,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",7,9,"t",1,0.003,17.4,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",6,9,"t",1,0.01,11.43,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",5,8,"t",1,0.04,7.67,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",5,9,"t",1,0.04,6.67,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",4,9,"t",1,0.11,3.94,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",4,8,"t",1,0.11,4.12,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",3,8,"t",1,0.33,1.54,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",3,9,"t",1,0.33,1.68,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",2,8,"t",1,1,0.87,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128195","20130320.Plate.7",2,9,"t",1,1,0.97,"ToxCast_1 CR 20130320 Plate 7.csv","cort" -"BF00128194","20130321.Plate.5",7,6,"t",1,0.04,24.92,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",7,7,"t",1,0.04,29.26,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",6,6,"t",1,0.12,26.14,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",6,7,"t",1,0.12,28.74,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",5,6,"t",1,0.37,25.62,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",5,7,"t",1,0.37,28.47,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",4,6,"t",1,1.11,25.99,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",4,7,"t",1,1.11,28.1,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",3,6,"t",1,3.33,24.26,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",3,7,"t",1,3.33,25.94,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",2,6,"t",1,10,24.13,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128194","20130321.Plate.5",2,7,"t",1,10,25.39,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128192","20130321.Plate.6",7,10,"t",1,0.003,28.73,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",7,11,"t",1,0.003,25,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",6,10,"t",1,0.01,28.94,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",6,11,"t",1,0.01,30.62,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",5,10,"t",1,0.04,26.64,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",5,11,"t",1,0.04,26.79,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",4,10,"t",1,0.11,27.74,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",4,11,"t",1,0.11,30.95,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",3,10,"t",1,0.33,23.84,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",3,11,"t",1,0.33,21.88,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",2,10,"t",1,1,15.38,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128192","20130321.Plate.6",2,11,"t",1,1,16.41,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128190","20130320.Plate.15",7,10,"t",1,0.41,16.24,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",7,11,"t",1,0.41,17.49,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",6,10,"t",1,1.23,19.36,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",6,11,"t",1,1.23,20.12,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",5,10,"t",1,3.7,16.69,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",5,11,"t",1,3.7,18.61,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",4,10,"t",1,11.11,18.64,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",4,11,"t",1,11.11,18.74,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",3,10,"t",1,33.33,18.63,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",3,11,"t",1,33.33,16.38,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",2,10,"t",1,100,13.66,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128190","20130320.Plate.15",2,11,"t",1,100,13.38,"ToxCast_1 CR 20130320 Plate 15.csv","cort" -"BF00128187","20130320.Plate.11",7,8,"t",1,0.41,17.55,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",7,9,"t",1,0.41,17.2,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",6,8,"t",1,1.23,17.08,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",6,9,"t",1,1.23,20.16,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",5,8,"t",1,3.7,18.8,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",5,9,"t",1,3.7,18.03,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",4,9,"t",1,11.11,13.18,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",4,8,"t",1,11.11,13.36,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",3,8,"t",1,33.33,7.04,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",3,9,"t",1,33.33,7.01,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",2,9,"t",1,100,3.17,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128187","20130320.Plate.11",2,8,"t",1,100,3.55,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128182","20130320.Plate.10",7,6,"t",1,0.41,15.77,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",7,7,"t",1,0.41,17.48,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",6,6,"t",1,1.23,16.07,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",5,6,"t",1,3.7,16.73,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",6,7,"t",1,1.23,16.71,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",5,7,"t",1,3.7,20.51,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",4,6,"t",1,11.11,19.72,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",3,6,"t",1,33.33,21.12,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",4,7,"t",1,11.11,19.98,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",3,7,"t",1,33.33,19.94,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",2,6,"t",1,100,14.43,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128182","20130320.Plate.10",2,7,"t",1,100,20.16,"ToxCast_1 CR 20130320 Plate 10.csv","cort" -"BF00128179","26Mar2014.Plate.3",7,10,"t",1,0.412,10.05,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",7,11,"t",1,0.412,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",6,10,"t",1,1.235,7.79,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",5,10,"t",1,3.704,8.56,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",6,11,"t",1,1.235,7.2,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",5,11,"t",1,3.704,7.29,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",4,10,"t",1,11.111,8.13,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",3,10,"t",1,33.333,4.52,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",4,11,"t",1,11.111,9.01,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",3,11,"t",1,33.333,4.43,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",2,10,"t",1,100,3.95,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128179","26Mar2014.Plate.3",2,11,"t",1,100,4.08,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"BF00128178","20130320.Plate.13",7,11,"t",1,0.41,17.1,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",7,10,"t",1,0.41,14.45,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",6,10,"t",1,1.23,16.39,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",6,11,"t",1,1.23,18.5,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",5,10,"t",1,3.7,19.43,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",4,10,"t",1,11.11,19.26,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",5,11,"t",1,3.7,18.74,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",4,11,"t",1,11.11,16.22,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",3,10,"t",1,33.33,16.1,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",3,11,"t",1,33.33,14.14,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",2,11,"t",1,100,17.28,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128178","20130320.Plate.13",2,10,"t",1,100,20.27,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128176","20130321.Plate.4",7,4,"t",1,0.41,29.64,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",7,5,"t",1,0.41,25.46,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",6,4,"t",1,1.23,29.34,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",5,4,"t",1,3.7,26.92,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",6,5,"t",1,1.23,26.81,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",5,5,"t",1,3.7,26.87,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",4,4,"t",1,11.11,29.34,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",4,5,"t",1,11.11,30.8,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",3,5,"t",1,33.33,30.59,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",3,4,"t",1,33.33,33.87,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",2,4,"t",1,100,36.39,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128176","20130321.Plate.4",2,5,"t",1,100,31.59,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128175","20130320.Plate.3",7,8,"t",1,0.41,12.4,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",6,8,"t",1,1.23,11.83,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",7,9,"t",1,0.41,10.65,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",6,9,"t",1,1.23,11.04,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",5,8,"t",1,3.7,14.52,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",5,9,"t",1,3.7,14.2,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",4,9,"t",1,11.11,10.59,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",4,8,"t",1,11.11,11.43,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",3,8,"t",1,33.33,10.78,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",3,9,"t",1,33.33,7.85,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128175","20130320.Plate.3",2,8,"t",1,100,5.4,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128172","26Mar2014.Plate.1",7,6,"t",1,0.41,10.6,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128175","20130320.Plate.3",2,9,"t",1,100,3.78,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128172","26Mar2014.Plate.1",7,7,"t",1,0.41,8.54,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","20130320.Plate.1",7,8,"t",1,0.41,13.11,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","20130320.Plate.1",7,9,"t",1,0.41,13.62,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","26Mar2014.Plate.1",6,7,"t",1,1.23,7.2,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","26Mar2014.Plate.1",6,6,"t",1,1.23,8.7,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","20130320.Plate.1",6,8,"t",1,1.23,18.83,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","20130320.Plate.1",6,9,"t",1,1.23,16.6,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","26Mar2014.Plate.1",5,6,"t",1,3.7,11.49,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","26Mar2014.Plate.1",5,7,"t",1,3.7,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","20130320.Plate.1",5,8,"t",1,3.7,21.22,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","20130320.Plate.1",5,9,"t",1,3.7,17.79,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","26Mar2014.Plate.1",4,6,"t",1,11.11,12.8,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","26Mar2014.Plate.1",4,7,"t",1,11.11,11.06,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","20130320.Plate.1",4,8,"t",1,11.11,20.09,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","20130320.Plate.1",4,9,"t",1,11.11,19.36,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","26Mar2014.Plate.1",3,6,"t",1,33.33,12.12,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","26Mar2014.Plate.1",3,7,"t",1,33.33,15,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","20130320.Plate.1",3,8,"t",1,33.33,18.12,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","20130320.Plate.1",3,9,"t",1,33.33,17.45,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","26Mar2014.Plate.1",2,6,"t",1,100,15.08,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","26Mar2014.Plate.1",2,7,"t",1,100,16.36,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128172","20130320.Plate.1",2,8,"t",1,100,18.65,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128172","20130320.Plate.1",2,9,"t",1,100,19.95,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"BF00128171","20130320.Plate.12",7,8,"t",1,0.04,17.34,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",7,9,"t",1,0.04,15.93,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",6,8,"t",1,0.12,17.56,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",6,9,"t",1,0.12,19.42,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",5,8,"t",1,0.37,17.27,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",5,9,"t",1,0.37,17.28,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",4,8,"t",1,1.11,17.7,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",4,9,"t",1,1.11,18.62,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",3,8,"t",1,3.33,16.92,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",3,9,"t",1,3.33,19.33,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",2,8,"t",1,10,15.89,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128171","20130320.Plate.12",2,9,"t",1,10,17.08,"ToxCast_1 CR 20130320 Plate 12.csv","cort" -"BF00128169","26Mar2014.Plate.1",7,8,"t",1,0.041,7.53,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",7,9,"t",1,0.041,11.59,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",6,8,"t",1,0.123,9.69,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",5,8,"t",1,0.37,8.01,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",6,9,"t",1,0.123,8.55,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",5,9,"t",1,0.37,10.53,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",4,8,"t",1,1.111,7.58,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",3,8,"t",1,3.333,6.33,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",4,9,"t",1,1.111,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",3,9,"t",1,3.333,8.62,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",2,8,"t",1,10,3.32,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128169","26Mar2014.Plate.1",2,9,"t",1,10,3.12,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"BF00128147","20130321.Plate.9",7,8,"t",1,0.41,20.1,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",7,9,"t",1,0.41,20.7,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",6,8,"t",1,1.23,19.19,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",6,9,"t",1,1.23,19.99,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",5,8,"t",1,3.7,18.96,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",5,9,"t",1,3.7,15.32,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",4,8,"t",1,11.11,19.09,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",4,9,"t",1,11.11,17.71,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",3,8,"t",1,33.33,20.69,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",3,9,"t",1,33.33,16.86,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",2,8,"t",1,100,17.82,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128147","20130321.Plate.9",2,9,"t",1,100,16.58,"ToxCast_1 CR 20130321 Plate 9.csv","cort" -"BF00128146","26Mar2014.Plate.8",7,8,"t",1,0.004,10.75,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",7,9,"t",1,0.004,9.64,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",6,8,"t",1,0.012,10.01,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",6,9,"t",1,0.012,8.83,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",5,8,"t",1,0.037,11.13,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",5,9,"t",1,0.037,11.59,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",4,8,"t",1,0.111,10.76,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",4,9,"t",1,0.111,10.25,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",3,8,"t",1,0.333,11.23,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",3,9,"t",1,0.333,11.23,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",2,8,"t",1,1,10.98,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128146","26Mar2014.Plate.8",2,9,"t",1,1,11.33,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128145","20130321.Plate.1",7,10,"t",1,0.41,28.24,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",7,11,"t",1,0.41,28.18,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",6,10,"t",1,1.23,28.32,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",6,11,"t",1,1.23,27.85,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",5,10,"t",1,3.7,26.61,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",5,11,"t",1,3.7,22.85,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",4,10,"t",1,11.11,27.34,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",4,11,"t",1,11.11,26.21,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",3,10,"t",1,33.33,28.01,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",3,11,"t",1,33.33,28.88,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",2,11,"t",1,100,27.2,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128145","20130321.Plate.1",2,10,"t",1,100,31.19,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128144","26Mar2014.Plate.5",7,8,"t",1,0.412,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",7,9,"t",1,0.412,8.56,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",6,8,"t",1,1.235,8.33,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",5,8,"t",1,3.704,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",6,9,"t",1,1.235,8.02,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",5,9,"t",1,3.704,8.95,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",4,8,"t",1,11.111,9.51,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",3,8,"t",1,33.333,11.54,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",4,9,"t",1,11.111,8.66,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",3,9,"t",1,33.333,7.99,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128144","26Mar2014.Plate.5",2,8,"t",1,100,8.29,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128141","20130321.Plate.3",7,8,"t",1,0.41,29.48,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128144","26Mar2014.Plate.5",2,9,"t",1,100,9.16,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"BF00128141","20130321.Plate.3",7,9,"t",1,0.41,28.87,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",6,8,"t",1,1.23,23.28,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",6,9,"t",1,1.23,23.86,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",5,9,"t",1,3.7,20.82,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",5,8,"t",1,3.7,28.53,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",4,8,"t",1,11.11,22.7,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",4,9,"t",1,11.11,22.09,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",3,8,"t",1,33.33,18.64,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",2,8,"t",1,100,14.94,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",3,9,"t",1,33.33,17.48,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128141","20130321.Plate.3",2,9,"t",1,100,14.27,"ToxCast_1 CR 20130321 Plate 3.csv","cort" -"BF00128140","20130321.Plate.4",7,10,"t",1,0.04,29.15,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",7,11,"t",1,0.04,29.84,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",6,10,"t",1,0.12,26.96,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",6,11,"t",1,0.12,26.76,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",5,10,"t",1,0.37,25.77,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",5,11,"t",1,0.37,27.92,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",4,10,"t",1,1.11,20.6,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",4,11,"t",1,1.11,22.86,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",3,10,"t",1,3.33,13.49,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",3,11,"t",1,3.33,12.49,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",2,10,"t",1,10,7.04,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128140","20130321.Plate.4",2,11,"t",1,10,7.26,"ToxCast_1 CR 20130321 Plate 4.csv","cort" -"BF00128139","20130321.Plate.6",7,6,"t",1,0.41,26.55,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",7,7,"t",1,0.41,30.32,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",6,6,"t",1,1.23,28.75,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",6,7,"t",1,1.23,31.37,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",5,6,"t",1,3.7,30.16,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",5,7,"t",1,3.7,30.55,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",4,6,"t",1,11.11,30.54,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",4,7,"t",1,11.11,31.66,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",3,6,"t",1,33.33,30.48,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",3,7,"t",1,33.33,31.6,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",2,6,"t",1,100,31.26,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128139","20130321.Plate.6",2,7,"t",1,100,34.29,"ToxCast_1 CR 20130321 Plate 6.csv","cort" -"BF00128136","20130321.Plate.5",7,8,"t",1,0.41,28.45,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",7,9,"t",1,0.41,26.6,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",6,8,"t",1,1.23,26.91,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",6,9,"t",1,1.23,24.38,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",5,8,"t",1,3.7,28.51,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",5,9,"t",1,3.7,27.25,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",4,8,"t",1,11.11,26.67,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",4,9,"t",1,11.11,29.39,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",3,8,"t",1,33.33,33.17,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",3,9,"t",1,33.33,35.39,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",2,8,"t",1,100,34.01,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128136","20130321.Plate.5",2,9,"t",1,100,33.35,"ToxCast_1 CR 20130321 Plate 5.csv","cort" -"BF00128133","20130321.Plate.1",7,4,"t",1,0.41,30.02,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",6,4,"t",1,1.23,26.38,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",7,5,"t",1,0.41,28.73,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",6,5,"t",1,1.23,27.63,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",5,4,"t",1,3.7,28.97,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",5,5,"t",1,3.7,28.48,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",4,5,"t",1,11.11,27.63,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",4,4,"t",1,11.11,27.99,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",3,4,"t",1,33.33,29,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",3,5,"t",1,33.33,26.74,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",2,4,"t",1,100,30.21,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128133","20130321.Plate.1",2,5,"t",1,100,30.74,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128132","20130320.Plate.8",7,4,"t",1,0.41,17.72,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",7,5,"t",1,0.41,15.01,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",6,4,"t",1,1.23,18.76,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",6,5,"t",1,1.23,15.38,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",5,4,"t",1,3.7,14.36,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",5,5,"t",1,3.7,12.83,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",4,4,"t",1,11.11,11.24,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",4,5,"t",1,11.11,11.6,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",3,4,"t",1,33.33,8.5,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",3,5,"t",1,33.33,7.56,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",2,4,"t",1,100,7.59,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128132","20130320.Plate.8",2,5,"t",1,100,7.32,"ToxCast_1 CR 20130320 Plate 8.csv","cort" -"BF00128129","20130320.Plate.3",7,4,"t",1,0.04,14.73,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",6,4,"t",1,0.12,14.55,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",7,5,"t",1,0.04,12.87,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",6,5,"t",1,0.12,12.66,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",5,4,"t",1,0.37,15.24,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",5,5,"t",1,0.37,11.34,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",4,5,"t",1,1.11,13.87,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",4,4,"t",1,1.11,15.24,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",3,4,"t",1,3.33,13.93,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",3,5,"t",1,3.33,11.94,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128129","20130320.Plate.3",2,4,"t",1,10,13.61,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128121","20130320.Plate.2",7,6,"t",1,0.41,15.99,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128129","20130320.Plate.3",2,5,"t",1,10,12.69,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128121","20130320.Plate.2",7,7,"t",1,0.41,15.06,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",6,6,"t",1,1.23,16.21,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",6,7,"t",1,1.23,16.18,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",5,7,"t",1,3.7,16.37,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",5,6,"t",1,3.7,16.12,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",4,6,"t",1,11.11,15.31,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",4,7,"t",1,11.11,18.64,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",3,6,"t",1,33.33,16.85,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",2,6,"t",1,100,15.41,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",3,7,"t",1,33.33,13.41,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128121","20130320.Plate.2",2,7,"t",1,100,19.12,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",7,8,"t",1,0.41,20.29,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",7,9,"t",1,0.41,15.63,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",6,9,"t",1,1.23,14.62,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",6,8,"t",1,1.23,18.54,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",5,8,"t",1,3.7,18.1,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",5,9,"t",1,3.7,14.81,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",4,8,"t",1,11.11,13.4,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",3,8,"t",1,33.33,13.93,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",4,9,"t",1,11.11,16.54,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",3,9,"t",1,33.33,14.74,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",2,8,"t",1,100,15.86,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128119","20130320.Plate.2",2,9,"t",1,100,12.48,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128116","20130321.Plate.8",7,9,"t",1,0.41,25.65,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",7,8,"t",1,0.41,26.23,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",6,8,"t",1,1.23,28.07,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",6,9,"t",1,1.23,26.97,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",5,8,"t",1,3.7,28.56,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",5,9,"t",1,3.7,28.78,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",4,8,"t",1,11.11,27.71,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",4,9,"t",1,11.11,23.87,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",3,8,"t",1,33.33,25.62,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",3,9,"t",1,33.33,28.43,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",2,8,"t",1,100,29.48,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128116","20130321.Plate.8",2,9,"t",1,100,29.45,"ToxCast_1 CR 20130321 Plate 8.csv","cort" -"BF00128112","20130320.Plate.11",7,6,"t",1,0.41,14.15,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",7,7,"t",1,0.41,15.57,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",6,6,"t",1,1.23,15.17,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",6,7,"t",1,1.23,17.26,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",5,6,"t",1,3.7,10.78,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",5,7,"t",1,3.7,10.07,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",4,6,"t",1,11.11,6.59,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",4,7,"t",1,11.11,6.2,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",3,6,"t",1,33.33,1.77,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",3,7,"t",1,33.33,1.45,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",2,6,"t",1,100,0.63,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128112","20130320.Plate.11",2,7,"t",1,100,0.68,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128109","20130320.Plate.13",7,8,"t",1,0.41,18.19,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",7,9,"t",1,0.41,18.22,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",6,8,"t",1,1.23,19.41,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",6,9,"t",1,1.23,16.24,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",5,8,"t",1,3.7,20.2,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",5,9,"t",1,3.7,18.97,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",4,8,"t",1,11.11,18.48,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",4,9,"t",1,11.11,18.85,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",3,8,"t",1,33.33,18.03,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",3,9,"t",1,33.33,15.24,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",2,8,"t",1,100,16.51,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128109","20130320.Plate.13",2,9,"t",1,100,17.87,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128108","26Mar2014.Plate.2",7,6,"t",1,0.041,10.49,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",7,7,"t",1,0.041,9.92,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",6,6,"t",1,0.123,10.26,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",6,7,"t",1,0.123,9.14,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",5,6,"t",1,0.37,9.49,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",5,7,"t",1,0.37,10.68,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",4,6,"t",1,1.111,8.89,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",4,7,"t",1,1.111,8.32,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",3,6,"t",1,3.333,9.78,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",3,7,"t",1,3.333,7.73,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",2,6,"t",1,10,5.52,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128108","26Mar2014.Plate.2",2,7,"t",1,10,4.08,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"BF00128105","20130320.Plate.13",7,6,"t",1,0.41,18.86,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",7,7,"t",1,0.41,18.5,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",6,6,"t",1,1.23,19.81,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",6,7,"t",1,1.23,19.89,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",5,7,"t",1,3.7,18.19,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",5,6,"t",1,3.7,16.77,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",4,6,"t",1,11.11,16.23,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",4,7,"t",1,11.11,18.06,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",3,6,"t",1,33.33,16.73,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",2,6,"t",1,100,13.61,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",3,7,"t",1,33.33,18.75,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128105","20130320.Plate.13",2,7,"t",1,100,11.04,"ToxCast_1 CR 20130320 Plate 13.csv","cort" -"BF00128102","20130321.Plate.2",7,4,"t",1,0.04,29.05,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",7,5,"t",1,0.04,29.2,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",6,4,"t",1,0.12,28.14,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",6,5,"t",1,0.12,27.06,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",5,4,"t",1,0.37,27.66,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",5,5,"t",1,0.37,26.61,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",4,5,"t",1,1.11,24.38,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",4,4,"t",1,1.11,28.38,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",3,4,"t",1,3.33,23.81,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",3,5,"t",1,3.33,24.29,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",2,4,"t",1,10,28.8,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128102","20130321.Plate.2",2,5,"t",1,10,30.22,"ToxCast_1 CR 20130321 Plate 2.csv","cort" -"BF00128101","20130321.Plate.1",7,6,"t",1,0.04,28.15,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",7,7,"t",1,0.04,27.22,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",6,6,"t",1,0.12,28.97,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",6,7,"t",1,0.12,32.11,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",5,6,"t",1,0.37,27.92,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",5,7,"t",1,0.37,26.94,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",4,6,"t",1,1.11,28.3,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",4,7,"t",1,1.11,29.6,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",3,6,"t",1,3.33,32.22,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",3,7,"t",1,3.33,30.87,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",2,6,"t",1,10,33.5,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128101","20130321.Plate.1",2,7,"t",1,10,30.28,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128099","20130320.Plate.14",7,8,"t",1,0.41,18.25,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",7,9,"t",1,0.41,15.4,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",6,8,"t",1,1.23,21.58,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",6,9,"t",1,1.23,16.66,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",5,8,"t",1,3.7,17.25,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",5,9,"t",1,3.7,16.62,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",4,8,"t",1,11.11,16.5,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",4,9,"t",1,11.11,14.62,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",3,8,"t",1,33.33,17.65,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",3,9,"t",1,33.33,15.9,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",2,8,"t",1,100,17.2,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128099","20130320.Plate.14",2,9,"t",1,100,16.43,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128097","20130321.Plate.7",7,7,"t",1,0.41,22.55,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",7,6,"t",1,0.41,22.26,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",6,6,"t",1,1.23,18.31,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",6,7,"t",1,1.23,20.4,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",5,6,"t",1,3.7,11.43,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",4,6,"t",1,11.11,8.15,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",5,7,"t",1,3.7,12.15,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",4,7,"t",1,11.11,8.77,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",3,6,"t",1,33.33,3.91,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",3,7,"t",1,33.33,3.91,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",2,7,"t",1,100,1.64,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128097","20130321.Plate.7",2,6,"t",1,100,1.59,"ToxCast_1 CR 20130321 Plate 7.csv","cort" -"BF00128096","20130320.Plate.5",7,4,"t",1,0.04,15.74,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",7,5,"t",1,0.04,13.83,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",6,5,"t",1,0.12,15.63,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",6,4,"t",1,0.12,14.84,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",5,4,"t",1,0.37,10.89,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",5,5,"t",1,0.37,11.02,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",4,4,"t",1,1.11,9.99,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",4,5,"t",1,1.11,9.86,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",3,4,"t",1,3.33,4.92,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",3,5,"t",1,3.33,4.46,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",2,4,"t",1,10,1.71,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128096","20130320.Plate.5",2,5,"t",1,10,1.67,"ToxCast_1 CR 20130320 Plate 5.csv","cort" -"BF00128092","20130320.Plate.3",7,6,"t",1,0.04,11.13,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",7,7,"t",1,0.04,13.75,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",6,6,"t",1,0.12,12.93,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",6,7,"t",1,0.12,14.24,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",5,6,"t",1,0.37,12.46,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",5,7,"t",1,0.37,15.37,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",4,6,"t",1,1.11,11.82,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",4,7,"t",1,1.11,11.66,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",3,6,"t",1,3.33,16.1,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",3,7,"t",1,3.33,14.58,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",2,6,"t",1,10,13.72,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128092","20130320.Plate.3",2,7,"t",1,10,15.61,"ToxCast_1 CR 20130320 Plate 3.csv","cort" -"BF00128091","20130320.Plate.4",7,4,"t",1,0.41,29.54,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",7,5,"t",1,0.41,17.26,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",6,4,"t",1,1.23,24.74,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",6,5,"t",1,1.23,18.69,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",5,4,"t",1,3.7,27.37,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",5,5,"t",1,3.7,17.98,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",4,4,"t",1,11.11,23.57,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",4,5,"t",1,11.11,19.06,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",3,4,"t",1,33.33,15.47,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",3,5,"t",1,33.33,14.73,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",2,4,"t",1,100,9.19,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128091","20130320.Plate.4",2,5,"t",1,100,7.66,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"BF00128090","20130321.Plate.1",7,8,"t",1,0.003,31.33,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",7,9,"t",1,0.003,27.91,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",6,8,"t",0,0.01,NA,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",6,9,"t",1,0.01,30.67,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",5,8,"t",1,0.04,27.23,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",5,9,"t",1,0.04,25.06,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",4,8,"t",1,0.11,24.43,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",3,8,"t",1,0.33,21.04,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",4,9,"t",1,0.11,26.92,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",3,9,"t",1,0.33,23.18,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",2,8,"t",1,1,14.07,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128090","20130321.Plate.1",2,9,"t",1,1,14.94,"ToxCast_1 CR 20130321 Plate 1.csv","cort" -"BF00128087","20130320.Plate.14",7,7,"t",1,0.003,18.35,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",7,6,"t",1,0.003,18.44,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",6,6,"t",1,0.01,19.7,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",6,7,"t",1,0.01,19.56,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",5,6,"t",1,0.04,15.56,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",4,6,"t",1,0.11,17.1,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",5,7,"t",1,0.04,17.34,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",4,7,"t",1,0.11,16.97,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",3,6,"t",1,0.33,16.69,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",3,7,"t",1,0.33,12.72,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",2,6,"t",1,1,18.88,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128087","20130320.Plate.14",2,7,"t",1,1,18.01,"ToxCast_1 CR 20130320 Plate 14.csv","cort" -"BF00128086","26Mar2014.Plate.4",7,8,"t",1,0.412,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",7,9,"t",1,0.412,10.36,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",6,8,"t",1,1.235,11.12,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",6,9,"t",1,1.235,8,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",5,8,"t",1,3.704,8.06,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",5,9,"t",1,3.704,9.02,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",4,8,"t",1,11.111,6.93,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",4,9,"t",1,11.111,7.2,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",3,8,"t",1,33.333,6.38,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",3,9,"t",1,33.333,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",2,9,"t",1,100,6.71,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128086","26Mar2014.Plate.4",2,8,"t",1,100,7,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",7,6,"t",1,0.412,9.85,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",7,7,"t",1,0.412,12.22,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",6,6,"t",1,1.235,9.77,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",5,6,"t",1,3.704,9.74,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",6,7,"t",1,1.235,9.59,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",5,7,"t",1,3.704,10.32,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",4,6,"t",1,11.111,10.11,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",4,7,"t",1,11.111,7.82,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",3,7,"t",1,33.333,7.3,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",3,6,"t",1,33.333,7.83,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",2,6,"t",1,100,3.94,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128083","26Mar2014.Plate.8",2,7,"t",1,100,3.24,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",7,10,"t",1,0.041,12.18,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",6,10,"t",1,0.123,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",7,11,"t",1,0.041,7.62,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",6,11,"t",1,0.123,9.5,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",5,10,"t",1,0.37,11.18,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",5,11,"t",1,0.37,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",4,11,"t",1,1.111,7.82,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",4,10,"t",1,1.111,10.92,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",3,10,"t",1,3.333,10.66,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",3,11,"t",1,3.333,11.01,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128081","26Mar2014.Plate.6",2,10,"t",1,10,13.4,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128073","20130320.Plate.2",7,10,"t",1,0.003,8.87,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128081","26Mar2014.Plate.6",2,11,"t",1,10,10.25,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"BF00128073","20130320.Plate.2",7,11,"t",1,0.003,12.98,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",6,10,"t",1,0.01,7.84,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",6,11,"t",1,0.01,9.5,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",5,10,"t",1,0.04,5.28,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",5,11,"t",1,0.04,7.22,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",4,10,"t",1,0.11,2.93,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",3,10,"t",1,0.33,1.3,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",4,11,"t",1,0.11,3.92,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",3,11,"t",1,0.33,1.76,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",2,10,"t",1,1,0.96,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128073","20130320.Plate.2",2,11,"t",1,1,0.91,"ToxCast_1 CR 20130320 Plate 2.csv","cort" -"BF00128072","20130320.Plate.11",7,11,"t",1,0.41,14.15,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",7,10,"t",1,0.41,15.38,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",6,10,"t",1,1.23,17.76,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",6,11,"t",1,1.23,14.53,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",5,10,"t",1,3.7,15.1,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",5,11,"t",1,3.7,15.35,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",4,10,"t",1,11.11,15.36,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",4,11,"t",1,11.11,15.19,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",3,10,"t",1,33.33,15.87,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",3,11,"t",1,33.33,14.95,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",2,10,"t",1,100,15.52,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"BF00128072","20130320.Plate.11",2,11,"t",1,100,14.98,"ToxCast_1 CR 20130320 Plate 11.csv","cort" -"PRO","03Sep2014.Plate.9",3,3,"m",1,NA,1.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.9",2,3,"m",1,NA,1.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.8",3,3,"m",1,NA,1.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.8",2,3,"m",1,NA,1.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.7",3,3,"m",1,NA,1.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.7",2,3,"m",1,NA,1.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.6",2,3,"m",1,NA,1.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.6",3,3,"m",1,NA,1.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.5",3,3,"m",1,NA,1.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.5",2,3,"m",1,NA,1.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.4",3,3,"m",1,NA,1.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.3",3,3,"m",1,NA,1.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.4",2,3,"m",1,NA,1.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.3",2,3,"m",1,NA,1.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.22",3,3,"m",1,NA,1.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.22",2,3,"m",1,NA,1.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.21",2,3,"m",1,NA,1.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.21",3,3,"m",1,NA,1.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.20",3,3,"m",1,NA,1.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.20",2,3,"m",1,NA,1.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.2",3,3,"m",1,NA,1.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.2",2,3,"m",1,NA,1.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.19",3,3,"m",1,NA,1.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.19",2,3,"m",1,NA,1.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.18",3,3,"m",1,NA,1.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.18",2,3,"m",1,NA,1.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.17",3,3,"m",1,NA,1.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.17",2,3,"m",1,NA,1.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.16",3,3,"m",1,NA,1.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.16",2,3,"m",1,NA,1.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.15",3,3,"m",1,NA,1.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.15",2,3,"m",1,NA,1.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.14",3,3,"m",1,NA,1.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.14",2,3,"m",1,NA,1.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.13",3,3,"m",1,NA,1.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.13",2,3,"m",1,NA,1.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.12",3,3,"m",1,NA,1.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.12",2,3,"m",1,NA,1.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.11",3,3,"m",1,NA,1.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.11",2,3,"m",1,NA,1.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.10",3,3,"m",1,NA,1.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.10",2,3,"m",1,NA,1.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.1",2,3,"m",1,NA,1.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"PRO","03Sep2014.Plate.1",3,3,"m",1,NA,1.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.9",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.9",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.8",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.8",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.7",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.7",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.6",3,3,"m",1,NA,0.54,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.6",2,3,"m",1,NA,0.62,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.5",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.4",3,3,"m",1,NA,0.51,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.5",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.4",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.3",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.3",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.21",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.21",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.20",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.20",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.2",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.2",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.19",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.19",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.18",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.18",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.17",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.17",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.16",3,3,"m",1,NA,0.54,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.16",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.15",3,3,"m",1,NA,0.61,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.15",2,3,"m",1,NA,0.6,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.14",3,3,"m",1,NA,0.6,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.14",2,3,"m",1,NA,0.79,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.13",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.13",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.12",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.12",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.11",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.11",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.10",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.10",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.1",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"PRO","26Mar2014.Plate.1",2,3,"m",1,NA,0.51,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.9",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.9",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.8",3,3,"m",1,NA,0.78,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.8",2,3,"m",1,NA,0.59,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.7",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.7",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.6",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.6",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.5",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.5",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.4",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.4",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.34",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.34",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.33",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.33",2,3,"m",1,NA,0.5,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.32",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.32",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.31",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.31",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.30",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.30",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.3",3,3,"m",1,NA,0.52,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.3",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.29",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.29",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.28",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.28",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.27",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.27",2,3,"m",1,NA,0.53,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.26",3,3,"m",1,NA,0.75,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.26",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.25",3,3,"m",1,NA,0.53,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.25",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.24",3,3,"m",1,NA,0.51,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.24",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.23",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.23",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.22",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.22",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.21",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.21",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.20",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.20",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.2",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.2",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.19",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.19",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.18",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.18",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.17",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.17",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.16",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.16",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.15",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.15",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.14",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.13",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.14",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.13",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.12",3,3,"m",1,NA,0.5,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.12",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.11",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.11",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.10",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.10",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.1",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"PRO","09Apr2014.Plate.1",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.9",3,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.9",2,3,"m",1,NA,0.62,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.8",3,3,"m",1,NA,0.57,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.8",2,3,"m",1,NA,0.55,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.7",3,3,"m",1,NA,0.68,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.7",2,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.6",3,3,"m",1,NA,0.61,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.5",3,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.6",2,3,"m",1,NA,0.73,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.5",2,3,"m",1,NA,0.65,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.4",3,3,"m",1,NA,1.78,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.4",2,3,"m",1,NA,0.54,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.32",3,3,"m",1,NA,0.78,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.32",2,3,"m",1,NA,0.8,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.31",3,3,"m",1,NA,0.65,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.31",2,3,"m",1,NA,0.71,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.30",3,3,"m",1,NA,0.65,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.30",2,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.3",3,3,"m",1,NA,0.63,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.3",2,3,"m",1,NA,1.74,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.29",3,3,"m",1,NA,0.67,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.29",2,3,"m",1,NA,0.73,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.28",3,3,"m",1,NA,0.83,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.28",2,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.27",3,3,"m",1,NA,0.75,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.27",2,3,"m",1,NA,0.66,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.26",3,3,"m",1,NA,0.74,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.26",2,3,"m",1,NA,0.78,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.25",3,3,"m",1,NA,0.8,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.25",2,3,"m",1,NA,0.78,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.24",3,3,"m",1,NA,0.57,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.24",2,3,"m",1,NA,0.56,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.23",3,3,"m",1,NA,0.53,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.23",2,3,"m",1,NA,0.65,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.22",3,3,"m",1,NA,0.61,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.22",2,3,"m",1,NA,0.61,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.21",3,3,"m",1,NA,0.57,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.21",2,3,"m",1,NA,0.58,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.20",3,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.20",2,3,"m",1,NA,0.62,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"PRO","02Apr14.Plate.2",3,3,"m",1,NA,0.77,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"PRO","02Apr14.Plate.2",2,3,"m",1,NA,0.79,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.19",3,3,"m",1,NA,0.66,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.18",3,3,"m",1,NA,0.6,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.19",2,3,"m",1,NA,0.71,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.18",2,3,"m",1,NA,0.63,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.17",3,3,"m",1,NA,0.61,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.17",2,3,"m",1,NA,0.6,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.16",2,3,"m",1,NA,0.66,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.16",3,3,"m",1,NA,0.52,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.15",3,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.15",2,3,"m",1,NA,0.72,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.14",3,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.14",2,3,"m",1,NA,0.67,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.13",3,3,"m",1,NA,0.68,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.13",2,3,"m",1,NA,0.62,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.12",3,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.12",2,3,"m",1,NA,0.72,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.11",3,3,"m",1,NA,0.54,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.11",2,3,"m",1,NA,0.63,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.10",3,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.10",2,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.1",3,2,"m",1,NA,0.66,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"PRO","02Apr2014.Plate.1",2,2,"m",1,NA,0.52,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",7,4,"t",1,0.412,42.42,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",7,5,"t",1,0.412,36.6,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",6,4,"t",1,1.235,47.99,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",6,5,"t",1,1.235,42.27,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",5,4,"t",1,3.704,48.29,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",5,5,"t",1,3.704,43.39,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",4,4,"t",1,11.111,55.66,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",4,5,"t",1,11.111,46.93,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",3,4,"t",1,33.333,42.91,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",3,5,"t",1,33.333,33.53,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",2,4,"t",1,100,17.2,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141126A","02Apr2014.Plate.21",2,5,"t",1,100,12.97,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",7,8,"t",1,0.412,37.79,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",7,9,"t",1,0.412,40.6,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",6,8,"t",1,1.235,26.11,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",6,9,"t",1,1.235,25.56,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",5,8,"t",1,3.704,17.43,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",5,9,"t",1,3.704,19.66,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",4,8,"t",1,11.111,10.33,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",4,9,"t",1,11.111,9.88,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",3,8,"t",1,33.333,4.84,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",3,9,"t",1,33.333,4.66,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",2,8,"t",1,100,1.39,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141124A","02Apr2014.Plate.17",2,9,"t",1,100,1.3,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",7,10,"t",1,0.041,9.31,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",7,11,"t",1,0.041,5.71,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",6,10,"t",1,0.123,8.89,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",6,11,"t",1,0.123,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",5,10,"t",1,0.37,10.18,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",5,11,"t",1,0.37,8.86,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",4,10,"t",1,1.111,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",4,11,"t",1,1.111,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",3,10,"t",1,3.333,7.6,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",3,11,"t",1,3.333,7.9,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",2,10,"t",1,10,8.28,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21141106A","26Mar2014.Plate.20",2,11,"t",1,10,8.48,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",7,7,"t",1,0.206,14.33,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",7,6,"t",1,0.206,13.42,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",6,6,"t",1,0.617,13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",6,7,"t",1,0.617,12.91,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",5,6,"t",1,1.852,11.34,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",5,7,"t",1,1.852,12.59,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",4,6,"t",1,5.556,11.95,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",4,7,"t",1,5.556,11.1,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",3,6,"t",1,16.667,9.41,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",3,7,"t",1,16.667,9.53,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",2,6,"t",1,50,9.94,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"21140704A","09Apr2014.Plate.3",2,7,"t",1,50,9.71,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",7,6,"t",1,0.206,9.79,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",7,7,"t",1,0.206,9.56,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",6,6,"t",1,0.617,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",6,7,"t",1,0.617,7.97,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",5,6,"t",1,1.852,7.76,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",5,7,"t",1,1.852,8.02,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",4,6,"t",1,5.556,8.06,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",4,7,"t",1,5.556,6.85,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",3,6,"t",1,16.667,6.96,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",3,7,"t",1,16.667,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",2,6,"t",1,50,4.3,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141130A","26Mar2014.Plate.21",2,7,"t",1,50,4.27,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",7,6,"t",1,0.412,40.57,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",7,7,"t",1,0.412,37.33,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",6,6,"t",1,1.235,37.36,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",6,7,"t",1,1.235,28.2,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",5,6,"t",1,3.704,23.48,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",5,7,"t",1,3.704,18.45,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",4,6,"t",1,11.111,11.04,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",4,7,"t",1,11.111,9.22,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",3,6,"t",1,33.333,4.35,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",3,7,"t",1,33.333,4.03,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",2,6,"t",1,100,1.31,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141124A","02Apr2014.Plate.12",2,7,"t",1,100,1.57,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",7,4,"t",1,0.041,7.94,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",7,5,"t",1,0.041,6.77,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",6,4,"t",1,0.123,9.58,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",6,5,"t",1,0.123,8.35,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",5,4,"t",1,0.37,10.07,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",5,5,"t",1,0.37,8.78,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",4,4,"t",1,1.111,10.27,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",4,5,"t",1,1.111,8.91,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",3,4,"t",0,3.333,NA,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",3,5,"t",1,3.333,9.67,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",2,4,"t",1,10,7.98,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11141106A","26Mar2014.Plate.20",2,5,"t",1,10,7.89,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",7,9,"t",1,0.206,46.18,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",7,8,"t",1,0.206,45.48,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",6,8,"t",1,0.617,42.59,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",6,9,"t",1,0.617,45.57,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",5,9,"t",1,1.852,38.44,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",5,8,"t",1,1.852,40.05,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",4,8,"t",1,5.556,34.44,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",4,9,"t",1,5.556,40.39,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",3,8,"t",1,16.667,31.01,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",3,9,"t",1,16.667,30.39,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",2,8,"t",1,50,35.91,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"11140704A","02Apr2014.Plate.14",2,9,"t",1,50,33.47,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.9",5,3,"p",1,NA,170.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.9",4,3,"p",1,NA,218.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.8",5,3,"p",1,NA,193.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.8",4,3,"p",1,NA,201.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.7",5,3,"p",1,NA,195.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.7",4,3,"p",1,NA,190.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.6",5,3,"p",1,NA,190.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.5",5,3,"p",1,NA,192.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.6",4,3,"p",1,NA,201.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.5",4,3,"p",1,NA,203.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.4",5,3,"p",1,NA,199.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.4",4,3,"p",1,NA,226.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.3",4,3,"p",1,NA,203.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.3",5,3,"p",1,NA,195.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.22",5,3,"p",1,NA,195.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.22",4,3,"p",1,NA,183.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.21",5,3,"p",1,NA,188.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.21",4,3,"p",1,NA,189.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.20",5,3,"p",1,NA,194.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.20",4,3,"p",1,NA,186.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.2",5,3,"p",1,NA,180.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.2",4,3,"p",1,NA,188.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.19",5,3,"p",1,NA,206.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.19",4,3,"p",1,NA,189.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.18",5,3,"p",1,NA,161.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.18",4,3,"p",1,NA,179.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.17",5,3,"p",1,NA,171.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.17",4,3,"p",1,NA,172.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.16",5,3,"p",1,NA,198.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.16",4,3,"p",1,NA,202.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.15",5,3,"p",1,NA,183.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.15",4,3,"p",1,NA,190.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.14",5,3,"p",1,NA,171.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.14",4,3,"p",1,NA,175.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.13",5,3,"p",1,NA,198.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.13",4,3,"p",1,NA,191.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.12",5,3,"p",1,NA,178.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.12",4,3,"p",1,NA,203.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.11",5,3,"p",1,NA,184.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.11",4,3,"p",1,NA,180.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.10",5,3,"p",1,NA,204.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.10",4,3,"p",1,NA,183.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.1",5,3,"p",1,NA,207.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"FOR","03Sep2014.Plate.1",4,3,"p",1,NA,194.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.9",5,3,"p",1,NA,21.89,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.9",4,3,"p",1,NA,37.29,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.8",4,3,"p",1,NA,23.71,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.8",5,3,"p",1,NA,21.45,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.7",5,3,"p",1,NA,36.59,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.7",4,3,"p",1,NA,30.27,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.6",5,3,"p",1,NA,32.99,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.6",4,3,"p",1,NA,33.13,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.5",5,3,"p",1,NA,31.24,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.5",4,3,"p",1,NA,43.77,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.4",5,3,"p",1,NA,25.96,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.4",4,3,"p",1,NA,35.04,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.3",5,3,"p",1,NA,26.6,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.3",4,3,"p",1,NA,23.67,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.21",5,3,"p",1,NA,28.37,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.21",4,3,"p",1,NA,34.59,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.20",5,3,"p",1,NA,34.07,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.20",4,3,"p",1,NA,32.43,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.2",5,3,"p",1,NA,26.59,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.2",4,3,"p",1,NA,31.43,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.19",5,3,"p",1,NA,26.3,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.19",4,3,"p",1,NA,28.74,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.18",5,3,"p",1,NA,35.11,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.18",4,3,"p",1,NA,34.16,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.17",5,3,"p",1,NA,36.5,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.17",4,3,"p",1,NA,33.87,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.16",5,3,"p",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.16",4,3,"p",1,NA,38.05,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.15",5,3,"p",1,NA,31.53,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.15",4,3,"p",1,NA,42.45,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.14",5,3,"p",1,NA,37.27,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.14",4,3,"p",1,NA,36.82,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.13",5,3,"p",1,NA,37.64,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.13",4,3,"p",1,NA,42.2,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.12",5,3,"p",1,NA,32.16,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.12",4,3,"p",1,NA,29.36,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.11",5,3,"p",1,NA,21.85,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.11",4,3,"p",1,NA,36.46,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.10",5,3,"p",1,NA,36.14,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.10",4,3,"p",1,NA,32.6,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.1",5,3,"p",1,NA,32.91,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"FOR","26Mar2014.Plate.1",4,3,"p",1,NA,39.29,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.9",5,3,"p",1,NA,67.11,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.9",4,3,"p",1,NA,65.56,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.8",5,3,"p",1,NA,56.96,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.8",4,3,"p",1,NA,59.59,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.7",5,3,"p",1,NA,55.14,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.7",4,3,"p",1,NA,53.17,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.6",5,3,"p",1,NA,52.2,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.6",4,3,"p",1,NA,50.74,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.5",5,3,"p",1,NA,47.84,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.5",4,3,"p",1,NA,48.67,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.4",5,3,"p",1,NA,55.43,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.4",4,3,"p",1,NA,49.6,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.34",5,3,"p",1,NA,52.1,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.33",5,3,"p",1,NA,43.15,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.34",4,3,"p",1,NA,53.25,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.33",4,3,"p",1,NA,45.81,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.32",5,3,"p",1,NA,44.08,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.32",4,3,"p",1,NA,39.07,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.31",4,3,"p",1,NA,45.62,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.31",5,3,"p",1,NA,51.96,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.30",5,3,"p",1,NA,48.22,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.30",4,3,"p",1,NA,56.04,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.3",5,3,"p",1,NA,56.76,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.29",5,3,"p",1,NA,57.14,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.3",4,3,"p",1,NA,66.53,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.29",4,3,"p",1,NA,50.43,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.28",5,3,"p",1,NA,49.01,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.28",4,3,"p",1,NA,52.11,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.27",4,3,"p",1,NA,73.25,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.27",5,3,"p",1,NA,56.2,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.26",5,3,"p",1,NA,49.99,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.26",4,3,"p",1,NA,52.06,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.25",5,3,"p",1,NA,45.06,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.24",5,3,"p",1,NA,34.87,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.25",4,3,"p",1,NA,40.65,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.24",4,3,"p",1,NA,36.42,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.23",5,3,"p",1,NA,45.23,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.23",4,3,"p",1,NA,48.79,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.22",4,3,"p",1,NA,49.97,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.22",5,3,"p",1,NA,44.57,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.21",5,3,"p",1,NA,30.96,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.21",4,3,"p",1,NA,34.12,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.20",5,3,"p",1,NA,55.49,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.2",5,3,"p",1,NA,54.94,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.20",4,3,"p",1,NA,50.39,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.2",4,3,"p",1,NA,62.43,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.19",5,3,"p",1,NA,65.42,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.19",4,3,"p",1,NA,72.97,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.18",4,3,"p",1,NA,58.96,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.18",5,3,"p",1,NA,64.24,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.17",5,3,"p",1,NA,62.08,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.17",4,3,"p",1,NA,49.54,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.16",5,3,"p",1,NA,48.4,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.15",5,3,"p",1,NA,67,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.16",4,3,"p",1,NA,62.14,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.15",4,3,"p",1,NA,80.85,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.14",5,3,"p",1,NA,65.7,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.14",4,3,"p",1,NA,59.09,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.13",4,3,"p",1,NA,68.35,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.13",5,3,"p",1,NA,51.33,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.12",5,3,"p",1,NA,65.15,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.12",4,3,"p",1,NA,57.03,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.11",5,3,"p",1,NA,67.94,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.10",5,3,"p",1,NA,53.47,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.11",4,3,"p",1,NA,65.12,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.10",4,3,"p",1,NA,46.13,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.1",5,3,"p",1,NA,59.93,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"FOR","09Apr2014.Plate.1",4,3,"p",1,NA,56.17,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.9",4,3,"p",1,NA,134.59,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.9",5,3,"p",1,NA,135.21,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.8",5,3,"p",1,NA,142.39,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.8",4,3,"p",1,NA,151.82,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.7",5,3,"p",1,NA,142.35,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.7",4,3,"p",1,NA,165.51,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.6",5,3,"p",1,NA,133.67,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.6",4,3,"p",1,NA,140.24,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.5",4,3,"p",1,NA,144.19,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.5",5,3,"p",1,NA,136.68,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.4",5,3,"p",1,NA,161.1,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.4",4,3,"p",1,NA,127.99,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.32",5,3,"p",0,NA,NA,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.31",5,3,"p",1,NA,144.39,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.32",4,3,"p",1,NA,138.72,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.31",4,3,"p",1,NA,141.03,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.30",5,3,"p",1,NA,140.95,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.30",4,3,"p",1,NA,167.92,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.3",4,3,"p",1,NA,137.95,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.3",5,3,"p",1,NA,143.47,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.29",5,3,"p",1,NA,155.35,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.29",4,3,"p",1,NA,159.63,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.28",5,3,"p",1,NA,146.26,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.28",4,3,"p",1,NA,147.01,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.27",5,3,"p",1,NA,153.59,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.27",4,3,"p",1,NA,142.93,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.26",5,3,"p",1,NA,150.21,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.26",4,3,"p",1,NA,152.51,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.25",5,3,"p",1,NA,159.61,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.25",4,3,"p",1,NA,150.41,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.24",5,3,"p",1,NA,145.7,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.24",4,3,"p",1,NA,150.43,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.23",5,3,"p",1,NA,131.18,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.23",4,3,"p",1,NA,154.96,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.22",5,3,"p",1,NA,149.8,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.22",4,3,"p",1,NA,143.32,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.21",5,3,"p",1,NA,131.54,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.21",4,3,"p",1,NA,139.56,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.20",5,3,"p",1,NA,150.04,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.20",4,3,"p",1,NA,135.32,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"FOR","02Apr14.Plate.2",5,3,"p",1,NA,157.1,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"FOR","02Apr14.Plate.2",4,3,"p",1,NA,161.84,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.19",5,3,"p",1,NA,151.21,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.19",4,3,"p",1,NA,151.95,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.18",5,3,"p",0,NA,NA,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.18",4,3,"p",1,NA,126.15,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.17",5,3,"p",1,NA,149.12,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.17",4,3,"p",1,NA,151.5,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.16",5,3,"p",1,NA,154.62,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.15",5,3,"p",1,NA,168.36,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.16",4,3,"p",1,NA,163.09,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.15",4,3,"p",1,NA,152.75,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.14",5,3,"p",1,NA,161.44,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.14",4,3,"p",1,NA,167.32,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.13",4,3,"p",1,NA,180.24,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.13",5,3,"p",1,NA,155.39,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.12",5,3,"p",1,NA,143.59,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.12",4,3,"p",1,NA,165,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.11",5,3,"p",1,NA,138.16,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.11",4,3,"p",1,NA,132.15,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.10",4,3,"p",1,NA,147.51,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.10",5,3,"p",1,NA,132.61,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.1",5,2,"p",1,NA,142.24,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"FOR","02Apr2014.Plate.1",4,2,"p",1,NA,129.02,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",7,4,"t",1,0.082,15.77,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",7,5,"t",1,0.082,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",6,4,"t",1,0.247,12.72,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",6,5,"t",1,0.247,14.52,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",5,4,"t",1,0.741,14.59,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",5,5,"t",1,0.741,14.21,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",4,5,"t",1,2.222,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",4,4,"t",1,2.222,11.75,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",3,4,"t",1,6.667,9.3,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",3,5,"t",1,6.667,8.52,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",2,4,"t",1,20,4.47,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141240A","09Apr2014.Plate.7",2,5,"t",1,20,4.59,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",7,4,"t",1,0.412,41.17,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",7,5,"t",1,0.412,36.79,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",6,4,"t",1,1.236,42.94,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",6,5,"t",1,1.236,33.6,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",5,4,"t",1,3.707,41.12,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",5,5,"t",1,3.707,39.15,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",4,4,"t",1,11.122,49.49,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",4,5,"t",1,11.122,47.23,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",3,4,"t",1,33.367,42.32,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",3,5,"t",1,33.367,38.33,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",2,4,"t",1,100.1,32.4,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141228A","02Apr2014.Plate.23",2,5,"t",1,100.1,26.69,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",7,10,"t",1,0.411,46.38,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",7,11,"t",1,0.411,37.49,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",6,10,"t",1,1.233,42.49,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",6,11,"t",1,1.233,35.91,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",5,10,"t",1,3.7,38.74,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",5,11,"t",1,3.7,38.01,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",4,10,"t",1,11.1,39.6,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",4,11,"t",1,11.1,36.09,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",3,10,"t",1,33.3,29.78,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",2,10,"t",1,99.9,15.61,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",3,11,"t",1,33.3,30.73,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141210A","02Apr2014.Plate.17",2,11,"t",1,99.9,17.21,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",7,6,"t",0,0.411,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",7,7,"t",0,0.411,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",6,6,"t",1,1.233,26.61,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",6,7,"t",1,1.233,22.3,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",5,6,"t",1,3.7,16.93,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",5,7,"t",1,3.7,16.51,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",4,7,"t",1,11.1,6.9,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",4,6,"t",1,11.1,6.48,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",3,6,"t",1,33.3,4.51,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",3,7,"t",1,33.3,4.71,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",2,6,"t",1,99.9,3.83,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141208A","02Apr2014.Plate.26",2,7,"t",1,99.9,3.52,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",7,4,"t",1,0.412,13.43,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",7,5,"t",1,0.412,12.72,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",6,4,"t",1,1.235,11.78,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",6,5,"t",1,1.235,10.36,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",5,4,"t",1,3.704,6.86,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",5,5,"t",1,3.704,6.38,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",4,4,"t",1,11.111,2.56,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",4,5,"t",1,11.111,2.27,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",3,4,"t",1,33.333,1.23,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",3,5,"t",1,33.333,1.26,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",2,4,"t",1,100,0.57,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",7,6,"t",1,0.206,35.61,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141206A","09Apr2014.Plate.6",2,5,"t",1,100,0.6,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",7,7,"t",1,0.206,39.96,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",6,6,"t",1,0.617,46.34,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",6,7,"t",1,0.617,45.4,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",5,7,"t",1,1.852,44.28,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",5,6,"t",1,1.852,48.21,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",4,6,"t",1,5.556,60.44,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",4,7,"t",1,5.556,52.78,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",3,6,"t",1,16.667,75.35,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",2,6,"t",1,50,74.11,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",3,7,"t",1,16.667,67.23,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141196A","02Apr2014.Plate.19",2,7,"t",1,50,71.09,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",7,10,"t",1,0.206,29.52,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",7,11,"t",1,0.206,19.75,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",6,10,"t",1,0.617,15.36,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",6,11,"t",1,0.617,15.06,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",5,10,"t",1,1.852,26.64,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",5,11,"t",1,1.852,24.38,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",4,10,"t",1,5.556,36.84,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",4,11,"t",1,5.556,36.39,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",3,10,"t",1,16.667,45.86,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",3,11,"t",1,16.667,47.38,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",2,10,"t",1,50,46.16,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141194A","26Mar2014.Plate.10",2,11,"t",1,50,40.63,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",7,8,"t",1,0.206,15.85,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",7,9,"t",1,0.206,13.84,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",6,8,"t",1,0.617,17.44,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",6,9,"t",1,0.617,16.2,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",5,8,"t",1,1.852,24.87,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",5,9,"t",1,1.852,21.35,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",4,8,"t",1,5.556,20.54,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",4,9,"t",1,5.556,18.22,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",3,8,"t",1,16.667,18.51,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",2,8,"t",1,50,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",3,9,"t",1,16.667,18.09,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141190A","09Apr2014.Plate.7",2,9,"t",1,50,12.3,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",7,8,"t",1,0.412,41.69,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",7,9,"t",1,0.412,35.02,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",6,8,"t",1,1.236,30.64,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",6,9,"t",1,1.236,32.62,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",5,8,"t",1,3.707,34.83,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",5,9,"t",1,3.707,34.43,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",4,8,"t",1,11.122,34.61,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",4,9,"t",1,11.122,23.91,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",3,8,"t",1,33.367,18.29,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",3,9,"t",1,33.367,13.77,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",2,8,"t",1,100.1,3.43,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141184A","02Apr2014.Plate.24",2,9,"t",1,100.1,3.4,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",7,4,"t",1,0.412,17.27,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",7,5,"t",1,0.412,15.38,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",6,4,"t",1,1.235,17.56,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",6,5,"t",1,1.235,18.7,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",5,4,"t",1,3.704,17.37,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",5,5,"t",1,3.704,16.32,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",4,4,"t",1,11.111,23.75,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",4,5,"t",1,11.111,22.17,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",3,4,"t",1,33.333,26.74,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",3,5,"t",1,33.333,24.52,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",2,4,"t",1,100,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141180A","09Apr2014.Plate.10",2,5,"t",1,100,15.61,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",7,4,"t",1,0.411,11.03,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",7,5,"t",1,0.411,11.62,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",6,4,"t",1,1.233,10.9,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",6,5,"t",1,1.233,9.51,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",5,4,"t",1,3.7,9.47,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",5,5,"t",1,3.7,8.5,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",4,4,"t",1,11.1,6.34,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",4,5,"t",1,11.1,5.95,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",3,4,"t",1,33.3,5.66,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",3,5,"t",1,33.3,4.19,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",2,4,"t",1,99.9,3.71,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141178A","26Mar2014.Plate.19",2,5,"t",1,99.9,3.22,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",7,10,"t",1,0.041,17.12,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",6,10,"t",1,0.123,40.46,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",7,11,"t",1,0.041,37.27,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",6,11,"t",1,0.123,39.25,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",5,10,"t",1,0.37,36.7,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",5,11,"t",1,0.37,40.18,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",4,10,"t",1,1.111,43.65,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",4,11,"t",1,1.111,39.61,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",3,10,"t",1,3.333,30.67,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",3,11,"t",1,3.333,29.67,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",2,10,"t",1,10,21.03,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141172A","02Apr2014.Plate.18",2,11,"t",1,10,22.4,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",7,10,"t",1,0.412,14.43,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",7,11,"t",1,0.412,15.26,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",6,11,"t",1,1.235,12.07,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",6,10,"t",1,1.235,11.95,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",5,10,"t",1,3.704,16.93,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",5,11,"t",1,3.704,14.28,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",4,10,"t",1,11.111,14.42,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",4,11,"t",1,11.111,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",3,10,"t",1,33.333,14.23,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",3,11,"t",1,33.333,13.94,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",2,10,"t",1,100,13.61,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141170A","09Apr2014.Plate.1",2,11,"t",1,100,12.16,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",7,6,"t",1,0.412,48.85,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",7,7,"t",1,0.412,53.6,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",6,6,"t",1,1.235,54.51,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",6,7,"t",1,1.235,53.6,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",5,6,"t",1,3.704,49.31,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",5,7,"t",1,3.704,49.65,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",4,6,"t",1,11.111,48.86,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",4,7,"t",1,11.111,41.82,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",3,6,"t",1,33.333,45.49,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",3,7,"t",1,33.333,45.78,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",2,6,"t",1,100,32.52,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141168A","02Apr2014.Plate.28",2,7,"t",1,100,37.26,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",7,10,"t",1,0.411,13.94,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",7,11,"t",1,0.411,14.13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",6,10,"t",1,1.233,14.82,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",6,11,"t",1,1.233,16.38,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",5,10,"t",1,3.7,16.75,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",5,11,"t",1,3.7,16.88,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",4,10,"t",1,11.1,16.48,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",4,11,"t",1,11.1,20.25,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",3,10,"t",1,33.3,19.45,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",3,11,"t",1,33.3,26.63,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",2,10,"t",1,99.9,10.61,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141154A","09Apr2014.Plate.3",2,11,"t",1,99.9,15.44,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",7,8,"t",1,0.412,41.07,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",7,9,"t",1,0.412,33.37,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",6,8,"t",1,1.236,39.72,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",6,9,"t",1,1.236,42.43,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",5,8,"t",1,3.707,45.93,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",5,9,"t",1,3.707,36.83,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",4,8,"t",1,11.122,60.91,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",4,9,"t",1,11.122,43.3,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",3,8,"t",1,33.367,53.94,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",3,9,"t",1,33.367,43.04,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",2,8,"t",1,100.1,9.76,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141146A","02Apr2014.Plate.3",2,9,"t",1,100.1,8.13,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",7,8,"t",1,0.411,17.21,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",7,9,"t",1,0.411,14.45,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",6,8,"t",1,1.233,13.6,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",6,9,"t",1,1.233,10.59,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",5,8,"t",1,3.7,11.85,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",5,9,"t",1,3.7,8.28,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",4,9,"t",1,11.1,5.51,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",4,8,"t",1,11.1,5.47,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",3,8,"t",1,33.3,1.53,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",3,9,"t",1,33.3,1.58,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",2,8,"t",1,99.9,0.69,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141144A","09Apr2014.Plate.8",2,9,"t",0,99.9,NA,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",7,4,"t",1,0.412,10.03,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",7,5,"t",1,0.412,8.68,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",6,4,"t",1,1.236,5.75,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",6,5,"t",1,1.236,9.62,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",5,4,"t",1,3.707,5.84,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",5,5,"t",1,3.707,4.53,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",4,4,"t",1,11.122,3.48,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",4,5,"t",1,11.122,3.87,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",3,4,"t",1,33.367,2.73,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",3,5,"t",1,33.367,3.27,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",2,4,"t",1,100.1,8.4,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141142A","26Mar2014.Plate.14",2,5,"t",1,100.1,7.95,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",7,4,"t",1,0.004,53.93,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",7,5,"t",1,0.004,43.93,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",6,4,"t",1,0.012,60.61,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",6,5,"t",1,0.012,47.46,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",5,4,"t",1,0.037,51.68,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",5,5,"t",1,0.037,50.77,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",4,4,"t",1,0.111,53.22,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",4,5,"t",1,0.111,55.37,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",3,4,"t",1,0.333,44.29,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",3,5,"t",1,0.333,42.33,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",2,4,"t",1,0.999,35.86,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141140A","02Apr2014.Plate.16",2,5,"t",1,0.999,34.29,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",7,6,"t",1,0.004,48.4,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",7,7,"t",1,0.004,40.22,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",6,6,"t",1,0.012,40.76,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",6,7,"t",1,0.012,40.23,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",5,6,"t",1,0.037,46.01,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",5,7,"t",1,0.037,36.55,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",4,6,"t",1,0.111,45.29,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",4,7,"t",1,0.111,43.53,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",3,6,"t",1,0.333,43.19,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",3,7,"t",1,0.333,37.13,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",2,6,"t",1,1,44.34,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141132A","02Apr2014.Plate.3",2,7,"t",1,1,42.75,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",7,4,"t",1,0.412,45.59,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",7,5,"t",1,0.412,42.29,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",6,4,"t",1,1.235,40.94,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",6,5,"t",1,1.235,42,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",5,4,"t",1,3.704,43.42,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",5,5,"t",1,3.704,46.12,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",4,5,"t",1,11.111,36.67,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",4,4,"t",1,11.111,43.43,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",3,4,"t",1,33.333,34.11,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",3,5,"t",1,33.333,33.09,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",2,5,"t",1,100,20.58,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141128A","02Apr2014.Plate.25",2,4,"t",1,100,19.35,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",7,6,"t",1,0.412,12.15,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",7,7,"t",1,0.412,11.62,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",6,6,"t",1,1.235,9.44,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",6,7,"t",1,1.235,7.81,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",5,6,"t",1,3.704,4.21,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",5,7,"t",1,3.704,6.38,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",4,6,"t",1,11.111,2.61,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",4,7,"t",1,11.111,3.06,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",3,6,"t",1,33.333,1.19,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",3,7,"t",1,33.333,1.28,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",2,6,"t",1,100,0.59,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141124A","26Mar2014.Plate.15",2,7,"t",1,100,0.65,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",7,10,"t",1,0.411,7.06,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",7,11,"t",1,0.411,8.54,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",6,10,"t",1,1.233,8.35,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",6,11,"t",1,1.233,8.18,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",5,10,"t",1,3.7,9.64,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",5,11,"t",1,3.7,8.75,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",4,10,"t",1,11.1,8.81,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",4,11,"t",1,11.1,6.8,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",3,10,"t",1,33.3,11.02,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",3,11,"t",1,33.3,7.31,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",2,10,"t",1,99.9,6.98,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141102A","26Mar2014.Plate.21",2,11,"t",1,99.9,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",7,4,"t",1,0.411,44.57,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",7,5,"t",1,0.411,50.76,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",6,4,"t",1,1.233,47.16,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",6,5,"t",1,1.233,48.54,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",5,4,"t",1,3.7,44.91,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",5,5,"t",1,3.7,39.68,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",4,4,"t",1,11.1,48.61,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",4,5,"t",1,11.1,42.45,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",3,4,"t",1,33.3,45.66,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",3,5,"t",1,33.3,44.67,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",2,4,"t",1,99.9,42.01,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141100A","02Apr2014.Plate.31",2,5,"t",1,99.9,40.45,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",7,4,"t",1,0.412,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",7,5,"t",1,0.412,12.16,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",6,4,"t",1,1.236,14.49,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",6,5,"t",1,1.236,15.64,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",5,4,"t",1,3.707,12.45,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",5,5,"t",1,3.707,11.85,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",4,4,"t",1,11.122,11.33,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",4,5,"t",1,11.122,9.51,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",3,4,"t",1,33.367,12.04,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",3,5,"t",1,33.367,11.34,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",2,5,"t",1,100.1,19.96,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141098A","09Apr2014.Plate.4",2,4,"t",1,100.1,22.74,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",7,6,"t",1,0.412,12.02,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",7,7,"t",1,0.412,8.89,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",6,7,"t",1,1.236,7.97,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",6,6,"t",1,1.236,8.66,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",5,6,"t",1,3.707,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",5,7,"t",1,3.707,10.42,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",4,6,"t",1,11.122,9.72,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",4,7,"t",1,11.122,9.7,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",3,6,"t",1,33.367,8.4,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",3,7,"t",1,33.367,9.34,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",2,6,"t",1,100.1,7.02,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141092A","26Mar2014.Plate.14",2,7,"t",1,100.1,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",7,4,"t",1,0.412,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",7,5,"t",1,0.412,10.42,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",6,4,"t",1,1.236,10.06,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",6,5,"t",1,1.236,10.26,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",5,4,"t",1,3.707,10.7,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",5,5,"t",1,3.707,8.39,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",4,4,"t",1,11.122,9.79,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",4,5,"t",1,11.122,9.52,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",3,4,"t",1,33.367,9.37,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",3,5,"t",1,33.367,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",2,4,"t",1,100.1,2.72,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141088A","26Mar2014.Plate.10",2,5,"t",1,100.1,2.79,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",7,8,"t",1,0.412,54.49,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",7,9,"t",1,0.412,40.02,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",6,8,"t",1,1.236,54.03,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",6,9,"t",1,1.236,48.82,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",5,8,"t",1,3.707,55.54,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",5,9,"t",1,3.707,49.04,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",4,8,"t",1,11.122,68.7,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",4,9,"t",1,11.122,68.47,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",3,8,"t",1,33.367,68.71,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",3,9,"t",1,33.367,63.71,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",2,8,"t",1,100.1,47.02,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141084A","02Apr2014.Plate.13",2,9,"t",1,100.1,43.8,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",7,10,"t",1,0.206,32.25,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",7,11,"t",1,0.206,34.36,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",6,10,"t",1,0.617,37,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",6,11,"t",1,0.617,37.88,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",5,10,"t",1,1.852,34.77,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",5,11,"t",1,1.852,33.7,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",4,10,"t",1,5.556,32.31,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",4,11,"t",1,5.556,30.5,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",3,10,"t",1,16.667,29.75,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",3,11,"t",1,16.667,30.08,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",2,10,"t",1,50,31.29,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141074A","02Apr2014.Plate.22",2,11,"t",1,50,25.17,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",7,6,"t",1,0.412,48.97,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",7,7,"t",1,0.412,45.07,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",6,6,"t",1,1.235,47.65,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",6,7,"t",1,1.235,39.7,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",5,6,"t",1,3.704,41.53,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",5,7,"t",1,3.704,36.92,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",4,6,"t",1,11.111,38.7,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",3,6,"t",1,33.333,32.83,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",4,7,"t",1,11.111,40.07,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",3,7,"t",1,33.333,40.74,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",2,6,"t",1,100,27.35,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141072A","02Apr2014.Plate.11",2,7,"t",1,100,19.73,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",7,5,"t",1,0.041,46.77,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",7,4,"t",1,0.041,41.04,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",6,4,"t",1,0.124,42.87,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",6,5,"t",1,0.124,36.55,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",5,4,"t",1,0.371,42.25,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",5,5,"t",1,0.371,40.58,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",4,4,"t",1,1.112,49.5,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",4,5,"t",1,1.112,41.54,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",3,4,"t",1,3.337,37.41,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",3,5,"t",1,3.337,36.26,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",2,4,"t",1,10.01,13.52,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141068A","02Apr14.Plate.2",2,5,"t",1,10.01,14.59,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",7,8,"t",1,0.411,47.83,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",7,9,"t",1,0.411,46.16,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",6,8,"t",1,1.233,48.19,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",6,9,"t",1,1.233,48.6,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",5,8,"t",1,3.7,47.5,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",5,9,"t",1,3.7,48.54,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",4,8,"t",1,11.1,57.07,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",4,9,"t",1,11.1,52.63,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",3,8,"t",1,33.3,50.01,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",3,9,"t",1,33.3,43.35,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",2,8,"t",1,99.9,30.06,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141066A","02Apr2014.Plate.32",2,9,"t",1,99.9,27.29,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",7,10,"t",1,0.004,13.34,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",7,11,"t",1,0.004,10.56,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",6,10,"t",1,0.012,14.13,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",6,11,"t",1,0.012,11.4,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",5,10,"t",1,0.037,11.56,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",5,11,"t",1,0.037,8.73,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",4,10,"t",1,0.111,9.15,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",4,11,"t",1,0.111,9.05,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",3,10,"t",1,0.333,9.56,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",3,11,"t",1,0.333,10.32,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",2,10,"t",1,0.999,10.11,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141050A","09Apr2014.Plate.4",2,11,"t",1,0.999,10.05,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",7,10,"t",1,0.041,27.87,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",7,11,"t",1,0.041,33.09,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",6,10,"t",1,0.124,32.45,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",6,11,"t",1,0.124,32.96,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",5,10,"t",1,0.371,29.87,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",4,10,"t",1,1.112,31.89,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",5,11,"t",1,0.371,30.26,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",4,11,"t",1,1.112,31.09,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",3,10,"t",1,3.337,35.83,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",2,10,"t",1,10.01,32.48,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",3,11,"t",1,3.337,31.77,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141046A","02Apr2014.Plate.31",2,11,"t",1,10.01,28.81,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",7,4,"t",1,0.411,49.69,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",7,5,"t",1,0.411,47.8,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",6,5,"t",1,1.233,44.27,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",6,4,"t",1,1.233,51.6,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",5,4,"t",1,3.7,36.84,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",5,5,"t",1,3.7,49.96,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",4,4,"t",1,11.1,44.1,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",4,5,"t",1,11.1,51.28,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",3,4,"t",1,33.3,26.35,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",3,5,"t",1,33.3,29.19,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",2,4,"t",1,99.9,10,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141038A","02Apr2014.Plate.20",2,5,"t",1,99.9,9.85,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",7,4,"t",1,0.041,52.99,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",7,5,"t",1,0.041,45.25,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",6,4,"t",1,0.123,42.88,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",6,5,"t",1,0.123,43.55,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",5,4,"t",1,0.37,39.38,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",5,5,"t",1,0.37,34.91,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",4,4,"t",1,1.11,29.61,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",4,5,"t",1,1.11,31.8,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",3,4,"t",1,3.33,23.03,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",3,5,"t",1,3.33,22.91,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",2,4,"t",1,9.99,13.07,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141034A","02Apr2014.Plate.17",2,5,"t",1,9.99,13.71,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",7,4,"t",1,0.411,51.5,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",7,5,"t",1,0.411,49.67,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",6,4,"t",1,1.233,40.04,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",6,5,"t",1,1.233,42.75,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",5,4,"t",1,3.7,36.37,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",5,5,"t",1,3.7,36.71,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",4,4,"t",1,11.1,30.69,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",4,5,"t",1,11.1,31.63,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",3,4,"t",1,33.3,18.55,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",3,5,"t",1,33.3,17.17,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",2,4,"t",1,99.9,10.87,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141010A","02Apr2014.Plate.14",2,5,"t",1,99.9,9.53,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",7,8,"t",1,0.412,11.05,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",7,9,"t",1,0.412,11.82,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",6,8,"t",1,1.236,11.28,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",6,9,"t",1,1.236,10.23,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",5,8,"t",1,3.707,15.27,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",5,9,"t",1,3.707,11.13,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",4,8,"t",1,11.122,12.65,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",4,9,"t",1,11.122,11.11,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",3,8,"t",1,33.367,12.35,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",3,9,"t",1,33.367,10.8,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",2,8,"t",1,100.1,16.98,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01141008A","26Mar2014.Plate.19",2,9,"t",1,100.1,15.12,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",7,6,"t",1,0.041,31.81,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",7,7,"t",1,0.041,33.98,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",6,6,"t",1,0.124,32.17,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",6,7,"t",1,0.124,27.41,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",5,6,"t",1,0.371,27.27,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",5,7,"t",1,0.371,25.89,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",4,6,"t",1,1.112,27.8,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",4,7,"t",1,1.112,23.95,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",3,6,"t",1,3.337,25.34,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",3,7,"t",1,3.337,23.85,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",2,6,"t",1,10.01,23.08,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140996A","02Apr2014.Plate.21",2,7,"t",1,10.01,19.08,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",7,6,"t",1,0.412,17.51,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",6,6,"t",1,1.236,12.04,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",7,7,"t",1,0.412,14.38,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",6,7,"t",1,1.236,12.24,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",5,6,"t",1,3.707,14.05,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",5,7,"t",1,3.707,13.74,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",4,6,"t",1,11.122,11.96,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",4,7,"t",1,11.122,11.18,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",3,6,"t",1,33.367,14.46,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",3,7,"t",1,33.367,11.49,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",2,6,"t",1,100.1,10.64,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140990A","09Apr2014.Plate.1",2,7,"t",1,100.1,8.82,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",7,6,"t",1,0.412,5.82,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",7,7,"t",1,0.412,5.17,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",6,6,"t",1,1.235,3.8,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",6,7,"t",1,1.235,3.09,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",5,6,"t",1,3.704,1.48,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",5,7,"t",1,3.704,1.54,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",4,6,"t",1,11.111,0.88,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",4,7,"t",1,11.111,0.67,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",3,6,"t",1,33.333,0.54,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",3,7,"t",1,33.333,0.54,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",2,6,"t",0,100,NA,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140986A","26Mar2014.Plate.17",2,7,"t",0,100,NA,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",7,8,"t",1,0.412,43.67,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",7,9,"t",1,0.412,29.6,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",6,8,"t",1,1.235,40.69,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",6,9,"t",1,1.235,28.47,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",5,9,"t",1,3.704,25.79,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",5,8,"t",1,3.704,35.82,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",4,8,"t",1,11.111,7.34,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",4,9,"t",1,11.111,6.09,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",3,8,"t",1,33.333,3.2,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",2,8,"t",1,100,1.39,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",3,9,"t",1,33.333,2.94,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140982A","02Apr2014.Plate.19",2,9,"t",1,100,1.49,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",7,4,"t",1,0.041,17.3,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",6,4,"t",1,0.124,17.48,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",7,5,"t",1,0.041,18.05,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",6,5,"t",1,0.124,15.56,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",5,4,"t",1,0.371,17.43,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",5,5,"t",1,0.371,16.92,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",4,4,"t",1,1.112,18.25,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",4,5,"t",1,1.112,15.55,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",3,4,"t",1,3.337,24.06,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",3,5,"t",1,3.337,17.44,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",2,4,"t",1,10.01,23.25,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140978A","09Apr2014.Plate.8",2,5,"t",1,10.01,16.48,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",7,10,"t",1,0.412,45.82,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",7,11,"t",1,0.412,38.82,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",6,10,"t",1,1.236,45.98,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",6,11,"t",1,1.236,45.59,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",5,10,"t",1,3.707,44.82,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",5,11,"t",1,3.707,43.34,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",4,10,"t",1,11.122,46.08,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",4,11,"t",1,11.122,41.68,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",3,10,"t",1,33.367,45.98,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",3,11,"t",1,33.367,41.27,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",2,10,"t",1,100.1,43.93,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140972A","02Apr2014.Plate.16",2,11,"t",1,100.1,39.94,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",7,4,"t",1,0.412,35.53,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",7,5,"t",1,0.412,39.99,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",6,4,"t",1,1.236,40.14,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",6,5,"t",1,1.236,40.38,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",5,4,"t",1,3.707,36.17,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",5,5,"t",1,3.707,42.35,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",4,4,"t",1,11.122,40.33,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",4,5,"t",1,11.122,41.36,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",3,4,"t",1,33.367,41.61,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",3,5,"t",1,33.367,41.8,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",2,4,"t",1,100.1,41.16,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140966A","02Apr2014.Plate.7",2,5,"t",1,100.1,39.43,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",7,6,"t",1,0.082,12.97,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",7,7,"t",1,0.082,12.35,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",6,6,"t",1,0.247,13.16,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",6,7,"t",1,0.247,13.15,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",5,6,"t",1,0.741,10.57,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",5,7,"t",1,0.741,12.8,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",4,6,"t",1,2.222,12.31,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",4,7,"t",1,2.222,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",3,6,"t",1,6.667,14.63,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",3,7,"t",1,6.667,11.66,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",2,6,"t",1,20,10.98,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140956A","09Apr2014.Plate.8",2,7,"t",1,20,8.42,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",7,10,"t",1,0.412,13.22,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",7,11,"t",1,0.412,14.93,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",6,10,"t",1,1.236,10.88,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",6,11,"t",1,1.236,10.42,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",5,10,"t",1,3.707,12.59,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",5,11,"t",1,3.707,14.29,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",4,10,"t",1,11.122,13.69,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",4,11,"t",1,11.122,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",3,10,"t",1,33.367,19.9,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",3,11,"t",1,33.367,18.19,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",2,10,"t",1,100.1,4.83,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140950A","09Apr2014.Plate.7",2,11,"t",1,100.1,4.64,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",7,8,"t",1,0.412,42.29,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",7,9,"t",1,0.412,50.41,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",6,8,"t",1,1.235,34.06,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",6,9,"t",1,1.235,38.33,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",5,8,"t",1,3.704,51.29,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",5,9,"t",1,3.704,52.66,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",4,8,"t",1,11.111,57.31,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",4,9,"t",1,11.111,72.07,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",3,8,"t",1,33.333,34.68,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",3,9,"t",1,33.333,35.36,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",2,8,"t",1,100,27.78,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140948A","02Apr2014.Plate.9",2,9,"t",1,100,23,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",7,4,"t",1,0.412,36.49,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",7,5,"t",1,0.412,39.49,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",6,4,"t",1,1.235,43.2,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",6,5,"t",1,1.235,42.19,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",5,4,"t",1,3.704,43.15,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",5,5,"t",1,3.704,49.89,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",4,4,"t",1,11.111,47.2,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",4,5,"t",1,11.111,49.56,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",3,4,"t",1,33.333,55.83,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",3,5,"t",1,33.333,50.88,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",2,4,"t",1,100,48.05,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140944A","02Apr2014.Plate.4",2,5,"t",1,100,43.89,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",7,8,"t",1,0.412,13.15,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",7,9,"t",1,0.412,11.35,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",6,8,"t",1,1.235,10.71,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",6,9,"t",1,1.235,9.45,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",5,8,"t",1,3.704,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",5,9,"t",1,3.704,7.07,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",4,8,"t",1,11.111,10.34,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",4,9,"t",1,11.111,10.08,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",3,8,"t",1,33.333,10.99,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",3,9,"t",1,33.333,10.56,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",2,8,"t",1,100,8.64,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140942A","26Mar2014.Plate.15",2,9,"t",1,100,9.04,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",7,10,"t",1,0.412,45.61,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",7,11,"t",1,0.412,49.28,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",6,10,"t",1,1.236,40.49,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",6,11,"t",1,1.236,42.12,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",5,10,"t",1,3.707,38.69,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",5,11,"t",1,3.707,43.95,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",4,10,"t",1,11.122,79.41,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",4,11,"t",1,11.122,52.28,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",3,10,"t",1,33.367,45.76,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",3,11,"t",1,33.367,42.42,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",2,10,"t",1,100.1,35.81,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140924A","02Apr2014.Plate.14",2,11,"t",1,100.1,28.25,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",7,8,"t",0,0.041,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",7,9,"t",0,0.041,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",6,8,"t",1,0.123,49.54,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",6,9,"t",1,0.123,47.36,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",5,8,"t",1,0.37,46.86,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",5,9,"t",1,0.37,45.89,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",4,8,"t",1,1.11,45.78,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",4,9,"t",1,1.11,43.66,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",3,8,"t",1,3.33,43.15,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",3,9,"t",1,3.33,39.15,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",2,8,"t",1,9.99,29.86,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140922A","02Apr2014.Plate.26",2,9,"t",1,9.99,28.87,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",7,10,"t",1,0.412,7.23,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",7,11,"t",1,0.412,7.21,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",6,10,"t",1,1.236,6.62,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",6,11,"t",1,1.236,6.38,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",5,10,"t",1,3.707,7.46,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",5,11,"t",1,3.707,5.52,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",4,10,"t",1,11.122,10.58,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",4,11,"t",1,11.122,9.88,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",3,10,"t",1,33.367,11.36,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",3,11,"t",1,33.367,10.53,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",2,10,"t",1,100.1,9.91,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140914A","26Mar2014.Plate.9",2,11,"t",1,100.1,7.39,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",7,8,"t",1,0.411,52.92,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",7,9,"t",1,0.411,50.6,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",6,8,"t",1,1.233,43.9,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",6,9,"t",1,1.233,56.35,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",5,8,"t",1,3.7,38.31,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",5,9,"t",1,3.7,37.08,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",4,8,"t",1,11.1,24.27,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",4,9,"t",1,11.1,16.9,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",3,8,"t",1,33.3,7.67,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",3,9,"t",1,33.3,8.42,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",2,8,"t",1,99.9,2.13,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140906A","02Apr2014.Plate.11",2,9,"t",1,99.9,2.89,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",7,6,"t",1,0.021,7.62,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",7,7,"t",1,0.021,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",6,6,"t",1,0.062,8.18,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",6,7,"t",1,0.062,6.55,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",5,6,"t",1,0.185,10.11,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",5,7,"t",1,0.185,7.62,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",4,6,"t",1,0.556,9.13,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",4,7,"t",1,0.556,9.7,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",3,6,"t",1,1.667,12.11,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",3,7,"t",1,1.667,11.78,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",2,6,"t",1,5,11.59,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140880A","26Mar2014.Plate.9",2,7,"t",1,5,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",7,10,"t",1,0.412,9.12,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",7,11,"t",1,0.412,8.87,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",6,10,"t",1,1.235,8.05,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",6,11,"t",1,1.235,7.23,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",5,11,"t",1,3.704,6.88,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",5,10,"t",1,3.704,10.4,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",4,10,"t",1,11.111,9.03,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",3,10,"t",1,33.333,9.44,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",4,11,"t",1,11.111,9.27,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",3,11,"t",1,33.333,9.98,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",2,11,"t",1,100,8.13,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140872A","26Mar2014.Plate.11",2,10,"t",1,100,7.64,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",7,10,"t",1,0.206,14.06,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",6,10,"t",1,0.617,11.38,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",7,11,"t",1,0.206,11.93,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",6,11,"t",1,0.617,10.3,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",5,11,"t",1,1.852,8.42,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",5,10,"t",1,1.852,8.46,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",4,10,"t",1,5.556,8.51,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",3,10,"t",1,16.667,3.9,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",4,11,"t",1,5.556,5.47,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",3,11,"t",1,16.667,2.98,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",2,11,"t",1,50,2.34,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140866A","09Apr2014.Plate.5",2,10,"t",1,50,3.04,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",7,8,"t",1,0.411,36.52,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",6,8,"t",1,1.233,43.44,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",7,9,"t",1,0.411,30.46,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",6,9,"t",1,1.233,40.28,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",5,8,"t",1,3.7,43.53,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",4,8,"t",1,11.1,41.11,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",5,9,"t",1,3.7,43.1,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",4,9,"t",1,11.1,44.54,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",3,9,"t",1,33.3,49.59,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",3,8,"t",1,33.3,41.19,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",2,8,"t",1,99.9,33.19,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",7,4,"t",1,0.041,8.56,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140856A","02Apr2014.Plate.21",2,9,"t",1,99.9,33.32,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",7,5,"t",1,0.041,7.24,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",6,5,"t",1,0.123,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",6,4,"t",1,0.123,10.87,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",5,4,"t",1,0.37,9.62,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",4,4,"t",1,1.11,8.09,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",5,5,"t",1,0.37,6.89,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",4,5,"t",1,1.11,7.05,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",3,5,"t",1,3.33,6.82,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",3,4,"t",1,3.33,11.63,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",2,4,"t",1,9.99,9.32,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",7,8,"t",1,0.041,12.59,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140852A","26Mar2014.Plate.12",2,5,"t",1,9.99,8.77,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",7,9,"t",1,0.041,10.78,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",6,9,"t",1,0.124,13.83,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",6,8,"t",1,0.124,12.65,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",5,8,"t",1,0.371,14.27,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",5,9,"t",1,0.371,14.13,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",4,8,"t",1,1.112,11.95,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",4,9,"t",1,1.112,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",3,8,"t",1,3.337,13.82,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",3,9,"t",1,3.337,13.94,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",2,8,"t",1,10.01,13.07,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140850A","09Apr2014.Plate.4",2,9,"t",1,10.01,11.54,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",7,11,"t",1,0.412,37.21,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",7,10,"t",1,0.412,39.51,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",6,10,"t",1,1.236,35.85,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",6,11,"t",1,1.236,35.93,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",5,11,"t",1,3.707,39.27,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",5,10,"t",1,3.707,41.94,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",4,10,"t",1,11.122,42.39,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",3,10,"t",1,33.367,44.31,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",4,11,"t",1,11.122,44.79,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",3,11,"t",1,33.367,43.35,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",2,11,"t",1,100.1,31.84,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140830A","02Apr2014.Plate.19",2,10,"t",1,100.1,34.13,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",7,6,"t",1,0.411,60.94,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",6,6,"t",1,1.233,47.57,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",7,7,"t",1,0.411,47.09,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",6,7,"t",1,1.233,46.56,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",5,6,"t",1,3.7,52.46,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",5,7,"t",1,3.7,43.24,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",4,6,"t",1,11.1,59.91,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",4,7,"t",1,11.1,50.61,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",3,6,"t",1,33.3,56.08,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",3,7,"t",1,33.3,50.17,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",2,6,"t",1,99.9,39.45,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140826A","02Apr2014.Plate.30",2,7,"t",1,99.9,29.62,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",7,6,"t",1,0.041,41.61,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",6,6,"t",1,0.123,43.16,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",7,7,"t",1,0.041,47.2,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",6,7,"t",1,0.123,43.04,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",5,7,"t",1,0.37,36.38,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",5,6,"t",1,0.37,38.81,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",4,6,"t",1,1.111,43,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",3,6,"t",1,3.333,31.98,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",4,7,"t",1,1.111,39.24,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",3,7,"t",1,3.333,28.7,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",2,7,"t",1,10,11.51,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140824A","02Apr2014.Plate.13",2,6,"t",1,10,12.73,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",7,8,"t",1,0.412,31.26,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",7,9,"t",1,0.412,34.09,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",6,8,"t",1,1.236,42.04,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",6,9,"t",1,1.236,41.68,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",5,8,"t",1,3.707,39.58,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",5,9,"t",1,3.707,43.52,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",4,9,"t",1,11.122,38.11,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",4,8,"t",1,11.122,40.12,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",3,8,"t",1,33.367,38.41,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",3,9,"t",1,33.367,37.74,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",2,8,"t",1,100.1,42.24,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140822A","02Apr2014.Plate.30",2,9,"t",1,100.1,40.56,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",7,10,"t",1,0.041,39.42,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",7,11,"t",1,0.041,45.02,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",6,10,"t",1,0.123,39.1,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",6,11,"t",1,0.123,38.08,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",5,10,"t",1,0.37,42.01,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",5,11,"t",1,0.37,43.03,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",4,10,"t",1,1.111,40.08,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",4,11,"t",1,1.111,39.75,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",3,10,"t",1,3.333,38.6,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",3,11,"t",1,3.333,37.56,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",2,10,"t",1,10,22.03,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140802A","02Apr2014.Plate.3",2,11,"t",1,10,23.68,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",7,10,"t",1,0.411,39.95,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",7,11,"t",1,0.411,35.43,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",6,10,"t",1,1.233,41.69,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",6,11,"t",1,1.233,37.49,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",5,10,"t",1,3.7,33.09,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",5,11,"t",1,3.7,36.54,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",4,10,"t",1,11.1,42.64,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",4,11,"t",1,11.1,33.66,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",3,10,"t",1,33.3,30.99,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",3,11,"t",1,33.3,24.92,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",2,10,"t",1,99.9,20.88,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140798A","02Apr2014.Plate.24",2,11,"t",1,99.9,19.7,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",7,6,"t",1,0.412,39.93,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",7,7,"t",1,0.412,36.53,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",6,6,"t",1,1.235,38.29,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",6,7,"t",1,1.235,37.86,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",5,6,"t",1,3.704,42.8,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",5,7,"t",1,3.704,47.17,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",4,6,"t",1,11.111,38.35,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",4,7,"t",1,11.111,37.26,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",3,6,"t",1,33.333,31.04,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",3,7,"t",1,33.333,30.82,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",2,6,"t",1,100,19.58,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140794A","02Apr2014.Plate.1",2,7,"t",1,100,17.26,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",7,11,"t",1,0.041,41.98,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",7,10,"t",1,0.041,41.29,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",6,10,"t",1,0.124,42.53,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",6,11,"t",1,0.124,37.41,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",5,10,"t",1,0.371,37.53,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",5,11,"t",1,0.371,34.1,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",4,10,"t",1,1.112,29.77,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",4,11,"t",1,1.112,30.49,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",3,10,"t",1,3.337,19.75,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",3,11,"t",1,3.337,20.7,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",2,10,"t",1,10.01,10.55,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140786A","02Apr2014.Plate.21",2,11,"t",1,10.01,10.68,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",7,8,"t",1,0.412,16.4,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",7,9,"t",1,0.412,13.43,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",6,8,"t",1,1.235,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",6,9,"t",1,1.235,11.32,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",5,8,"t",1,3.704,15.35,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",5,9,"t",1,3.704,14.68,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",4,8,"t",1,11.111,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",4,9,"t",1,11.111,14.89,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",3,8,"t",1,33.333,20.99,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",3,9,"t",1,33.333,28.49,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",2,8,"t",1,100,17.04,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140784A","09Apr2014.Plate.1",2,9,"t",1,100,17.91,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",7,8,"t",1,0.412,15.29,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",7,9,"t",1,0.412,13.96,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",6,8,"t",1,1.235,15.39,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",6,9,"t",1,1.235,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",5,9,"t",1,3.704,9.76,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",5,8,"t",1,3.704,10.69,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",4,8,"t",1,11.111,6.18,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",3,8,"t",1,33.333,3.05,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",4,9,"t",1,11.111,5.43,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",3,9,"t",1,33.333,2.63,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",2,9,"t",1,100,0.63,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140782A","09Apr2014.Plate.9",2,8,"t",1,100,0.69,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",7,6,"t",1,0.412,38.38,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",6,6,"t",1,1.236,31.97,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",7,7,"t",1,0.412,34.79,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",6,7,"t",1,1.236,29.45,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",5,7,"t",1,3.707,14.12,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",5,6,"t",1,3.707,16.24,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",4,6,"t",1,11.122,6.21,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",3,6,"t",1,33.367,2.73,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",4,7,"t",1,11.122,5.05,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",3,7,"t",1,33.367,2.47,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",2,7,"t",1,100.1,1.47,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140780A","02Apr2014.Plate.22",2,6,"t",1,100.1,1.73,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",7,4,"t",1,0.004,44.7,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",6,4,"t",1,0.012,41.03,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",7,5,"t",1,0.004,34.78,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",6,5,"t",1,0.012,33.8,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",5,4,"t",1,0.037,45.14,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",5,5,"t",1,0.037,37.53,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",4,4,"t",1,0.111,39.15,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",4,5,"t",1,0.111,42.53,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",3,4,"t",1,0.333,34.32,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",3,5,"t",1,0.333,34.06,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",2,4,"t",1,1,36.49,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140768A","02Apr2014.Plate.6",2,5,"t",1,1,35.44,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",7,10,"t",1,0.412,12.16,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",6,10,"t",1,1.236,12.03,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",7,11,"t",1,0.412,10.5,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",6,11,"t",1,1.236,9.66,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",5,11,"t",1,3.707,11.81,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",5,10,"t",1,3.707,9.89,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",4,10,"t",1,11.122,12.64,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",3,10,"t",1,33.367,14.29,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",4,11,"t",1,11.122,11.41,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",3,11,"t",1,33.367,12.87,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",2,11,"t",1,100.1,8.24,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140762A","26Mar2014.Plate.15",2,10,"t",1,100.1,11.1,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",7,8,"t",1,0.041,9.77,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",7,9,"t",1,0.041,9.12,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",6,8,"t",1,0.124,7.76,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",6,9,"t",1,0.124,7.08,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",5,8,"t",1,0.371,7.25,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",5,9,"t",1,0.371,5.15,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",4,8,"t",1,1.112,5.98,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",4,9,"t",1,1.112,5.84,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",3,8,"t",1,3.337,2.99,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",3,9,"t",1,3.337,2.52,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",2,8,"t",1,10.01,2.24,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140756A","26Mar2014.Plate.10",2,9,"t",1,10.01,1.87,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",7,6,"t",1,0.412,16.38,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",7,7,"t",1,0.412,14.72,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",6,6,"t",1,1.236,15.21,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",6,7,"t",1,1.236,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",5,6,"t",1,3.707,13.66,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",5,7,"t",1,3.707,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",4,6,"t",1,11.122,16.81,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",4,7,"t",1,11.122,11.53,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",3,6,"t",1,33.367,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",3,7,"t",1,33.367,13.83,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",2,6,"t",1,100.1,8.89,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140750A","09Apr2014.Plate.7",2,7,"t",1,100.1,7.55,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",7,4,"t",1,0.041,21.3,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",7,5,"t",0,0.041,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",6,4,"t",1,0.124,43.02,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",6,5,"t",1,0.124,38.4,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",5,4,"t",1,0.371,41.02,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",5,5,"t",1,0.371,39.58,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",4,4,"t",1,1.112,39.93,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",4,5,"t",1,1.112,32.22,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",3,4,"t",1,3.337,21.98,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",3,5,"t",1,3.337,21.76,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",2,4,"t",1,10.01,13.14,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140728A","02Apr2014.Plate.26",2,5,"t",1,10.01,12.86,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",7,4,"t",1,0.021,43.83,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",7,5,"t",1,0.021,39.24,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",6,4,"t",1,0.062,41.71,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",6,5,"t",1,0.062,35.94,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",5,4,"t",1,0.185,40.72,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",5,5,"t",1,0.185,38.58,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",4,4,"t",1,0.556,48.81,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",4,5,"t",1,0.556,40.97,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",3,4,"t",1,1.667,46.94,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",3,5,"t",1,1.667,43.95,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",2,4,"t",1,5,48.23,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140724A","02Apr2014.Plate.24",2,5,"t",1,5,39.57,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",7,10,"t",1,0.004,39.97,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",7,11,"t",1,0.004,40.45,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",6,10,"t",1,0.012,33.51,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",6,11,"t",1,0.012,38.33,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",5,10,"t",1,0.037,40.42,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",5,11,"t",1,0.037,39.4,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",4,10,"t",1,0.111,35.45,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",4,11,"t",1,0.111,37.03,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",3,10,"t",1,0.333,40.76,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",3,11,"t",1,0.333,34.55,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",2,10,"t",1,1,32.19,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140720A","02Apr2014.Plate.1",2,11,"t",1,1,32.36,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",7,4,"t",1,0.412,41.84,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",7,5,"t",1,0.412,35.17,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",6,4,"t",1,1.236,40.59,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",6,5,"t",1,1.236,36.2,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",5,4,"t",1,3.707,43.83,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",5,5,"t",1,3.707,43.19,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",4,4,"t",1,11.122,50.05,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",4,5,"t",1,11.122,42.16,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",3,4,"t",1,33.367,59.06,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",3,5,"t",1,33.367,51.14,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",2,4,"t",1,100.1,58.8,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140718A","02Apr2014.Plate.5",2,5,"t",1,100.1,51.9,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",7,10,"t",1,0.411,47.7,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",7,11,"t",1,0.411,43.39,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",6,10,"t",1,1.233,37.59,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",6,11,"t",1,1.233,38.11,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",5,10,"t",1,3.7,37.16,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",5,11,"t",1,3.7,38.49,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",4,10,"t",1,11.1,35.37,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",4,11,"t",1,11.1,37.67,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",3,10,"t",1,33.3,34.43,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",3,11,"t",1,33.3,32.96,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",2,10,"t",1,99.9,25.33,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140714A","02Apr2014.Plate.11",2,11,"t",1,99.9,25.02,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",7,6,"t",1,0.206,14.43,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",7,7,"t",1,0.206,15.26,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",6,6,"t",1,0.617,15.47,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",6,7,"t",1,0.617,14.97,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",5,6,"t",1,1.852,16.65,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",5,7,"t",1,1.852,14.01,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",4,6,"t",1,5.556,16.84,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",4,7,"t",1,5.556,15.68,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",3,7,"t",1,16.667,14.9,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",3,6,"t",1,16.667,18.22,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",2,6,"t",1,50,10.43,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",7,8,"t",1,0.411,46.19,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140708A","09Apr2014.Plate.9",2,7,"t",1,50,9.53,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",7,9,"t",1,0.411,37,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",6,9,"t",1,1.233,35.86,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",6,8,"t",1,1.233,43.7,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",5,8,"t",1,3.7,47.41,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",4,8,"t",1,11.1,47.59,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",5,9,"t",1,3.7,45.89,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",4,9,"t",1,11.1,48.34,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",3,9,"t",1,33.3,33.06,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",3,8,"t",1,33.3,36.46,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",2,8,"t",1,99.9,13.39,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",7,6,"t",1,0.206,9.61,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140706A","02Apr2014.Plate.31",2,9,"t",1,99.9,12.09,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",7,7,"t",1,0.206,10.51,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",6,7,"t",1,0.617,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",6,6,"t",1,0.617,9,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",5,6,"t",1,1.852,9.3,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",4,6,"t",1,5.556,6.51,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",5,7,"t",1,1.852,8.39,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",4,7,"t",1,5.556,7.16,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",3,7,"t",1,16.667,6.01,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",3,6,"t",1,16.667,6.43,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",2,6,"t",1,50,5.25,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140704A","26Mar2014.Plate.11",2,7,"t",1,50,5.58,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",7,6,"t",1,0.412,31.39,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",7,7,"t",1,0.412,41.71,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",6,6,"t",1,1.235,39.58,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",6,7,"t",1,1.235,28.06,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",5,6,"t",1,3.704,25.52,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",5,7,"t",1,3.704,28.96,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",4,6,"t",1,11.111,11.11,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",4,7,"t",1,11.111,9.49,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",3,6,"t",1,33.333,1.33,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",3,7,"t",1,33.333,1.36,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",2,6,"t",1,100,0.89,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140692A","02Apr2014.Plate.5",2,7,"t",1,100,1.34,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",7,8,"t",1,0.411,10.24,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",7,9,"t",1,0.411,8.58,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",6,8,"t",1,1.233,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",6,9,"t",1,1.233,7.96,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",5,8,"t",1,3.7,8.09,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",5,9,"t",1,3.7,8.8,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",4,8,"t",1,11.1,10.15,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",4,9,"t",1,11.1,9.58,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",3,8,"t",1,33.3,12.98,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",3,9,"t",1,33.3,10.62,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",2,8,"t",1,99.9,12.83,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140690A","26Mar2014.Plate.11",2,9,"t",1,99.9,9.55,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",7,4,"t",1,0.412,11.35,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",7,5,"t",1,0.412,10.55,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",6,4,"t",1,1.235,10.35,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",6,5,"t",1,1.235,8.85,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",5,4,"t",1,3.704,7.81,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",5,5,"t",1,3.704,6.89,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",4,4,"t",1,11.111,11.41,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",4,5,"t",1,11.111,11.52,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",3,4,"t",1,33.333,16.7,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",3,5,"t",1,33.333,13.46,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",2,4,"t",1,100,17.09,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140658A","26Mar2014.Plate.15",2,5,"t",1,100,14.71,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",7,4,"t",1,0.412,59.96,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",7,5,"t",1,0.412,52.51,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",6,5,"t",1,1.236,49.88,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",6,4,"t",1,1.236,54.88,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",5,4,"t",1,3.707,59.27,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",5,5,"t",1,3.707,57.14,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",4,4,"t",1,11.122,57.65,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",4,5,"t",1,11.122,61.25,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",3,4,"t",1,33.367,62.61,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",3,5,"t",1,33.367,63.89,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",2,4,"t",1,100.1,56.8,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140654A","02Apr2014.Plate.15",2,5,"t",1,100.1,53.84,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",7,8,"t",1,0.411,45.55,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",7,9,"t",1,0.411,45.54,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",6,8,"t",1,1.233,45.67,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",6,9,"t",1,1.233,43.71,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",5,8,"t",1,3.7,48.41,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",5,9,"t",1,3.7,46.04,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",4,8,"t",1,11.1,46.52,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",4,9,"t",1,11.1,43.25,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",3,8,"t",1,33.3,45.53,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",3,9,"t",1,33.3,46.94,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",2,9,"t",1,99.9,38.66,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140646A","02Apr2014.Plate.20",2,8,"t",1,99.9,45.21,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",7,5,"t",1,0.412,40.24,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",7,4,"t",1,0.412,39.64,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",6,4,"t",1,1.235,40.26,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",5,4,"t",1,3.704,31.49,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",6,5,"t",1,1.235,37.67,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",5,5,"t",1,3.704,41.24,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",4,5,"t",1,11.111,42.52,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",4,4,"t",1,11.111,43.7,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",3,4,"t",1,33.333,49.78,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",2,4,"t",1,100,42.87,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",3,5,"t",1,33.333,46.74,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140640A","02Apr2014.Plate.10",2,5,"t",1,100,35.73,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",7,11,"t",1,0.041,15.86,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",7,10,"t",1,0.041,17.7,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",6,10,"t",1,0.124,15.42,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",5,10,"t",1,0.371,13.52,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",6,11,"t",1,0.124,20.86,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",5,11,"t",1,0.371,13.69,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",4,11,"t",1,1.112,20.13,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",4,10,"t",1,1.112,20.29,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",3,10,"t",1,3.337,20.88,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",2,10,"t",1,10.01,23.51,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",3,11,"t",1,3.337,21.02,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140636A","09Apr2014.Plate.2",2,11,"t",1,10.01,17.79,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",7,5,"t",1,0.412,34.88,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",7,4,"t",1,0.412,47.51,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",6,4,"t",1,1.235,43.73,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",5,4,"t",1,3.704,40,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",6,5,"t",1,1.235,38.97,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",5,5,"t",1,3.704,34.06,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",4,5,"t",1,11.111,35.2,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",4,4,"t",1,11.111,46.58,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",3,4,"t",1,33.333,41.76,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",3,5,"t",1,33.333,39.84,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",2,4,"t",1,100,33.78,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140624A","02Apr2014.Plate.11",2,5,"t",1,100,25.33,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",7,8,"t",1,0.412,49.15,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",7,9,"t",1,0.412,40.22,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",6,8,"t",1,1.235,45.89,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",6,9,"t",1,1.235,43.18,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",5,8,"t",1,3.704,55.79,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",5,9,"t",1,3.704,57.92,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",4,9,"t",1,11.111,72.31,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",4,8,"t",1,11.111,78.25,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",3,8,"t",1,33.333,65.68,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",3,9,"t",1,33.333,67.47,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",2,8,"t",1,100,73.75,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140612A","02Apr2014.Plate.23",2,9,"t",1,100,93.45,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",7,4,"t",1,0.412,15.33,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",7,5,"t",1,0.412,14.27,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",6,4,"t",1,1.236,13.72,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",6,5,"t",1,1.236,11.42,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",5,4,"t",1,3.707,12.01,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",5,5,"t",1,3.707,15.67,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",4,4,"t",1,11.122,15.31,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",4,5,"t",1,11.122,14.25,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",3,4,"t",1,33.367,16.91,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",3,5,"t",1,33.367,19.87,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",2,4,"t",1,100.1,13.13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140600A","09Apr2014.Plate.3",2,5,"t",1,100.1,13.11,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",7,8,"t",1,0.411,38.99,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",7,9,"t",1,0.411,32.86,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",6,8,"t",1,1.233,38.93,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",6,9,"t",1,1.233,35.52,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",5,8,"t",1,3.7,39.35,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",5,9,"t",1,3.7,37.96,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",4,8,"t",1,11.1,43.64,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",4,9,"t",1,11.1,38.28,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",3,8,"t",1,33.3,46.02,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",3,9,"t",1,33.3,46.98,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",2,8,"t",1,99.9,24.09,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140598A","02Apr2014.Plate.22",2,9,"t",1,99.9,21.31,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",7,8,"t",1,0.412,11.94,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",7,9,"t",1,0.412,10.5,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",6,8,"t",1,1.235,14.21,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",6,9,"t",1,1.235,12.54,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",5,8,"t",1,3.704,13.04,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",5,9,"t",1,3.704,13.75,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",4,8,"t",1,11.111,14.2,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",4,9,"t",1,11.111,13.06,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",3,9,"t",1,33.333,12.75,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",3,8,"t",1,33.333,14.06,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",2,8,"t",1,100,15.74,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140594A","26Mar2014.Plate.12",2,9,"t",1,100,15.11,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",7,10,"t",1,0.082,40.98,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",7,11,"t",1,0.082,38.81,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",6,10,"t",1,0.247,35.12,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",6,11,"t",1,0.247,37.62,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",5,10,"t",1,0.741,32.19,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",5,11,"t",1,0.741,32.22,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",4,10,"t",1,2.222,25.26,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",4,11,"t",1,2.222,26.23,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",3,10,"t",1,6.667,16.92,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",3,11,"t",1,6.667,15.16,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",2,10,"t",1,20,6.04,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140592A","02Apr2014.Plate.32",2,11,"t",1,20,5.26,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",7,8,"t",1,0.041,15.43,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",7,9,"t",1,0.041,13.79,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",6,8,"t",1,0.123,17.78,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",6,9,"t",1,0.123,15.78,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",5,8,"t",1,0.37,20.19,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",5,9,"t",1,0.37,13.73,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",4,8,"t",1,1.111,19.56,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",4,9,"t",1,1.111,19.51,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",3,8,"t",1,3.333,25.04,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",3,9,"t",1,3.333,17.63,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",2,8,"t",1,10,19.04,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140590A","09Apr2014.Plate.5",2,9,"t",1,10,17.94,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",7,6,"t",1,0.412,44,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",7,7,"t",1,0.412,42.72,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",6,6,"t",1,1.235,48.25,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",6,7,"t",1,1.235,42.16,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",5,7,"t",1,3.704,48.55,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",5,6,"t",1,3.704,46.99,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",4,6,"t",1,11.111,51.75,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",3,6,"t",1,33.333,47.11,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",4,7,"t",1,11.111,38.35,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",3,7,"t",1,33.333,41.53,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",2,7,"t",1,100,30.72,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140588A","02Apr2014.Plate.25",2,6,"t",1,100,36.06,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",7,6,"t",0,0.412,NA,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",6,6,"t",1,1.235,64.83,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",7,7,"t",1,0.412,60.02,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",6,7,"t",1,1.235,59.94,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",5,6,"t",1,3.704,62.62,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",5,7,"t",1,3.704,51.41,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",4,6,"t",1,11.111,59.91,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",4,7,"t",1,11.111,54.76,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",3,6,"t",1,33.333,35.67,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",3,7,"t",1,33.333,29.49,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",2,7,"t",1,100,9.59,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140586A","02Apr2014.Plate.24",2,6,"t",1,100,10.98,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",7,10,"t",1,0.411,53.68,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",7,11,"t",1,0.411,53.39,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",6,11,"t",1,1.233,53.91,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",6,10,"t",1,1.233,53.73,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",5,10,"t",1,3.7,52.14,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",5,11,"t",1,3.7,50.26,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",4,11,"t",1,11.1,49.8,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",4,10,"t",1,11.1,51.07,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",3,10,"t",1,33.3,43.7,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",3,11,"t",1,33.3,40.79,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",2,11,"t",1,99.9,20.86,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140564A","02Apr2014.Plate.7",2,10,"t",1,99.9,26.26,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",7,6,"t",1,0.411,47.2,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",7,7,"t",1,0.411,35.17,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",6,7,"t",1,1.233,45.95,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",6,6,"t",1,1.233,46.27,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",5,6,"t",1,3.7,49.66,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",5,7,"t",1,3.7,40.43,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",4,7,"t",1,11.1,48.22,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",4,6,"t",1,11.1,49.78,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",3,6,"t",1,33.3,50.19,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",2,6,"t",1,99.9,42.95,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",3,7,"t",1,33.3,47.19,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140548A","02Apr2014.Plate.8",2,7,"t",1,99.9,46.83,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",7,8,"t",1,0.412,47.2,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",6,8,"t",1,1.235,44.96,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",7,9,"t",1,0.412,42.83,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",6,9,"t",1,1.235,46.5,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",5,8,"t",1,3.704,45.68,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",5,9,"t",1,3.704,40.48,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",4,8,"t",1,11.111,38.52,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",4,9,"t",1,11.111,35.89,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",3,8,"t",1,33.333,24.48,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",3,9,"t",1,33.333,27.48,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",2,8,"t",1,100,8.69,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140544A","02Apr2014.Plate.15",2,9,"t",1,100,13.33,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",7,8,"t",1,0.412,10.16,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",6,8,"t",1,1.236,8.08,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",7,9,"t",1,0.412,7.64,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",6,9,"t",1,1.236,7.9,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",5,8,"t",1,3.707,8.29,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",5,9,"t",1,3.707,8.22,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",4,8,"t",1,11.122,11.24,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",4,9,"t",1,11.122,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",3,8,"t",1,33.367,7.65,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",3,9,"t",1,33.367,8.65,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",2,8,"t",1,100.1,5.9,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140538A","26Mar2014.Plate.16",2,9,"t",1,100.1,5.55,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",7,8,"t",1,0.041,40.26,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",7,9,"t",1,0.041,39.38,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",6,8,"t",1,0.123,43.79,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",6,9,"t",1,0.123,39.59,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",5,8,"t",1,0.37,29.09,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",5,9,"t",1,0.37,30.39,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",4,8,"t",1,1.11,22.87,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",4,9,"t",1,1.11,20.07,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",3,8,"t",1,3.33,10.33,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",3,9,"t",1,3.33,10.23,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",2,8,"t",1,9.99,4.65,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140534A","02Apr2014.Plate.16",2,9,"t",1,9.99,4.43,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",7,10,"t",1,0.411,43.61,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",7,11,"t",1,0.411,42.33,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",6,10,"t",1,1.233,41.24,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",6,11,"t",1,1.233,38.67,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",5,10,"t",1,3.7,39.44,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",5,11,"t",1,3.7,33.6,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",4,10,"t",1,11.1,36.5,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",4,11,"t",1,11.1,33.24,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",3,10,"t",1,33.3,29.94,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",3,11,"t",1,33.3,25.16,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",2,10,"t",1,99.9,17.39,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140532A","02Apr14.Plate.2",2,11,"t",1,99.9,15.49,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",7,6,"t",1,0.411,9.76,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",7,7,"t",1,0.411,10.37,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",6,6,"t",1,1.233,10.03,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",6,7,"t",1,1.233,8.88,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",5,6,"t",1,3.7,8.95,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",5,7,"t",1,3.7,7.25,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",4,6,"t",1,11.1,8.42,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",3,6,"t",1,33.3,8.78,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",4,7,"t",1,11.1,7.53,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",3,7,"t",1,33.3,7.73,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",2,6,"t",1,99.9,12.43,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140530A","09Apr2014.Plate.5",2,7,"t",1,99.9,8.8,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",7,4,"t",1,0.041,43.75,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",7,5,"t",1,0.041,38.49,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",6,4,"t",1,0.123,39.97,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",6,5,"t",1,0.123,39.99,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",5,4,"t",1,0.37,36.53,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",5,5,"t",1,0.37,33.52,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",4,4,"t",1,1.111,30.75,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",4,5,"t",1,1.111,30.36,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",3,4,"t",1,3.333,18.13,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",3,5,"t",1,3.333,17.6,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",2,4,"t",1,10,5.76,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140528A","02Apr2014.Plate.19",2,5,"t",1,10,4.49,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",7,8,"t",1,0.412,36.91,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",7,9,"t",1,0.412,36.77,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",6,8,"t",1,1.236,33.62,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",6,9,"t",1,1.236,28.96,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",5,8,"t",1,3.707,27.11,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",5,9,"t",1,3.707,26.22,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",4,8,"t",1,11.122,27.25,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",4,9,"t",1,11.122,26.72,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",3,8,"t",1,33.367,23.3,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",3,9,"t",1,33.367,23.66,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",2,8,"t",1,100.1,18.65,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140526A","02Apr2014.Plate.10",2,9,"t",1,100.1,12.92,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",7,10,"t",1,0.041,40.6,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",7,11,"t",1,0.041,40.99,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",6,10,"t",1,0.123,47.62,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",6,11,"t",1,0.123,37.51,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",5,10,"t",1,0.37,45.49,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",5,11,"t",1,0.37,39.06,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",4,10,"t",1,1.111,43.86,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",4,11,"t",1,1.111,36.25,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",3,10,"t",1,3.333,28.51,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",3,11,"t",1,3.333,29.35,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",2,11,"t",1,10,14.28,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140512A","02Apr2014.Plate.27",2,10,"t",1,10,15.75,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",7,10,"t",1,0.206,45.39,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",6,10,"t",1,0.617,36.59,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",7,11,"t",1,0.206,42.78,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",6,11,"t",1,0.617,42.33,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",5,10,"t",1,1.852,42.73,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",4,10,"t",1,5.556,35.44,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",5,11,"t",1,1.852,35.42,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",4,11,"t",1,5.556,36.98,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",3,11,"t",1,16.667,28.02,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",3,10,"t",1,16.667,23.26,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",2,10,"t",1,50,7.54,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",7,8,"t",1,0.412,16.58,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140510A","02Apr2014.Plate.30",2,11,"t",1,50,8.82,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",7,9,"t",1,0.412,15.41,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",6,8,"t",1,1.236,19.65,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",6,9,"t",1,1.236,12.96,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",5,8,"t",1,3.707,18.5,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",5,9,"t",1,3.707,15.73,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",4,8,"t",1,11.122,13.32,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",4,9,"t",1,11.122,11.12,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",3,8,"t",1,33.367,11.77,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",3,9,"t",1,33.367,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",2,8,"t",1,100.1,14.15,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140508A","09Apr2014.Plate.6",2,9,"t",1,100.1,11.75,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",7,8,"t",1,0.004,40.64,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",7,9,"t",1,0.004,32.27,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",6,8,"t",1,0.012,45.34,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",6,9,"t",1,0.012,34.47,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",5,8,"t",1,0.037,38.31,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",5,9,"t",1,0.037,39.88,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",4,8,"t",1,0.111,37.59,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",4,9,"t",1,0.111,40.73,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",3,8,"t",1,0.334,44.58,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",3,9,"t",1,0.334,43.52,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",2,8,"t",1,1.001,47.02,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140506A","02Apr2014.Plate.8",2,9,"t",1,1.001,41.21,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",7,8,"t",1,0.411,41.73,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",7,9,"t",1,0.411,42.68,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",6,8,"t",1,1.233,42.14,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",6,9,"t",1,1.233,42.73,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",5,8,"t",1,3.7,42.97,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",5,9,"t",1,3.7,36.09,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",4,8,"t",1,11.1,36.16,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",4,9,"t",1,11.1,35.03,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",3,8,"t",1,33.3,26.38,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",3,9,"t",1,33.3,26.23,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",2,8,"t",1,99.9,18.82,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140500A","02Apr2014.Plate.28",2,9,"t",1,99.9,17.64,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",7,10,"t",1,0.412,34.68,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",7,11,"t",1,0.412,30.61,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",6,10,"t",1,1.235,32.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",6,11,"t",1,1.235,31.11,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",5,10,"t",1,3.704,32.28,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",5,11,"t",1,3.704,32.11,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",4,10,"t",1,11.111,34.98,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",4,11,"t",1,11.111,41.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",3,10,"t",1,33.333,35.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",3,11,"t",1,33.333,30.68,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",2,10,"t",1,100,36.05,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140490A","02Apr2014.Plate.29",2,11,"t",1,100,27.88,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",7,8,"t",1,0.041,43.99,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",7,9,"t",1,0.041,40.86,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",6,8,"t",1,0.124,50.67,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",6,9,"t",1,0.124,43.84,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",5,8,"t",1,0.371,44.44,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",5,9,"t",1,0.371,47.14,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",4,8,"t",1,1.112,46.46,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",4,9,"t",1,1.112,39.73,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",3,8,"t",1,3.337,41.9,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",3,9,"t",1,3.337,35.04,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",2,8,"t",1,10.01,37.97,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140482A","02Apr2014.Plate.25",2,9,"t",1,10.01,33.33,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",7,4,"t",1,0.412,41.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",7,5,"t",1,0.412,35.62,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",6,4,"t",1,1.235,38.79,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",6,5,"t",1,1.235,37.64,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",5,4,"t",1,3.704,37.83,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",5,5,"t",1,3.704,41.84,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",4,4,"t",1,11.111,33.25,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",4,5,"t",1,11.111,33.05,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",3,4,"t",1,33.333,24.01,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",3,5,"t",1,33.333,22.48,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",2,4,"t",1,100,14.23,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140478A","02Apr2014.Plate.29",2,5,"t",1,100,12.22,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",7,10,"t",1,0.412,19.77,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",6,10,"t",1,1.235,19.39,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",7,11,"t",1,0.412,13.55,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",6,11,"t",1,1.235,15.29,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",5,10,"t",1,3.704,16.48,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",5,11,"t",1,3.704,12.06,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",4,10,"t",1,11.111,15.18,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",4,11,"t",1,11.111,11.78,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",3,10,"t",1,33.333,19.95,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",3,11,"t",1,33.333,17.65,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",2,10,"t",1,100,25.95,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140476A","09Apr2014.Plate.6",2,11,"t",1,100,17.84,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",7,4,"t",1,0.001,46.75,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",7,5,"t",1,0.001,45.47,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",6,4,"t",1,0.002,47.3,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",6,5,"t",1,0.002,39.34,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",5,4,"t",1,0.007,44.85,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",5,5,"t",1,0.007,41.33,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",4,4,"t",1,0.022,49.33,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",4,5,"t",1,0.022,44.48,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",3,4,"t",1,0.067,41.08,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",3,5,"t",1,0.067,34.72,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",2,4,"t",1,0.2,27.72,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140474A","02Apr2014.Plate.30",2,5,"t",1,0.2,24.94,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",7,8,"t",1,0.412,39.56,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",7,9,"t",1,0.412,34.87,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",6,8,"t",1,1.236,38.17,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",6,9,"t",1,1.236,36.87,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",5,8,"t",1,3.707,42.41,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",5,9,"t",1,3.707,37.12,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",4,8,"t",1,11.122,38.5,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",4,9,"t",1,11.122,38.3,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",3,8,"t",1,33.367,36.3,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",3,9,"t",1,33.367,37.46,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",2,8,"t",1,100.1,27.36,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140468A","02Apr2014.Plate.7",2,9,"t",1,100.1,31.55,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",7,10,"t",1,0.206,5.66,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",7,11,"t",1,0.206,7.63,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",6,10,"t",1,0.617,7.32,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",6,11,"t",1,0.617,7.6,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",5,10,"t",1,1.852,8.14,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",5,11,"t",1,1.852,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",4,10,"t",1,5.556,10.58,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",3,10,"t",1,16.667,13.01,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",4,11,"t",1,5.556,11.41,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",3,11,"t",1,16.667,10.07,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",2,10,"t",1,50,11.87,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140464A","26Mar2014.Plate.16",2,11,"t",1,50,10.33,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",7,10,"t",1,0.041,11.79,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",7,11,"t",1,0.041,9.38,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",6,10,"t",1,0.123,6.32,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",6,11,"t",1,0.123,6.16,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",5,10,"t",1,0.37,8.58,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",5,11,"t",1,0.37,7.69,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",4,10,"t",1,1.11,8.1,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",4,11,"t",1,1.11,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",3,10,"t",1,3.33,9.63,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",3,11,"t",1,3.33,6.92,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",2,10,"t",1,9.99,9.42,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140452A","26Mar2014.Plate.13",2,11,"t",1,9.99,8.7,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",7,10,"t",1,0.206,39.25,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",7,11,"t",1,0.206,36.46,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",6,10,"t",1,0.617,37.31,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",6,11,"t",1,0.617,35.43,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",5,10,"t",1,1.852,35.94,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",5,11,"t",1,1.852,41.62,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",4,10,"t",1,5.556,36.46,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",4,11,"t",1,5.556,37.72,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",3,10,"t",1,16.667,55.97,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",3,11,"t",1,16.667,37.82,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",2,10,"t",1,50,48.38,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140450A","02Apr2014.Plate.4",2,11,"t",1,50,52.53,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",7,6,"t",1,0.041,8.63,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",7,7,"t",1,0.041,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",6,6,"t",1,0.124,9.56,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",6,7,"t",1,0.124,9.33,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",5,6,"t",1,0.371,7.63,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",5,7,"t",1,0.371,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",4,6,"t",1,1.112,7.95,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",4,7,"t",1,1.112,8.45,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",3,7,"t",1,3.337,8.09,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",3,6,"t",1,3.337,8.49,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",2,6,"t",1,10.01,9.81,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",7,6,"t",1,0.411,47.18,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140444A","26Mar2014.Plate.13",2,7,"t",1,10.01,7.84,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",7,7,"t",1,0.411,40.7,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",6,7,"t",1,1.233,40.01,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",6,6,"t",1,1.233,48.66,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",5,6,"t",1,3.7,43.16,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",4,6,"t",1,11.1,44.78,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",5,7,"t",1,3.7,42.68,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",4,7,"t",1,11.1,39.45,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",3,7,"t",1,33.3,36.12,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",3,6,"t",1,33.3,42.04,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",2,6,"t",1,99.9,32.52,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140436A","02Apr14.Plate.2",2,7,"t",1,99.9,36.31,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",7,8,"t",1,0.002,33.33,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",7,9,"t",1,0.002,30.38,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",6,8,"t",1,0.006,22.98,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",6,9,"t",1,0.006,21.36,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",5,8,"t",1,0.018,11.71,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",5,9,"t",1,0.018,10.41,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",4,8,"t",1,0.055,2.55,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",3,8,"t",1,0.166,0.71,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",4,9,"t",1,0.055,2.57,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",3,9,"t",1,0.166,0.78,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",2,8,"t",0,0.499,NA,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140418A","02Apr2014.Plate.27",2,9,"t",0,0.499,NA,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",7,4,"t",1,0.206,6.4,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",7,5,"t",1,0.206,5.78,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",6,4,"t",1,0.617,6.91,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",6,5,"t",1,0.617,5.34,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",5,4,"t",1,1.852,6.79,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",5,5,"t",1,1.852,5.43,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",4,4,"t",1,5.556,7.11,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",4,5,"t",1,5.556,5.6,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",3,4,"t",1,16.667,7.05,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",3,5,"t",1,16.667,7,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",2,4,"t",1,50,7.53,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140394A","26Mar2014.Plate.9",2,5,"t",1,50,7.06,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",7,10,"t",1,0.412,17.85,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",7,11,"t",1,0.412,17.04,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",6,10,"t",1,1.236,17.12,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",6,11,"t",1,1.236,14.8,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",5,10,"t",1,3.707,16.66,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",5,11,"t",1,3.707,15.06,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",4,10,"t",1,11.122,20.52,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",4,11,"t",1,11.122,15.41,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",3,10,"t",1,33.367,23.44,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",3,11,"t",1,33.367,19.11,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",2,10,"t",1,100.1,16.93,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140392A","09Apr2014.Plate.9",2,11,"t",1,100.1,15.65,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",7,6,"t",1,0.412,44.51,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",7,7,"t",1,0.412,44.29,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",6,6,"t",1,1.235,47.42,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",6,7,"t",1,1.235,41.75,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",5,6,"t",1,3.704,42.73,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",5,7,"t",1,3.704,41.27,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",4,6,"t",1,11.111,42.29,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",4,7,"t",1,11.111,33.14,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",3,6,"t",1,33.333,33.72,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",4,4,"t",1,11.122,48.96,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",5,5,"t",1,3.707,42.55,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",5,4,"t",1,3.707,37.37,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",6,5,"t",1,1.236,35.15,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",6,4,"t",1,1.236,40.05,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",7,5,"t",1,0.412,42.04,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",7,4,"t",1,0.412,41.01,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",2,7,"t",1,100,24.18,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",2,6,"t",1,100,30.29,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"01140388A","02Apr2014.Plate.27",3,7,"t",1,33.333,33.25,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.20",7,3,"n",1,NA,64.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.19",7,3,"n",1,NA,63.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.20",6,3,"n",1,NA,58.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.19",6,3,"n",1,NA,66.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.9",6,3,"n",1,NA,59.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.9",7,3,"n",1,NA,58.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.8",6,3,"n",1,NA,67.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.8",7,3,"n",1,NA,72.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.7",7,3,"n",1,NA,71.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.6",7,3,"n",1,NA,65.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.7",6,3,"n",1,NA,57.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.5",7,3,"n",1,NA,66.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.6",6,3,"n",1,NA,67.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.4",7,3,"n",1,NA,55.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.5",6,3,"n",1,NA,67.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.4",6,3,"n",1,NA,74.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.3",6,3,"n",1,NA,75.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.3",7,3,"n",1,NA,69.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.22",7,3,"n",1,NA,67.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.21",7,3,"n",1,NA,68.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.22",6,3,"n",1,NA,69.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.21",6,3,"n",1,NA,66.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.2",6,3,"n",1,NA,60.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.2",7,3,"n",1,NA,65.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.18",7,3,"n",1,NA,63.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.17",7,3,"n",1,NA,59.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.18",6,3,"n",1,NA,62.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.16",7,3,"n",1,NA,61.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.17",6,3,"n",1,NA,58.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.15",7,3,"n",1,NA,56.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.16",6,3,"n",1,NA,63.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.15",6,3,"n",1,NA,63.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.14",6,3,"n",1,NA,63.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.14",7,3,"n",1,NA,62.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.13",7,3,"n",1,NA,64.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.13",6,3,"n",1,NA,61.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.12",6,3,"n",1,NA,63.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.12",7,3,"n",1,NA,56.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.11",7,3,"n",1,NA,63.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.10",7,3,"n",1,NA,69.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.11",6,3,"n",1,NA,62.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.1",7,3,"n",1,NA,68.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.10",6,3,"n",1,NA,56.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"DMSO","03Sep2014.Plate.1",6,3,"n",1,NA,61.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.9",7,3,"n",1,NA,8.14,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.9",6,3,"n",1,NA,6.36,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.8",7,3,"n",1,NA,4.41,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.8",6,3,"n",1,NA,4.34,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.7",6,3,"n",1,NA,7.38,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.7",7,3,"n",1,NA,7.29,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.6",7,3,"n",1,NA,8.01,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.5",7,3,"n",1,NA,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.6",6,3,"n",1,NA,8.34,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.5",6,3,"n",1,NA,8.43,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.4",6,3,"n",1,NA,6.3,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.4",7,3,"n",1,NA,7.66,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.3",7,3,"n",1,NA,8.62,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.3",6,3,"n",1,NA,6.57,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.21",7,3,"n",1,NA,8.81,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.21",6,3,"n",1,NA,6.38,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.20",7,3,"n",1,NA,7.28,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.20",6,3,"n",1,NA,7.5,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.2",7,3,"n",1,NA,6.95,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.19",7,3,"n",1,NA,4.91,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.2",6,3,"n",1,NA,8.03,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.19",6,3,"n",1,NA,5.47,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.18",6,3,"n",1,NA,6.08,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.18",7,3,"n",1,NA,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.17",6,3,"n",1,NA,8.52,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.17",7,3,"n",1,NA,9.94,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.16",7,3,"n",1,NA,10.3,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.16",6,3,"n",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.15",7,3,"n",1,NA,10.16,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.15",6,3,"n",1,NA,9.6,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.14",7,3,"n",1,NA,10.15,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.14",6,3,"n",1,NA,5.88,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.13",7,3,"n",1,NA,11.89,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.13",6,3,"n",1,NA,10.57,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.12",7,3,"n",1,NA,7.73,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.11",7,3,"n",1,NA,10.14,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.12",6,3,"n",1,NA,8,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.10",7,3,"n",1,NA,8.98,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.11",6,3,"n",1,NA,7.74,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.10",6,3,"n",1,NA,8.38,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.1",7,3,"n",1,NA,8.74,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.9",7,3,"n",1,NA,16.68,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"DMSO","26Mar2014.Plate.1",6,3,"n",1,NA,7.41,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.9",6,3,"n",1,NA,21.28,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.8",7,3,"n",1,NA,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.8",6,3,"n",1,NA,14.36,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.7",7,3,"n",1,NA,15.76,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.7",6,3,"n",1,NA,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.6",6,3,"n",1,NA,16.16,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.6",7,3,"n",1,NA,17.73,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.5",7,3,"n",1,NA,14.28,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.5",6,3,"n",1,NA,13.76,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.4",7,3,"n",1,NA,13.19,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.4",6,3,"n",1,NA,14.43,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.34",7,3,"n",1,NA,11.57,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.33",7,3,"n",1,NA,13.34,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.34",6,3,"n",1,NA,10.19,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.33",6,3,"n",1,NA,11.9,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.32",6,3,"n",1,NA,11.02,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.32",7,3,"n",1,NA,10.92,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.31",7,3,"n",1,NA,13.07,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.31",6,3,"n",1,NA,10.61,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.30",7,3,"n",1,NA,12.12,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.30",6,3,"n",1,NA,9.2,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.3",7,3,"n",1,NA,12.55,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.3",6,3,"n",1,NA,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.29",7,3,"n",1,NA,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.28",7,3,"n",1,NA,13.73,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.29",6,3,"n",1,NA,10.44,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.27",7,3,"n",1,NA,11.78,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.28",6,3,"n",1,NA,10.39,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.27",6,3,"n",1,NA,10.54,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.26",7,3,"n",1,NA,12.77,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.26",6,3,"n",1,NA,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.25",7,3,"n",1,NA,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.25",6,3,"n",1,NA,11.76,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.24",7,3,"n",1,NA,9.68,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.23",7,3,"n",1,NA,11.14,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.24",6,3,"n",1,NA,9.59,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.23",6,3,"n",1,NA,9.9,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.22",6,3,"n",1,NA,8.78,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.22",7,3,"n",1,NA,10.57,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.21",7,3,"n",1,NA,9.72,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.21",6,3,"n",1,NA,8.59,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.20",7,3,"n",1,NA,15.15,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.20",6,3,"n",1,NA,12.45,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.2",7,3,"n",1,NA,11.84,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.2",6,3,"n",1,NA,11.93,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.19",7,3,"n",1,NA,12.14,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.19",6,3,"n",1,NA,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.18",6,3,"n",1,NA,14.85,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.18",7,3,"n",1,NA,12.65,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.17",7,3,"n",1,NA,12.51,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.16",7,3,"n",1,NA,14.67,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.17",6,3,"n",1,NA,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.16",6,3,"n",1,NA,13.79,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.15",6,3,"n",1,NA,11.07,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.15",7,3,"n",1,NA,11.62,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.14",7,3,"n",1,NA,14.94,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.14",6,3,"n",1,NA,12.1,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.13",7,3,"n",1,NA,14.72,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.13",6,3,"n",1,NA,11.08,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.12",7,3,"n",1,NA,16.31,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.11",7,3,"n",1,NA,13.52,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.12",6,3,"n",1,NA,14.94,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.10",7,3,"n",1,NA,14.56,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.11",6,3,"n",1,NA,16.31,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.10",6,3,"n",1,NA,15.74,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.1",7,3,"n",1,NA,15.24,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"DMSO","09Apr2014.Plate.1",6,3,"n",1,NA,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.9",7,3,"n",1,NA,43.94,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.9",6,3,"n",1,NA,42.6,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.8",6,3,"n",1,NA,39.98,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.8",7,3,"n",1,NA,45.88,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.7",7,3,"n",1,NA,37.54,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.6",7,3,"n",1,NA,41.79,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.7",6,3,"n",1,NA,35.51,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.5",7,3,"n",1,NA,21.64,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.6",6,3,"n",1,NA,39.03,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.5",6,3,"n",1,NA,39.38,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.31",6,3,"n",1,NA,38.88,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.31",7,3,"n",1,NA,42.57,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.32",6,3,"n",1,NA,46.11,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.32",7,3,"n",1,NA,43.18,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.4",6,3,"n",1,NA,22.66,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.4",7,3,"n",1,NA,33.37,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",4,5,"t",1,11.122,42.75,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",3,4,"t",1,33.367,35.82,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",3,5,"t",1,33.367,38.85,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",2,4,"t",1,100.1,24.3,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140386A","02Apr2014.Plate.22",2,5,"t",1,100.1,22.59,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",7,8,"t",1,0.041,13.85,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",7,9,"t",1,0.041,16.12,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",6,8,"t",1,0.124,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",6,9,"t",1,0.124,12.4,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",5,8,"t",1,0.371,14.71,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",5,9,"t",1,0.371,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",4,8,"t",1,1.112,15.4,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",4,9,"t",1,1.112,13.85,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",3,8,"t",1,3.337,15.7,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",3,9,"t",1,3.337,14.14,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",2,8,"t",1,10.01,13.79,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140382A","09Apr2014.Plate.2",2,9,"t",1,10.01,15.46,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",7,10,"t",1,0.004,45.24,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",6,10,"t",1,0.012,42.28,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",7,11,"t",1,0.004,41.51,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",6,11,"t",1,0.012,44.54,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",5,10,"t",1,0.037,47.12,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",4,10,"t",1,0.111,43.47,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",5,11,"t",1,0.037,41.62,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",4,11,"t",1,0.111,46.48,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",3,10,"t",1,0.334,37.99,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",3,11,"t",1,0.334,41.27,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",2,10,"t",1,1.001,30.34,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140376A","02Apr2014.Plate.13",2,11,"t",1,1.001,31.4,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",7,10,"t",1,0.411,10.24,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",7,11,"t",1,0.411,7.93,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",6,10,"t",1,1.233,10.77,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",6,11,"t",1,1.233,7.45,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",5,10,"t",1,3.7,9.03,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",5,11,"t",1,3.7,11.54,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",4,10,"t",1,11.1,12.5,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",4,11,"t",1,11.1,10.74,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",3,10,"t",1,33.3,12.03,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",3,11,"t",1,33.3,12.58,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",2,10,"t",1,99.9,15.7,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140364A","26Mar2014.Plate.19",2,11,"t",1,99.9,15.41,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",7,6,"t",1,0.412,7.32,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",7,7,"t",1,0.412,7,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",6,6,"t",1,1.235,9.54,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",6,7,"t",1,1.235,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",5,6,"t",1,3.704,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",5,7,"t",1,3.704,10.8,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",4,6,"t",1,11.111,9.28,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",4,7,"t",1,11.111,9.98,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",3,6,"t",1,33.333,10.44,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",3,7,"t",1,33.333,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",2,6,"t",1,100,9.85,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140358A","26Mar2014.Plate.20",2,7,"t",1,100,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",7,10,"t",1,0.082,8.81,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",7,11,"t",1,0.082,8.33,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",6,10,"t",1,0.247,11.06,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",6,11,"t",1,0.247,9.53,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",5,10,"t",1,0.741,14.07,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",5,11,"t",1,0.741,8.61,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",4,10,"t",1,2.222,10.13,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",4,11,"t",1,2.222,8.46,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",3,10,"t",1,6.667,12.57,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",3,11,"t",1,6.667,12.23,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",2,10,"t",1,20,15.77,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140354A","26Mar2014.Plate.17",2,11,"t",1,20,14.23,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",7,4,"t",1,0.411,10.63,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",7,5,"t",1,0.411,7.98,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",6,4,"t",1,1.233,7.94,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",6,5,"t",1,1.233,8.34,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",5,4,"t",1,3.7,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",5,5,"t",1,3.7,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",4,4,"t",1,11.1,9.75,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",4,5,"t",1,11.1,12.2,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",3,4,"t",1,33.3,10.81,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",3,5,"t",1,33.3,11.14,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",2,4,"t",1,99.9,16.1,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140352A","26Mar2014.Plate.11",2,5,"t",1,99.9,12.5,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",7,6,"t",1,0.412,45.33,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",7,7,"t",1,0.412,37.23,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",6,6,"t",1,1.235,37.68,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",6,7,"t",1,1.235,34.03,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",5,6,"t",1,3.704,42.55,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",5,7,"t",1,3.704,40.24,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",4,6,"t",1,11.111,50.51,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",4,7,"t",1,11.111,43.75,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",3,6,"t",1,33.333,54.75,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",3,7,"t",1,33.333,49.29,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",2,6,"t",1,100,62.32,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140350A","02Apr2014.Plate.23",2,7,"t",1,100,53.58,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",7,8,"t",1,0.004,42.28,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",7,9,"t",1,0.004,39.53,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",6,8,"t",1,0.012,41.6,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",6,9,"t",1,0.012,42.71,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",5,8,"t",1,0.037,40.07,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",5,9,"t",1,0.037,36.58,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",4,8,"t",1,0.111,31.09,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",4,9,"t",1,0.111,32.72,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",3,8,"t",1,0.333,26.22,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",3,9,"t",1,0.333,25.38,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",2,8,"t",1,1,17.9,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140342A","02Apr2014.Plate.5",2,9,"t",1,1,20.76,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",7,6,"t",1,0.411,14.49,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",7,7,"t",1,0.411,13.4,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",6,6,"t",1,1.233,15.48,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",6,7,"t",1,1.233,13.5,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",5,6,"t",1,3.7,16.32,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",5,7,"t",1,3.7,13.23,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",4,6,"t",1,11.1,11.63,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",4,7,"t",1,11.1,9.28,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",3,6,"t",1,33.3,15.71,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",3,7,"t",1,33.3,13.5,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",2,6,"t",1,99.9,11.33,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140340A","09Apr2014.Plate.6",2,7,"t",1,99.9,9.57,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",7,4,"t",1,0.411,45.14,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",7,5,"t",1,0.411,43.42,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",6,4,"t",1,1.233,39.16,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",6,5,"t",1,1.233,42.02,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",5,4,"t",1,3.7,49.29,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",5,5,"t",1,3.7,46.98,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",4,4,"t",1,11.1,51.16,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",4,5,"t",1,11.1,44.75,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",3,4,"t",1,33.3,51.83,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",3,5,"t",1,33.3,44.68,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",2,4,"t",1,99.9,45.52,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140336A","02Apr2014.Plate.13",2,5,"t",1,99.9,44.93,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",7,8,"t",1,0.411,7.63,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",7,9,"t",1,0.411,7.58,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",6,8,"t",1,1.233,11.05,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",6,9,"t",1,1.233,8.19,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",5,8,"t",1,3.7,9,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",5,9,"t",1,3.7,10.11,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",4,8,"t",1,11.1,10.29,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",4,9,"t",1,11.1,9.91,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",3,8,"t",1,33.3,11.27,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",3,9,"t",1,33.3,12.27,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",2,8,"t",1,99.9,12.07,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140332A","26Mar2014.Plate.17",2,9,"t",1,99.9,10.79,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",7,4,"t",1,0.411,42.61,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",7,5,"t",1,0.411,41.12,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",6,4,"t",1,1.233,38.56,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",6,5,"t",1,1.233,37.66,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",5,4,"t",1,3.7,46.75,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",5,5,"t",1,3.7,42.66,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",4,4,"t",1,11.1,41.31,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",4,5,"t",1,11.1,44.18,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",3,4,"t",1,33.3,40.39,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",3,5,"t",1,33.3,39.23,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",2,4,"t",1,99.9,14.55,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140322A","02Apr2014.Plate.9",2,5,"t",1,99.9,18.79,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",7,6,"t",1,0.004,38.46,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",7,7,"t",1,0.004,37.56,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",6,6,"t",1,0.012,32.62,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",6,7,"t",1,0.012,40.72,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",5,6,"t",1,0.037,43.07,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",5,7,"t",1,0.037,37.67,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",4,6,"t",1,0.111,34.28,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",4,7,"t",1,0.111,32.66,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",3,6,"t",1,0.333,37.18,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",3,7,"t",1,0.333,36.49,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",2,6,"t",1,0.999,34.91,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140314A","02Apr2014.Plate.4",2,7,"t",1,0.999,30.63,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",7,8,"t",1,0.041,40.65,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",7,9,"t",1,0.041,32.78,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",6,8,"t",1,0.123,40.15,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",6,9,"t",1,0.123,35.42,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",5,8,"t",1,0.37,48.24,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",5,9,"t",1,0.37,46.79,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",4,8,"t",1,1.111,46.06,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",4,9,"t",1,1.111,49.39,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",3,8,"t",1,3.333,52.98,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",3,9,"t",1,3.333,55.75,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",2,8,"t",1,10,41.29,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140310A","02Apr2014.Plate.4",2,9,"t",1,10,41.68,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",7,4,"t",1,0.041,44.81,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",7,5,"t",1,0.041,49,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",6,4,"t",1,0.124,45.55,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",6,5,"t",1,0.124,50.6,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",5,4,"t",1,0.371,40.94,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",5,5,"t",1,0.371,45.6,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",4,4,"t",1,1.112,42.33,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",4,5,"t",1,1.112,41.89,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",3,4,"t",1,3.337,46.63,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",3,5,"t",1,3.337,45.02,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",2,4,"t",1,10.01,41.37,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140302A","02Apr2014.Plate.12",2,5,"t",1,10.01,41.89,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",7,4,"t",1,0.041,10.67,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",7,5,"t",1,0.041,8.95,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",6,4,"t",1,0.123,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",6,5,"t",1,0.123,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",5,4,"t",1,0.37,7.77,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",5,5,"t",1,0.37,5.72,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",4,4,"t",1,1.111,7.21,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",4,5,"t",1,1.111,7.14,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",3,4,"t",1,3.333,6.37,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",3,5,"t",1,3.333,6.25,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",2,4,"t",1,10,3.62,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140300A","26Mar2014.Plate.13",2,5,"t",1,10,3.18,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",7,8,"t",1,0.411,7.54,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",7,9,"t",1,0.411,8.09,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",6,8,"t",1,1.233,9.53,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",6,9,"t",1,1.233,10.11,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",5,8,"t",1,3.7,8.74,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",5,9,"t",1,3.7,8.41,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",4,8,"t",1,11.1,9.58,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",4,9,"t",1,11.1,9.23,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",3,8,"t",1,33.3,12.84,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",3,9,"t",1,33.3,13.24,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",2,8,"t",1,99.9,12.95,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140298A","26Mar2014.Plate.18",2,9,"t",1,99.9,11.84,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",7,6,"t",1,0.412,39.77,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",7,7,"t",1,0.412,38.7,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",6,6,"t",1,1.235,41.05,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",6,7,"t",1,1.235,41.17,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",5,6,"t",1,3.704,37.27,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",5,7,"t",1,3.704,42.8,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",4,6,"t",1,11.111,35.01,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",4,7,"t",1,11.111,36.38,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",3,6,"t",1,33.333,21.49,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",3,7,"t",1,33.333,22.83,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",2,6,"t",1,100,8.91,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140296A","02Apr2014.Plate.32",2,7,"t",1,100,8.64,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",7,10,"t",1,0.412,8.68,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",7,11,"t",1,0.412,9.11,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",6,10,"t",1,1.235,7.79,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",6,11,"t",1,1.235,7.58,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",5,10,"t",1,3.704,5.67,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",5,11,"t",1,3.704,4.23,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",4,10,"t",1,11.111,3.59,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",4,11,"t",1,11.111,2.59,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",3,10,"t",1,33.333,1.56,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",3,11,"t",1,33.333,1.45,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",2,10,"t",1,100,0.73,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140292A","26Mar2014.Plate.8",2,11,"t",1,100,0.66,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",7,8,"t",1,0.411,41.19,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",7,9,"t",1,0.411,41.53,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",6,8,"t",1,1.233,42.09,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",6,9,"t",1,1.233,37.77,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",5,8,"t",1,3.7,41.31,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",5,9,"t",1,3.7,44.76,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",4,8,"t",1,11.1,43.55,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",4,9,"t",1,11.1,38.67,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",3,8,"t",1,33.3,40.83,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",3,9,"t",1,33.3,37.69,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",2,8,"t",1,99.9,40.08,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140274A","02Apr2014.Plate.1",2,9,"t",1,99.9,36.32,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",7,4,"t",1,0.412,9.64,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",7,5,"t",1,0.412,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",6,4,"t",1,1.236,10.38,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",6,5,"t",1,1.236,9.16,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",5,4,"t",1,3.707,8.85,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",5,5,"t",1,3.707,10.09,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",4,4,"t",1,11.122,12.62,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",4,5,"t",1,11.122,8.74,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",3,4,"t",1,33.367,9.75,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",3,5,"t",1,33.367,7.25,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",2,4,"t",1,100.1,3.36,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140270A","26Mar2014.Plate.17",2,5,"t",1,100.1,1.94,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",7,4,"t",1,0.082,17.93,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",7,5,"t",1,0.082,14.47,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",6,4,"t",1,0.247,17.32,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",6,5,"t",1,0.247,15.47,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",5,4,"t",1,0.741,12.35,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",5,5,"t",1,0.741,11.61,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",4,4,"t",1,2.222,12.46,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",4,5,"t",1,2.222,15.38,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",3,4,"t",1,6.667,13.76,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",3,5,"t",1,6.667,17.35,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",2,4,"t",1,20,10.26,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140248A","09Apr2014.Plate.5",2,5,"t",1,20,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",7,6,"t",1,0.041,43.82,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",7,7,"t",1,0.041,38.2,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",6,6,"t",1,0.123,43.74,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",6,7,"t",1,0.123,39.83,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",5,6,"t",1,0.37,42.03,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",5,7,"t",1,0.37,40.56,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",4,6,"t",1,1.111,43.9,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",4,7,"t",1,1.111,36.22,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",3,6,"t",1,3.333,41.16,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",3,7,"t",1,3.333,44.91,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",2,6,"t",1,10,40.81,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140220A","02Apr2014.Plate.10",2,7,"t",1,10,45.88,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",7,6,"t",1,0.411,44.21,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",7,7,"t",1,0.411,31.4,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",6,6,"t",1,1.233,34.67,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",6,7,"t",1,1.233,37.63,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",5,6,"t",1,3.7,42.84,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",5,7,"t",1,3.7,34.8,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",4,6,"t",1,11.1,40.46,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",4,7,"t",1,11.1,37.58,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",3,6,"t",1,33.3,42.9,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",3,7,"t",1,33.3,34.3,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",2,6,"t",1,99.9,33.96,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140214A","02Apr2014.Plate.7",2,7,"t",1,99.9,30.13,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",7,10,"t",1,0.412,32.65,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",7,11,"t",1,0.412,25.93,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",6,10,"t",1,1.235,26.52,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",6,11,"t",1,1.235,24.37,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",5,10,"t",1,3.704,16.83,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",5,11,"t",1,3.704,16.76,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",4,10,"t",1,11.111,7.78,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",4,11,"t",1,11.111,9.55,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",3,10,"t",1,33.333,3.2,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",3,11,"t",1,33.333,2.81,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",2,10,"t",1,100,1,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140202A","02Apr2014.Plate.10",2,11,"t",1,100,1.03,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",7,10,"t",1,0.412,53.82,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",7,11,"t",1,0.412,41.23,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",6,10,"t",1,1.235,41.14,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",6,11,"t",1,1.235,38.95,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",5,10,"t",1,3.704,40.6,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",5,11,"t",1,3.704,41.42,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",4,10,"t",1,11.111,42.86,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",4,11,"t",1,11.111,47.9,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",3,10,"t",1,33.333,50.2,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",3,11,"t",1,33.333,44.51,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",2,10,"t",1,100,56.65,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140190A","02Apr2014.Plate.8",2,11,"t",1,100,53.62,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",7,8,"t",1,0.041,14.02,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",7,9,"t",1,0.041,10.04,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",6,8,"t",1,0.123,13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",6,9,"t",1,0.123,10.35,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",5,8,"t",1,0.37,14.4,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",5,9,"t",1,0.37,13.18,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",4,8,"t",1,1.11,14.13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",4,9,"t",1,1.11,11.74,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",3,8,"t",1,3.33,13.09,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",3,9,"t",1,3.33,10.37,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",2,8,"t",1,9.99,5.57,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140186A","09Apr2014.Plate.3",2,9,"t",1,9.99,5.7,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",7,6,"t",1,0.411,8.86,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",7,7,"t",1,0.411,9.05,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",6,6,"t",1,1.233,7.82,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",6,7,"t",1,1.233,9.05,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",5,6,"t",1,3.7,8.31,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",5,7,"t",1,3.7,7.7,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",4,6,"t",1,11.1,6.67,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",4,7,"t",1,11.1,9.11,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",3,6,"t",1,33.3,6.98,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",3,7,"t",1,33.3,9.75,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",2,6,"t",1,99.9,6.66,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140180A","26Mar2014.Plate.10",2,7,"t",1,99.9,9.32,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",7,8,"t",1,0.004,39.42,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",7,9,"t",1,0.004,37.45,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",6,9,"t",1,0.012,37.81,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",6,8,"t",1,0.012,42.02,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",5,8,"t",1,0.037,38.22,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",5,9,"t",1,0.037,32.47,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",4,9,"t",1,0.111,30.9,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",4,8,"t",1,0.111,32.81,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",3,8,"t",1,0.333,30.75,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",3,9,"t",1,0.333,28.01,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",2,8,"t",1,1,26.27,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140170A","02Apr2014.Plate.29",2,9,"t",1,1,22.9,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",7,10,"t",1,0.206,15.76,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",7,11,"t",1,0.206,14,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",6,10,"t",1,0.617,14.11,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",6,11,"t",1,0.617,12.44,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",5,10,"t",1,1.852,13.61,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",5,11,"t",1,1.852,14.74,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",4,10,"t",1,5.556,16.64,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",4,11,"t",1,5.556,17.65,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",3,10,"t",1,16.667,22.17,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",3,11,"t",1,16.667,19.36,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",2,10,"t",1,50,27.4,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140164A","09Apr2014.Plate.10",2,11,"t",1,50,29.44,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",7,6,"t",1,0.412,43.99,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",7,7,"t",1,0.412,41.82,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",6,6,"t",1,1.235,42.02,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",6,7,"t",1,1.235,38.67,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",5,6,"t",1,3.704,40.28,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",5,7,"t",1,3.704,33.43,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",4,6,"t",1,11.111,24.24,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",4,7,"t",1,11.111,20.16,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",3,6,"t",1,33.333,10.12,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",3,7,"t",1,33.333,8.93,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",2,6,"t",1,100,3.16,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140150A","02Apr2014.Plate.9",2,7,"t",1,100,2.74,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",7,6,"t",1,0.412,42.66,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",7,7,"t",1,0.412,36.26,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",6,6,"t",1,1.235,48.31,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",6,7,"t",1,1.235,40.31,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",5,6,"t",1,3.704,52.1,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",5,7,"t",1,3.704,60.62,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",4,6,"t",1,11.111,62.15,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",4,7,"t",1,11.111,52.44,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",3,6,"t",1,33.333,27.03,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",3,7,"t",1,33.333,25.26,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",2,6,"t",1,100,7.06,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140142A","02Apr2014.Plate.29",2,7,"t",1,100,5.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",7,6,"t",1,0.411,17.17,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",7,7,"t",1,0.411,14.82,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",6,6,"t",1,1.233,15.69,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",6,7,"t",1,1.233,15.5,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",5,6,"t",1,3.7,19.28,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",5,7,"t",1,3.7,17.21,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",4,6,"t",1,11.1,19.3,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",4,7,"t",1,11.1,21.76,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",3,6,"t",1,33.3,20.83,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",3,7,"t",1,33.3,18.1,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",2,6,"t",1,99.9,9.99,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140138A","09Apr2014.Plate.2",2,7,"t",1,99.9,8.15,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",7,8,"t",1,0.411,8.96,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",7,9,"t",1,0.411,8.66,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",6,8,"t",1,1.233,8.7,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",6,9,"t",1,1.233,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",5,8,"t",1,3.7,7.95,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",5,9,"t",1,3.7,7.15,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",4,8,"t",1,11.1,7.85,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",3,8,"t",1,33.3,11.61,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",4,9,"t",1,11.1,8.96,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",3,9,"t",1,33.3,9,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",2,8,"t",1,99.9,9.4,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140136A","26Mar2014.Plate.21",2,9,"t",1,99.9,9.07,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",7,10,"t",1,0.411,9.79,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",7,11,"t",1,0.411,8.89,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",6,10,"t",1,1.233,10.14,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",6,11,"t",1,1.233,9.28,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",5,10,"t",1,3.7,10.22,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",5,11,"t",1,3.7,7.46,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",4,10,"t",1,11.1,10.62,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",4,11,"t",1,11.1,11.05,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",3,10,"t",1,33.3,13.09,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",3,11,"t",1,33.3,14.76,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",2,10,"t",1,99.9,10.39,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140132A","26Mar2014.Plate.18",2,11,"t",1,99.9,12.12,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",7,4,"t",1,0.412,10.52,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",7,5,"t",1,0.412,7.58,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",6,4,"t",1,1.235,8.4,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",6,5,"t",1,1.235,6.48,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",5,4,"t",1,3.704,5.39,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",5,5,"t",1,3.704,6.02,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",4,4,"t",1,11.111,6.59,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",4,5,"t",1,11.111,6.81,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",3,4,"t",1,33.333,14,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",3,5,"t",1,33.333,12.28,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",2,4,"t",1,100,9.76,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140128A","26Mar2014.Plate.21",2,5,"t",1,100,10.54,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",7,10,"t",1,0.411,52.16,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",7,11,"t",1,0.411,44,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",6,10,"t",1,1.233,45.62,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",6,11,"t",1,1.233,42.9,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",5,10,"t",1,3.7,47.21,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",5,11,"t",1,3.7,47.47,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",4,10,"t",1,11.1,48.08,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",4,11,"t",1,11.1,54.46,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",3,10,"t",1,33.3,49.6,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",3,11,"t",1,33.3,45.87,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",2,10,"t",1,99.9,33.85,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140126A","02Apr2014.Plate.25",2,11,"t",1,99.9,27.91,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",7,4,"t",1,0.412,48.98,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",7,5,"t",1,0.412,37.71,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",6,4,"t",1,1.235,46.86,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",6,5,"t",1,1.235,39.19,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",5,4,"t",0,3.704,NA,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",5,5,"t",0,3.704,NA,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",4,4,"t",1,11.111,48.79,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",4,5,"t",1,11.111,40.41,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",3,4,"t",1,33.333,45.24,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",3,5,"t",1,33.333,37.7,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",2,4,"t",1,100,38.29,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140110A","02Apr2014.Plate.18",2,5,"t",1,100,35.23,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",7,8,"t",1,0.411,10.57,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",7,9,"t",1,0.411,9.01,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",6,8,"t",1,1.233,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",6,9,"t",1,1.233,7.19,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",5,8,"t",1,3.7,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",5,9,"t",1,3.7,9.02,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",4,8,"t",1,11.1,9.39,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",4,9,"t",1,11.1,8.1,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",3,8,"t",1,33.3,11.9,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",3,9,"t",1,33.3,10.88,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",2,8,"t",1,99.9,12.99,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140094A","26Mar2014.Plate.13",2,9,"t",1,99.9,11.61,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",7,10,"t",1,0.412,11.61,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",7,11,"t",1,0.412,6.51,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",6,10,"t",1,1.235,8.03,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",6,11,"t",1,1.235,7.89,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",5,10,"t",1,3.704,9.55,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",5,11,"t",1,3.704,9.04,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",4,10,"t",1,11.111,10.15,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",4,11,"t",1,11.111,9.48,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",3,10,"t",1,33.333,10.97,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",3,11,"t",1,33.333,9.46,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",2,10,"t",1,100,10.52,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140088A","26Mar2014.Plate.14",2,11,"t",1,100,9.29,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",7,10,"t",1,0.041,41.57,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",7,11,"t",1,0.041,41.79,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",6,10,"t",1,0.124,40.63,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",6,11,"t",1,0.124,40.47,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",5,10,"t",1,0.371,41.1,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",5,11,"t",1,0.371,38.79,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",4,10,"t",1,1.112,44.28,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",4,11,"t",1,1.112,44.7,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",3,10,"t",1,3.337,45.49,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",3,11,"t",1,3.337,43.04,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",2,10,"t",1,10.01,48.89,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140082A","02Apr2014.Plate.5",2,11,"t",1,10.01,47.58,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",7,6,"t",1,0.412,52.66,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",7,7,"t",1,0.412,42.75,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",6,6,"t",1,1.236,52.61,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",6,7,"t",1,1.236,42.66,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",5,6,"t",1,3.707,49.38,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",5,7,"t",1,3.707,43.32,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",4,6,"t",1,11.122,48.98,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",4,7,"t",1,11.122,40.01,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",3,6,"t",1,33.367,51.66,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",3,7,"t",1,33.367,45.06,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",2,6,"t",1,100.1,49.4,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140076A","02Apr2014.Plate.16",2,7,"t",1,100.1,44.62,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",7,10,"t",1,0.411,50.71,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",7,11,"t",1,0.411,46.69,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",6,10,"t",1,1.233,45.46,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",6,11,"t",1,1.233,41.18,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",5,10,"t",1,3.7,48.36,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",5,11,"t",1,3.7,44.71,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",4,10,"t",1,11.1,43.83,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",4,11,"t",1,11.1,44.65,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",3,10,"t",1,33.3,30.11,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",3,11,"t",1,33.3,27.24,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",2,10,"t",1,99.9,8.49,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140072A","02Apr2014.Plate.15",2,11,"t",1,99.9,8.43,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",7,4,"t",1,0.412,8.05,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",7,5,"t",1,0.412,9.32,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",6,4,"t",1,1.235,6.82,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",6,5,"t",1,1.235,6.31,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",5,4,"t",1,3.704,7.31,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",5,5,"t",1,3.704,5.83,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",4,4,"t",1,11.111,7.14,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",4,5,"t",1,11.111,5.8,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",3,4,"t",1,33.333,5.5,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",3,5,"t",1,33.333,4.09,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",2,4,"t",1,100,2.55,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140064A","26Mar2014.Plate.16",2,5,"t",1,100,2.24,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",7,10,"t",1,0.412,43.5,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",7,11,"t",1,0.412,38.85,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",6,10,"t",1,1.235,37.64,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",6,11,"t",1,1.235,40.11,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",5,10,"t",1,3.704,41.93,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",5,11,"t",1,3.704,39.13,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",4,10,"t",1,11.111,45.43,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",4,11,"t",1,11.111,45.35,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",3,10,"t",1,33.333,45.43,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",3,11,"t",1,33.333,42.54,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",2,10,"t",1,100,37.67,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140060A","02Apr2014.Plate.28",2,11,"t",1,100,35.74,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",7,10,"t",1,0.412,67.72,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",7,11,"t",1,0.412,46.16,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",6,10,"t",1,1.235,46.04,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",6,11,"t",1,1.235,44.5,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",5,10,"t",1,3.704,56.52,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",5,11,"t",1,3.704,50.01,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",4,10,"t",1,11.111,49.95,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",4,11,"t",1,11.111,49.06,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",3,10,"t",1,33.333,34,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",3,11,"t",1,33.333,31.37,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",2,10,"t",1,100,12.15,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140058A","02Apr2014.Plate.26",2,11,"t",1,100,10.69,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",7,6,"t",1,0.412,10.14,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",7,7,"t",1,0.412,8.52,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",6,6,"t",1,1.235,6.24,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",6,7,"t",1,1.235,8.5,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",5,6,"t",1,3.704,8.61,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",5,7,"t",1,3.704,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",4,6,"t",1,11.111,7.85,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",4,7,"t",1,11.111,7.11,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",3,6,"t",1,33.333,8.38,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",3,7,"t",1,33.333,7.42,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",2,6,"t",1,100,6.87,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140044A","26Mar2014.Plate.18",2,7,"t",1,100,6.35,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",7,6,"t",1,0.412,44.71,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",7,7,"t",1,0.412,45.26,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",6,6,"t",1,1.236,51.83,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",6,7,"t",1,1.236,52,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",5,6,"t",0,3.707,NA,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",5,7,"t",1,3.707,53.2,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",4,6,"t",1,11.122,60.97,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",4,7,"t",1,11.122,61.24,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",3,6,"t",1,33.367,62.12,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",3,7,"t",1,33.367,60.14,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",2,6,"t",1,100.1,69.53,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140036A","02Apr2014.Plate.18",2,7,"t",1,100.1,81.65,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",7,10,"t",1,0.411,47.07,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",7,11,"t",1,0.411,45.54,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",6,10,"t",1,1.233,41.19,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",6,11,"t",1,1.233,41.93,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",5,10,"t",1,3.7,44.29,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",5,11,"t",1,3.7,39.22,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",4,10,"t",1,11.1,40.61,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",4,11,"t",1,11.1,40.12,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",3,10,"t",1,33.3,38.5,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",3,11,"t",1,33.3,39.47,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",2,10,"t",1,99.9,29.12,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140026A","02Apr2014.Plate.20",2,11,"t",1,99.9,23.71,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",7,8,"t",1,0.412,42.44,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",7,9,"t",1,0.412,38.45,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",6,8,"t",1,1.235,40.77,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",6,9,"t",1,1.235,42.17,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",5,8,"t",1,3.704,47.31,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",5,9,"t",1,3.704,42.57,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",4,8,"t",1,11.111,50.45,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",4,9,"t",1,11.111,42.88,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",3,8,"t",1,33.333,45.66,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",3,9,"t",1,33.333,39.41,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",2,8,"t",1,100,40.81,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"01140012A","02Apr14.Plate.2",2,9,"t",1,100,29.16,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.30",7,3,"n",1,NA,38.45,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.30",6,3,"n",1,NA,36.99,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.3",7,3,"n",1,NA,39.26,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.3",6,3,"n",1,NA,36.15,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.29",7,3,"n",1,NA,44.57,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.29",6,3,"n",1,NA,41.94,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.28",7,3,"n",1,NA,42.63,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.28",6,3,"n",1,NA,45.64,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.27",7,3,"n",1,NA,39.89,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.27",6,3,"n",1,NA,44.02,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.26",7,3,"n",1,NA,19.25,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.26",6,3,"n",1,NA,42.84,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.25",7,3,"n",1,NA,42.15,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.25",6,3,"n",1,NA,38.14,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.24",7,3,"n",1,NA,39.04,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.24",6,3,"n",1,NA,37.66,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.23",7,3,"n",1,NA,42.08,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.23",6,3,"n",1,NA,34.81,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.22",7,3,"n",1,NA,34.27,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.22",6,3,"n",1,NA,33.76,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.21",7,3,"n",1,NA,30.01,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.21",6,3,"n",1,NA,33.61,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.20",7,3,"n",1,NA,44.4,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.20",6,3,"n",1,NA,47.78,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"DMSO","02Apr14.Plate.2",7,3,"n",1,NA,45.49,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"DMSO","02Apr14.Plate.2",6,3,"n",1,NA,42.2,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.19",7,3,"n",1,NA,41.33,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.19",6,3,"n",1,NA,38.76,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.18",6,3,"n",1,NA,39.14,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.18",7,3,"n",1,NA,38.96,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.17",7,3,"n",1,NA,48.38,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.17",6,3,"n",1,NA,41.3,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.16",7,3,"n",1,NA,40.42,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.16",6,3,"n",1,NA,46.55,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.15",7,3,"n",1,NA,41.13,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.15",6,3,"n",1,NA,40.84,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.14",7,3,"n",1,NA,46.55,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.14",6,3,"n",1,NA,40.08,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.13",7,3,"n",1,NA,43.1,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.13",6,3,"n",1,NA,43.19,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.12",7,3,"n",1,NA,42.31,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.12",6,3,"n",1,NA,41.71,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.11",7,3,"n",1,NA,44.82,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.11",6,3,"n",1,NA,41.04,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.10",7,3,"n",1,NA,42.45,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.10",6,3,"n",1,NA,40.1,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.1",7,2,"n",1,NA,38.87,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"DMSO","02Apr2014.Plate.1",6,2,"n",1,NA,34.2,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",7,8,"t",1,0.082,50.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",7,9,"t",1,0.082,57.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",6,8,"t",1,0.247,66.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",6,9,"t",1,0.247,56.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",5,8,"t",1,0.741,67.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",5,9,"t",1,0.741,64.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",4,8,"t",1,2.222,65.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",4,9,"t",1,2.222,64.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",3,8,"t",1,6.667,61.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",3,9,"t",1,6.667,70.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",2,8,"t",1,20,59.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015384","03Sep2014.Plate.16",2,9,"t",1,20,56.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",7,4,"t",1,0.008,55.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",7,5,"t",1,0.008,52.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",6,4,"t",1,0.025,53.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",6,5,"t",1,0.025,54.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",5,4,"t",1,0.074,42.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",5,5,"t",1,0.074,38.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",4,4,"t",1,0.222,27.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",4,5,"t",1,0.222,26.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",3,4,"t",1,0.667,16.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",3,5,"t",1,0.667,16.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",2,4,"t",1,2,5.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015383","03Sep2014.Plate.16",2,5,"t",1,2,5.17,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",7,10,"t",1,0.082,72.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",7,11,"t",1,0.082,70.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",6,10,"t",1,0.247,70.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",6,11,"t",1,0.247,68.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",5,10,"t",1,0.741,72.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",5,11,"t",1,0.741,73.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",4,10,"t",1,2.222,62.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",4,11,"t",1,2.222,65.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",3,10,"t",1,6.667,60.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",3,11,"t",1,6.667,55.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",2,10,"t",1,20,42.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015224","03Sep2014.Plate.5",2,11,"t",1,20,45.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",7,8,"t",1,0.412,55.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",7,9,"t",1,0.412,59.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",6,8,"t",1,1.235,77.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",6,9,"t",1,1.235,74.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",5,8,"t",1,3.704,99.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",5,9,"t",1,3.704,98.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",4,8,"t",1,11.111,85.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",4,9,"t",1,11.111,86.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",3,8,"t",1,33.333,54.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",3,9,"t",1,33.333,48.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",2,8,"t",1,100,59.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX015217","03Sep2014.Plate.18",2,9,"t",1,100,65.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",7,6,"t",1,0.412,63.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",7,7,"t",1,0.412,61.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",6,6,"t",1,1.235,59.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",6,7,"t",1,1.235,63.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",5,6,"t",1,3.704,61.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",5,7,"t",1,3.704,61.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",4,6,"t",1,11.111,127.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",4,7,"t",1,11.111,66.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",3,6,"t",1,33.333,53.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",3,7,"t",1,33.333,49.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",2,6,"t",1,100,32.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014971","03Sep2014.Plate.17",2,7,"t",1,100,33.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",7,8,"t",1,0.004,69.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",7,9,"t",1,0.004,65.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",6,8,"t",1,0.012,71.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",6,9,"t",1,0.012,72.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",5,8,"t",1,0.037,77.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",5,9,"t",1,0.037,74.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",4,8,"t",1,0.111,60.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",4,9,"t",1,0.111,60.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",3,8,"t",1,0.333,31.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",3,9,"t",1,0.333,40.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",2,8,"t",1,1,12.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014920","03Sep2014.Plate.5",2,9,"t",1,1,13.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",7,8,"t",1,0.412,64.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",7,9,"t",1,0.412,68.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",6,8,"t",1,1.235,73.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",6,9,"t",1,1.235,73.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",5,8,"t",1,3.704,60.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",5,9,"t",1,3.704,61.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",4,8,"t",1,11.111,45.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",4,9,"t",1,11.111,46.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",3,8,"t",1,33.333,33.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",3,9,"t",1,33.333,35.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",2,8,"t",1,100,31.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014918","03Sep2014.Plate.4",2,9,"t",1,100,30.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",7,6,"t",1,0.412,57.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",7,7,"t",1,0.412,60.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",6,6,"t",1,1.235,71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",6,7,"t",1,1.235,60.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",5,6,"t",1,3.704,72.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",5,7,"t",1,3.704,73.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",4,6,"t",1,11.111,68.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",4,7,"t",1,11.111,62.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",3,6,"t",1,33.333,57.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",3,7,"t",1,33.333,53.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",2,6,"t",1,100,42.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014914","03Sep2014.Plate.2",2,7,"t",1,100,43.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",7,10,"t",1,0.206,55.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",7,11,"t",1,0.206,57.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",6,10,"t",1,0.617,66.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",6,11,"t",1,0.617,64.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",5,10,"t",1,1.852,62.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",5,11,"t",1,1.852,70.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",4,10,"t",1,5.556,79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",4,11,"t",1,5.556,70.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",3,10,"t",1,16.667,75.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",3,11,"t",1,16.667,76.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",2,10,"t",1,50,76.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014913","03Sep2014.Plate.1",2,11,"t",1,50,72.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",7,10,"t",1,0.412,67.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",7,11,"t",1,0.412,68.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",6,10,"t",1,1.235,71.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",6,11,"t",1,1.235,69.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",5,10,"t",1,3.704,76.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",5,11,"t",1,3.704,67.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",4,10,"t",1,11.111,70.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",4,11,"t",1,11.111,77.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",3,10,"t",1,33.333,79.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",3,11,"t",1,33.333,87.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",2,10,"t",1,100,81.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014906","03Sep2014.Plate.4",2,11,"t",1,100,77.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",7,10,"t",1,0.412,68.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",7,11,"t",1,0.412,64.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",6,10,"t",1,1.235,71.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",6,11,"t",1,1.235,68.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",5,10,"t",1,3.704,66.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",5,11,"t",1,3.704,66.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",4,10,"t",1,11.111,71.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",4,11,"t",1,11.111,72.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",3,10,"t",1,33.333,68.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",3,11,"t",1,33.333,76.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",2,10,"t",1,100,74.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014891","03Sep2014.Plate.8",2,11,"t",1,100,65.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",7,10,"t",1,0.412,65.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",7,11,"t",1,0.412,61.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",6,10,"t",1,1.235,65.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",6,11,"t",1,1.235,63.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",5,10,"t",1,3.704,63.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",5,11,"t",1,3.704,72.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",4,10,"t",1,11.111,71.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",4,11,"t",1,11.111,69.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",3,10,"t",1,33.333,63.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",3,11,"t",1,33.333,68.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",2,10,"t",1,100,50.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014889","03Sep2014.Plate.6",2,11,"t",1,100,58.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",7,10,"t",1,0.041,65.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",7,11,"t",1,0.041,65.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",6,10,"t",1,0.123,65.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",6,11,"t",1,0.123,58.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",5,10,"t",1,0.37,66.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",5,11,"t",1,0.37,63.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",4,10,"t",1,1.111,73.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",4,11,"t",1,1.111,67.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",3,10,"t",1,3.333,76.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",3,11,"t",1,3.333,66.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",2,10,"t",1,10,37.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014885","03Sep2014.Plate.10",2,11,"t",1,10,42.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",7,8,"t",1,0.412,57.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",7,9,"t",1,0.412,58.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",6,8,"t",1,1.235,63.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",6,9,"t",1,1.235,61.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",5,8,"t",1,3.704,66.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",5,9,"t",1,3.704,65.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",4,8,"t",1,11.111,67.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",4,9,"t",1,11.111,66.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",3,8,"t",1,33.333,66.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",3,9,"t",1,33.333,57.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",2,8,"t",1,100,54.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014880","03Sep2014.Plate.12",2,9,"t",1,100,63.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",7,8,"t",1,0.412,51.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",7,9,"t",1,0.412,53.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",6,8,"t",1,1.235,69.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",6,9,"t",1,1.235,74.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",5,8,"t",1,3.704,65.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",5,9,"t",1,3.704,70.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",4,8,"t",1,11.111,61.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",4,9,"t",1,11.111,57.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",3,8,"t",1,33.333,55.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",3,9,"t",1,33.333,54.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",2,8,"t",1,100,51.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014879","03Sep2014.Plate.13",2,9,"t",1,100,54.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",7,8,"t",1,0.412,57.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",7,9,"t",1,0.412,59.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",6,8,"t",1,1.235,59.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",6,9,"t",1,1.235,62.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",5,8,"t",1,3.704,63.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",5,9,"t",1,3.704,63.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",4,8,"t",1,11.111,67.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",4,9,"t",1,11.111,67.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",3,8,"t",1,33.333,66.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",2,8,"t",1,100,50.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",3,9,"t",1,33.333,64.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014878","03Sep2014.Plate.11",2,9,"t",1,100,54.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",7,4,"t",1,0.412,64.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",6,4,"t",1,1.235,65.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",7,5,"t",1,0.412,63.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",6,5,"t",1,1.235,63.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",5,4,"t",1,3.704,62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",4,4,"t",1,11.111,71.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",5,5,"t",1,3.704,71.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",4,5,"t",1,11.111,64.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",3,4,"t",1,33.333,63.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",2,4,"t",1,100,55.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",3,5,"t",1,33.333,62.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014877","03Sep2014.Plate.10",2,5,"t",1,100,56.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",7,6,"t",1,0.412,62.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",6,6,"t",1,1.235,67.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",7,7,"t",1,0.412,65.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",6,7,"t",1,1.235,67.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",5,6,"t",1,3.704,69.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",4,6,"t",1,11.111,76.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",5,7,"t",1,3.704,66.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",4,7,"t",1,11.111,72.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",3,6,"t",1,33.333,79.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",2,6,"t",1,100,58.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",3,7,"t",1,33.333,80.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014876","03Sep2014.Plate.12",2,7,"t",1,100,56.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",7,4,"t",1,0.041,53.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",6,4,"t",1,0.123,50.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",7,5,"t",1,0.041,46.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",6,5,"t",1,0.123,58.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",5,4,"t",1,0.37,50.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",4,4,"t",1,1.111,37.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",5,5,"t",1,0.37,50.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",4,5,"t",1,1.111,43.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",3,4,"t",1,3.333,23.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",2,4,"t",1,10,10.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",3,5,"t",1,3.333,25.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014866","03Sep2014.Plate.9",2,5,"t",1,10,11.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",7,6,"t",1,0.412,69.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",6,6,"t",1,1.235,69.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",7,7,"t",1,0.412,71.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",6,7,"t",1,1.235,77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",5,6,"t",1,3.704,75.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",4,6,"t",1,11.111,76.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",5,7,"t",1,3.704,74.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",4,7,"t",1,11.111,83.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",3,6,"t",1,33.333,71.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",2,6,"t",1,100,52.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",3,7,"t",1,33.333,75.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014864","03Sep2014.Plate.7",2,7,"t",1,100,53.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",7,6,"t",1,0.412,58.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",6,6,"t",1,1.235,60.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",7,7,"t",1,0.412,57.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",6,7,"t",1,1.235,65.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",5,6,"t",1,3.704,64.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",4,6,"t",1,11.111,63.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",5,7,"t",1,3.704,64.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",4,7,"t",1,11.111,62.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",3,6,"t",1,33.333,60.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",2,6,"t",1,100,58.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",3,7,"t",1,33.333,70.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014853","03Sep2014.Plate.14",2,7,"t",1,100,64.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",7,4,"t",1,0.412,71.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",6,4,"t",1,1.235,67.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",7,5,"t",1,0.412,63.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",6,5,"t",1,1.235,72.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",5,4,"t",1,3.704,69.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",4,4,"t",1,11.111,80.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",5,5,"t",1,3.704,76.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",4,5,"t",1,11.111,75.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",3,4,"t",1,33.333,76.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",2,4,"t",1,100,59.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",3,5,"t",1,33.333,80.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014847","03Sep2014.Plate.7",2,5,"t",1,100,55.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",7,10,"t",1,0.412,54.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",6,10,"t",1,1.235,54.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",7,11,"t",1,0.412,51.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",6,11,"t",1,1.235,57.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",5,10,"t",1,3.704,54.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",4,10,"t",1,11.111,58.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",5,11,"t",1,3.704,51.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",4,11,"t",1,11.111,56.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",3,10,"t",1,33.333,55.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",2,10,"t",1,100,34.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",3,11,"t",1,33.333,50.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014837","03Sep2014.Plate.9",2,11,"t",1,100,39.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",7,4,"t",1,0.412,62.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",6,4,"t",1,1.235,59.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",7,5,"t",1,0.412,60.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",6,5,"t",1,1.235,64.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",5,4,"t",1,3.704,66.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",4,4,"t",1,11.111,63.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",5,5,"t",1,3.704,68.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",4,5,"t",1,11.111,64.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",3,4,"t",1,33.333,86.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",2,4,"t",1,100,73.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",3,5,"t",1,33.333,80.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014833","03Sep2014.Plate.11",2,5,"t",1,100,68.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",7,9,"t",1,0.412,64.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",7,8,"t",1,0.412,59.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",6,8,"t",1,1.235,66.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",5,8,"t",1,3.704,69.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",6,9,"t",1,1.235,69.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",5,9,"t",1,3.704,73.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",4,8,"t",1,11.111,68.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",3,8,"t",1,33.333,65.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",4,9,"t",1,11.111,73.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",3,9,"t",1,33.333,63.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",2,8,"t",1,100,51.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",7,8,"t",1,0.041,67.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014830","03Sep2014.Plate.21",2,9,"t",1,100,48.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",7,9,"t",1,0.041,67.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",6,8,"t",1,0.123,64.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",5,8,"t",1,0.37,79.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",6,9,"t",1,0.123,67.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",5,9,"t",1,0.37,68.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",4,8,"t",1,1.111,65.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",3,8,"t",1,3.333,59.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",4,9,"t",1,1.111,63.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",3,9,"t",1,3.333,55.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",2,8,"t",1,10,23.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014824","03Sep2014.Plate.20",2,9,"t",1,10,19.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",7,10,"t",1,0.035,58.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",7,11,"t",1,0.035,62.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",6,10,"t",1,0.104,58.17,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",6,11,"t",1,0.104,59.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",5,10,"t",1,0.311,57.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",5,11,"t",1,0.311,59.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",4,10,"t",1,0.933,41.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",4,11,"t",1,0.933,44.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",3,10,"t",1,2.8,25.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",3,11,"t",1,2.8,25.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",2,10,"t",1,8.4,8.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014765","03Sep2014.Plate.19",2,11,"t",1,8.4,7.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",7,10,"t",1,0.412,58.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",7,11,"t",1,0.412,56.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",6,10,"t",1,1.235,61.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",6,11,"t",1,1.235,55.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",5,10,"t",1,3.704,61.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",5,11,"t",1,3.704,63.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",4,10,"t",1,11.111,59.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",4,11,"t",1,11.111,59.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",3,10,"t",1,33.333,49.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",3,11,"t",1,33.333,45.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",2,10,"t",1,100,30.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014752","03Sep2014.Plate.18",2,11,"t",1,100,28.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",7,4,"t",1,0.021,50.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",7,5,"t",1,0.021,54.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",6,4,"t",1,0.062,51.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",6,5,"t",1,0.062,61.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",5,4,"t",1,0.185,43.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",5,5,"t",1,0.185,58.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",4,4,"t",1,0.556,51.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",4,5,"t",1,0.556,119.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",3,4,"t",1,1.667,44.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",3,5,"t",1,1.667,49.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",2,4,"t",1,5,28.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014730","03Sep2014.Plate.17",2,5,"t",1,5,29.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",7,4,"t",1,0.412,59.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",7,5,"t",1,0.412,59.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",6,4,"t",1,1.235,57.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",6,5,"t",1,1.235,62.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",5,4,"t",1,3.704,66.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",5,5,"t",1,3.704,69.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",4,4,"t",1,11.111,66.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",4,5,"t",1,11.111,70.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",3,4,"t",1,33.333,55.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",3,5,"t",1,33.333,62.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",2,4,"t",1,100,58.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014716","03Sep2014.Plate.14",2,5,"t",1,100,61.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",7,8,"t",1,0.412,59.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",7,9,"t",1,0.412,56.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",6,8,"t",1,1.237,62.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",6,9,"t",1,1.237,75.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",5,8,"t",1,3.711,72.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",5,9,"t",1,3.711,76.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",4,8,"t",1,11.133,72.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",4,9,"t",1,11.133,81.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",3,8,"t",1,33.4,67.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",3,9,"t",1,33.4,79.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",2,8,"t",1,100.2,56.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014715","03Sep2014.Plate.6",2,9,"t",1,100.2,67.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",7,4,"t",1,0.412,68.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",7,5,"t",1,0.412,68.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",6,4,"t",1,1.235,69.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",6,5,"t",1,1.235,71.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",5,4,"t",1,3.704,69.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",5,5,"t",1,3.704,80.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",4,4,"t",1,11.111,69.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",4,5,"t",1,11.111,75.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",3,4,"t",1,33.333,71.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",3,5,"t",1,33.333,67.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",2,4,"t",1,100,61.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014714","03Sep2014.Plate.8",2,5,"t",1,100,65.17,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",7,4,"t",1,0.413,53.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",7,5,"t",1,0.413,61.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",6,4,"t",1,1.238,63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",6,5,"t",1,1.238,70.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",5,4,"t",1,3.715,67.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",5,5,"t",1,3.715,72.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",4,4,"t",1,11.144,60.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",4,5,"t",1,11.144,59.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",3,4,"t",1,33.433,62.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",3,5,"t",1,33.433,56.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",2,4,"t",1,100.3,51.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014713","03Sep2014.Plate.13",2,5,"t",1,100.3,62.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",7,10,"t",1,0.412,62.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",7,11,"t",1,0.412,58.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",6,10,"t",1,1.235,64.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",6,11,"t",1,1.235,60.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",5,10,"t",1,3.704,71.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",5,11,"t",1,3.704,61.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",4,10,"t",1,11.111,60.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",4,11,"t",1,11.111,67.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",3,10,"t",1,33.333,64.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",3,11,"t",1,33.333,60.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",2,10,"t",1,100,56.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014712","03Sep2014.Plate.11",2,11,"t",1,100,53.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",7,8,"t",1,0.412,63.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",7,9,"t",1,0.412,70.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",6,8,"t",1,1.235,72.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",6,9,"t",1,1.235,69.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",5,8,"t",1,3.704,75.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",5,9,"t",1,3.704,75.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",4,8,"t",1,11.111,58.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",4,9,"t",1,11.111,72.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",3,9,"t",1,33.333,67.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",3,8,"t",1,33.333,67.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",2,8,"t",1,100,60.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014681","03Sep2014.Plate.8",2,9,"t",1,100,60.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",7,9,"t",1,0.412,55.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",7,8,"t",1,0.412,57.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",6,8,"t",1,1.235,59.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",6,9,"t",1,1.235,59.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",5,9,"t",1,3.704,60.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",5,8,"t",1,3.704,60.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",4,8,"t",1,11.111,59.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",4,9,"t",1,11.111,60.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",3,9,"t",1,33.333,56.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",3,8,"t",1,33.333,63.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",2,8,"t",1,100,44.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014680","03Sep2014.Plate.9",2,9,"t",1,100,48.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",7,9,"t",1,0.411,62.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",7,8,"t",1,0.411,57.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",6,8,"t",1,1.233,58.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",6,9,"t",1,1.233,61.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",5,9,"t",1,3.7,73.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",5,8,"t",1,3.7,65.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",4,8,"t",1,11.1,60.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",4,9,"t",1,11.1,70.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",3,9,"t",1,33.3,63.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",3,8,"t",1,33.3,63.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",2,8,"t",1,99.9,57.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014679","03Sep2014.Plate.10",2,9,"t",1,99.9,60.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",7,7,"t",1,0.412,58.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",7,6,"t",1,0.412,56.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",6,6,"t",1,1.235,61.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",6,7,"t",1,1.235,64.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",5,7,"t",1,3.704,69.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",5,6,"t",1,3.704,74.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",4,6,"t",1,11.111,66.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",4,7,"t",1,11.111,70.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",3,7,"t",1,33.333,67.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",3,6,"t",1,33.333,66.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",2,6,"t",1,100,59.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014678","03Sep2014.Plate.10",2,7,"t",1,100,62.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",7,11,"t",1,0.412,55.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",7,10,"t",1,0.412,55.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",6,10,"t",1,1.235,64.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",5,10,"t",1,3.704,62.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",6,11,"t",1,1.235,61.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",5,11,"t",1,3.704,61.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",4,10,"t",1,11.111,63.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",3,10,"t",1,33.333,60.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",4,11,"t",1,11.111,60.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",3,11,"t",1,33.333,58.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",2,10,"t",1,100,55.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",7,4,"t",1,0.412,64.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014676","03Sep2014.Plate.13",2,11,"t",1,100,48.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",7,5,"t",1,0.412,64.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",6,4,"t",1,1.235,64.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",5,4,"t",1,3.704,63.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",6,5,"t",1,1.235,67.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",5,5,"t",1,3.704,74.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",4,4,"t",1,11.111,68.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",3,4,"t",1,33.333,68.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",4,5,"t",1,11.111,69.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",3,5,"t",1,33.333,64.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",2,4,"t",1,100,60.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",7,10,"t",1,0.412,51.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014675","03Sep2014.Plate.12",2,5,"t",1,100,60.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",7,11,"t",1,0.412,57.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",6,10,"t",1,1.235,57.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",5,10,"t",1,3.704,61.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",6,11,"t",1,1.235,56.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",5,11,"t",1,3.704,55.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",4,10,"t",1,11.111,67.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",3,10,"t",1,33.333,61.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",4,11,"t",1,11.111,55.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",3,11,"t",1,33.333,59.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",2,10,"t",1,100,53.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",7,6,"t",1,0.412,62.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014674","03Sep2014.Plate.12",2,11,"t",1,100,55.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",7,7,"t",1,0.412,47.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",6,6,"t",1,1.235,69.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",5,6,"t",1,3.704,77.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",6,7,"t",1,1.235,60.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",5,7,"t",1,3.704,71.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",4,6,"t",1,11.111,78.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",3,6,"t",1,33.333,82.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",4,7,"t",1,11.111,64.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",3,7,"t",1,33.333,62.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",2,6,"t",1,100,65.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",7,4,"t",1,0.412,59.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014415","03Sep2014.Plate.22",2,7,"t",1,100,68.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",7,5,"t",1,0.412,55.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",6,4,"t",1,1.235,60.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",5,4,"t",1,3.704,58.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",6,5,"t",1,1.235,58.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",5,5,"t",1,3.704,61.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",4,4,"t",1,11.111,47.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",3,4,"t",1,33.333,37.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",4,5,"t",1,11.111,52.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",3,5,"t",1,33.333,39.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",2,4,"t",1,100,38.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",7,10,"t",1,0.412,57.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014401","03Sep2014.Plate.22",2,5,"t",1,100,32.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",7,11,"t",1,0.412,59.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",6,10,"t",1,1.235,72.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",5,10,"t",1,3.704,72.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",6,11,"t",1,1.235,59.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",5,11,"t",1,3.704,74.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",4,10,"t",1,11.111,66.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",3,10,"t",1,33.333,64.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",4,11,"t",1,11.111,60.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",3,11,"t",1,33.333,64.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",2,10,"t",1,100,48.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",7,10,"t",1,0.004,55.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014392","03Sep2014.Plate.20",2,11,"t",1,100,62.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",7,11,"t",1,0.004,53.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",6,10,"t",1,0.012,50.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",5,10,"t",1,0.037,52.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",6,11,"t",1,0.012,53.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",5,11,"t",1,0.037,52.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",4,10,"t",1,0.111,46.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",3,10,"t",1,0.333,44.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",4,11,"t",1,0.111,44.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",3,11,"t",1,0.333,45.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",2,10,"t",1,1,41.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",7,4,"t",1,0.412,59.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014364","03Sep2014.Plate.15",2,11,"t",1,1,44.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",7,5,"t",1,0.412,66.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",6,4,"t",1,1.235,69.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",5,4,"t",1,3.704,64.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",6,5,"t",1,1.235,65.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",5,5,"t",1,3.704,65.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",4,4,"t",1,11.111,56.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",3,4,"t",1,33.333,46.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",4,5,"t",1,11.111,60.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",3,5,"t",1,33.333,45.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",2,4,"t",1,100,27.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",7,10,"t",1,0.412,72.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014360","03Sep2014.Plate.15",2,5,"t",1,100,25.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",7,11,"t",1,0.412,68.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",6,10,"t",1,1.235,70.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",5,10,"t",1,3.704,64.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",6,11,"t",1,1.235,65.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",5,11,"t",1,3.704,64.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",4,10,"t",1,11.111,71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",3,10,"t",1,33.333,68.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",4,11,"t",1,11.111,69.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",3,11,"t",1,33.333,65.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",2,10,"t",1,100,55.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",7,6,"t",1,0.411,72.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014280","03Sep2014.Plate.7",2,11,"t",1,100,53.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",7,7,"t",1,0.411,66.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",6,6,"t",1,1.232,68.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",5,6,"t",1,3.696,73.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",6,7,"t",1,1.232,70.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",5,7,"t",1,3.696,70.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",4,6,"t",1,11.089,68.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",3,6,"t",1,33.267,76.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",4,7,"t",1,11.089,69.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",3,7,"t",1,33.267,69.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",2,6,"t",1,99.8,60.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",7,8,"t",1,0.004,51.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014279","03Sep2014.Plate.8",2,7,"t",1,99.8,63.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",7,9,"t",1,0.004,54.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",6,8,"t",1,0.011,30.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",5,8,"t",1,0.034,28.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",6,9,"t",1,0.011,38.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",5,9,"t",1,0.034,27.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",4,8,"t",1,0.102,24.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",3,8,"t",1,0.307,18.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",4,9,"t",1,0.102,20.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",3,9,"t",1,0.307,18.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",2,8,"t",1,0.92,17.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",7,4,"t",1,0.021,47.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014277","03Sep2014.Plate.17",2,9,"t",1,0.92,14.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",7,5,"t",1,0.021,50.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",6,5,"t",1,0.062,36.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",6,4,"t",1,0.062,35.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",5,4,"t",1,0.185,24.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",4,4,"t",1,0.556,21.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",5,5,"t",1,0.185,26.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",4,5,"t",1,0.556,16.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",3,5,"t",1,1.667,20.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",3,4,"t",1,1.667,19.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",2,4,"t",1,5,16.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",7,4,"t",1,0.021,65.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014272","03Sep2014.Plate.18",2,5,"t",1,5,21.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",7,5,"t",1,0.021,58.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",6,5,"t",1,0.062,62.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",6,4,"t",1,0.062,65.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",5,4,"t",1,0.185,67.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",4,4,"t",1,0.556,66.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",5,5,"t",1,0.185,66.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",4,5,"t",1,0.556,65.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",3,5,"t",1,1.667,37.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",3,4,"t",1,1.667,42.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",2,4,"t",1,5,24.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",7,6,"t",1,0.044,67.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX014271","03Sep2014.Plate.19",2,5,"t",1,5,20.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",7,7,"t",1,0.044,62.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",6,7,"t",1,0.132,73.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",6,6,"t",1,0.132,67.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",5,6,"t",1,0.396,71.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",4,6,"t",1,1.189,69.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",5,7,"t",1,0.396,71.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",4,7,"t",1,1.189,73.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",3,6,"t",1,3.567,62.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",3,7,"t",1,3.567,74.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",2,6,"t",1,10.7,59.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013756","03Sep2014.Plate.1",2,7,"t",1,10.7,57.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",7,4,"t",1,0.082,62.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",7,5,"t",1,0.082,62.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",6,4,"t",1,0.247,58.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",5,4,"t",1,0.741,52.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",6,5,"t",1,0.247,58.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",5,5,"t",1,0.741,55.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",4,5,"t",1,2.222,34.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",4,4,"t",1,2.222,28.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",3,4,"t",1,6.667,14.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",2,4,"t",1,20,3.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",3,5,"t",1,6.667,15.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013549","03Sep2014.Plate.1",2,5,"t",1,20,3.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",7,8,"t",1,0.412,44.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",6,8,"t",1,1.235,58.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",7,9,"t",1,0.412,64.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",6,9,"t",1,1.235,70.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",5,8,"t",1,3.704,61.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",4,8,"t",1,11.111,60.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",5,9,"t",1,3.704,65.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",4,9,"t",1,11.111,63.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",3,8,"t",1,33.333,59.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",2,8,"t",1,100,49.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",3,9,"t",1,33.333,72.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013541","03Sep2014.Plate.19",2,9,"t",1,100,59.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",7,4,"t",1,0.412,57.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",6,4,"t",1,1.235,66.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",7,5,"t",1,0.412,61.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",6,5,"t",1,1.235,68.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",5,4,"t",1,3.704,71.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",4,4,"t",1,11.111,58.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",5,5,"t",1,3.704,69.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",4,5,"t",1,11.111,59.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",3,4,"t",1,33.333,50.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",3,5,"t",1,33.333,47.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",2,5,"t",1,100,42.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013532","03Sep2014.Plate.20",2,4,"t",1,100,40.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",7,4,"t",1,0.412,82.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",7,5,"t",1,0.412,62.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",6,5,"t",1,1.235,78.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",6,4,"t",1,1.235,69.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",5,4,"t",1,3.704,79.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",5,5,"t",1,3.704,80.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",4,5,"t",1,11.111,87.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",4,4,"t",1,11.111,83.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",3,4,"t",1,33.333,85.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",3,5,"t",1,33.333,91.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",2,5,"t",1,100,70.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013527","03Sep2014.Plate.3",2,4,"t",1,100,65.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",7,10,"t",1,0.412,63.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",6,10,"t",1,1.235,61.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",7,11,"t",1,0.412,57.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",6,11,"t",1,1.235,59.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",5,11,"t",1,3.704,67.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",5,10,"t",1,3.704,64.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",4,10,"t",1,11.111,65.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",4,11,"t",1,11.111,63.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",3,11,"t",1,33.333,65.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",3,10,"t",1,33.333,66.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",2,10,"t",1,100,51.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX013434","03Sep2014.Plate.16",2,11,"t",1,100,53.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",7,11,"t",1,0.008,62.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",7,10,"t",1,0.008,57.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",6,10,"t",1,0.025,64.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",6,11,"t",1,0.025,60.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",5,11,"t",1,0.074,67.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",5,10,"t",1,0.074,63.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",4,10,"t",1,0.222,63.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",4,11,"t",1,0.222,63.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",3,11,"t",1,0.667,55.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",3,10,"t",1,0.667,66.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",2,10,"t",1,2,68.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012670","03Sep2014.Plate.21",2,11,"t",1,2,64.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",7,9,"t",1,0.412,59.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",7,8,"t",1,0.412,55.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",6,8,"t",1,1.235,71.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",6,9,"t",1,1.235,63.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",5,9,"t",1,3.704,76.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",5,8,"t",1,3.704,68.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",4,8,"t",1,11.111,72.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",4,9,"t",1,11.111,66.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",3,8,"t",1,33.333,62.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",2,8,"t",1,100,52.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",3,9,"t",1,33.333,71.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012659","03Sep2014.Plate.15",2,9,"t",1,100,59.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",7,6,"t",1,0.206,58.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",6,6,"t",1,0.617,73.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",7,7,"t",1,0.206,60.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",6,7,"t",1,0.617,65.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",5,6,"t",1,1.852,72.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",4,6,"t",1,5.556,66.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",5,7,"t",1,1.852,69.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",4,7,"t",1,5.556,70.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",3,7,"t",1,16.667,68.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",3,6,"t",1,16.667,66.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",2,6,"t",1,50,59.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012654","03Sep2014.Plate.11",2,7,"t",1,50,62.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",7,6,"t",1,0.041,79.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",7,7,"t",1,0.041,52.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",6,6,"t",1,0.123,66.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",6,7,"t",1,0.123,58.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",5,6,"t",1,0.37,65.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",5,7,"t",1,0.37,66.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",4,6,"t",1,1.111,57.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",4,7,"t",1,1.111,57.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",3,6,"t",1,3.333,66.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",3,7,"t",1,3.333,43.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",2,6,"t",1,10,23.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012641","03Sep2014.Plate.13",2,7,"t",1,10,30.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",7,6,"t",1,0.021,56.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",7,7,"t",1,0.021,62.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",6,6,"t",1,0.062,72.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",6,7,"t",1,0.062,66.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",5,6,"t",1,0.185,87.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",5,7,"t",1,0.185,86.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",4,6,"t",1,0.556,84.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",4,7,"t",1,0.556,91.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",3,7,"t",1,1.667,96.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",3,6,"t",1,1.667,89.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",2,6,"t",1,5,80.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012628","03Sep2014.Plate.15",2,7,"t",1,5,83.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",7,9,"t",1,0.021,59.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",7,8,"t",1,0.021,64.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",6,8,"t",1,0.062,58.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",6,9,"t",1,0.062,62.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",5,9,"t",1,0.185,73.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",5,8,"t",1,0.185,65.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",4,8,"t",1,0.556,61.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",4,9,"t",1,0.556,60.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",3,9,"t",1,1.667,52.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",3,8,"t",1,1.667,51.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",2,8,"t",1,5,41.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012623","03Sep2014.Plate.14",2,9,"t",1,5,37.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX012606","20130320.Plate.4",7,10,"t",1,0.08,10.56,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",6,10,"t",1,0.25,5.02,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",7,11,"t",1,0.08,11.97,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",6,11,"t",1,0.25,5.22,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",5,10,"t",1,0.74,1.17,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",5,11,"t",1,0.74,1.25,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",4,11,"t",1,2.22,0.43,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",4,10,"t",1,2.22,0.49,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",3,10,"t",1,6.67,0.43,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",3,11,"t",1,6.67,0.47,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",2,10,"t",1,20,0.56,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012606","20130320.Plate.4",2,11,"t",1,20,0.54,"ToxCast_1 CR 20130320 Plate 4.csv","cort" -"TX012337","03Sep2014.Plate.16",7,6,"t",1,0.041,57.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",7,7,"t",1,0.041,55.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",6,6,"t",1,0.123,63.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",6,7,"t",1,0.123,65.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",5,6,"t",1,0.37,68.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",5,7,"t",1,0.37,62.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",4,6,"t",1,1.111,59.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",4,7,"t",1,1.111,65.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",3,6,"t",1,3.333,50.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",3,7,"t",1,3.333,49.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",2,6,"t",1,10,25.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012325","26Mar2014.Plate.3",7,4,"t",1,0.04,11.21,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012337","03Sep2014.Plate.16",2,7,"t",1,10,30.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" -"TX012325","26Mar2014.Plate.3",7,5,"t",1,0.04,9.47,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","20130320.Plate.1",7,6,"t",1,0.04,12.1,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","20130320.Plate.1",7,7,"t",1,0.04,13.21,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","26Mar2014.Plate.3",6,5,"t",1,0.12,7.35,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","26Mar2014.Plate.3",6,4,"t",1,0.12,7.8,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","20130320.Plate.1",6,6,"t",1,0.12,13.99,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","20130320.Plate.1",6,7,"t",1,0.12,14.48,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","26Mar2014.Plate.3",5,4,"t",1,0.37,8.35,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","20130320.Plate.1",5,6,"t",1,0.37,15.76,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","26Mar2014.Plate.3",5,5,"t",1,0.37,8.92,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","20130320.Plate.1",5,7,"t",1,0.37,16.01,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","26Mar2014.Plate.3",4,4,"t",1,1.11,9.13,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","26Mar2014.Plate.3",4,5,"t",1,1.11,10.07,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","20130320.Plate.1",4,7,"t",1,1.11,17.94,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","20130320.Plate.1",4,6,"t",1,1.11,15.86,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","26Mar2014.Plate.3",3,4,"t",1,3.33,10.56,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","26Mar2014.Plate.3",3,5,"t",1,3.33,9.75,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","20130320.Plate.1",3,6,"t",1,3.33,13.59,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","26Mar2014.Plate.3",2,4,"t",1,10,10.06,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","20130320.Plate.1",3,7,"t",1,3.33,14.95,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","26Mar2014.Plate.3",2,5,"t",1,10,11.43,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" -"TX012325","20130320.Plate.1",2,6,"t",1,10,9.69,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012325","20130320.Plate.1",2,7,"t",1,10,10.3,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX012291","03Sep2014.Plate.2",7,4,"t",1,0.082,55.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",7,5,"t",1,0.082,60.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",6,4,"t",1,0.247,65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",6,5,"t",1,0.247,70.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",5,4,"t",1,0.741,66.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",5,5,"t",1,0.741,67.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",4,4,"t",1,2.222,63.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",4,5,"t",1,2.222,63.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",3,4,"t",1,6.667,48.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",3,5,"t",1,6.667,51.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",2,4,"t",1,20,36.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012291","03Sep2014.Plate.2",2,5,"t",1,20,37.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",7,6,"t",1,0.082,59.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",7,7,"t",1,0.082,59.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",6,6,"t",1,0.247,68.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",6,7,"t",1,0.247,63.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",5,6,"t",1,0.741,74.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",5,7,"t",1,0.741,66.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",4,6,"t",1,2.222,67.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",4,7,"t",1,2.222,59.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",3,6,"t",1,6.667,63.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",3,7,"t",1,6.667,68.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",2,6,"t",1,20,39.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012277","03Sep2014.Plate.3",2,7,"t",1,20,58.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",7,11,"t",1,0.082,39.59,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",7,10,"t",1,0.082,36.38,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",6,10,"t",1,0.247,34.47,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",6,11,"t",1,0.247,35.97,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",5,10,"t",1,0.741,34.26,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",4,10,"t",1,2.222,37.43,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",5,11,"t",1,0.741,37.84,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",4,11,"t",1,2.222,36.91,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",3,10,"t",1,6.667,33.76,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",3,11,"t",1,6.667,30.24,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",2,11,"t",1,20,28.8,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012275","02Apr2014.Plate.23",2,10,"t",1,20,32.2,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",7,4,"t",1,0.082,46,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",7,5,"t",1,0.082,42.66,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",6,4,"t",1,0.247,46.11,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",5,4,"t",1,0.741,44.8,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",6,5,"t",1,0.247,40.48,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",5,5,"t",1,0.741,41.34,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",4,4,"t",1,2.222,54.04,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",4,5,"t",1,2.222,45.79,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",3,5,"t",1,6.667,47.06,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",3,4,"t",1,6.667,54.59,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",2,4,"t",1,20,44.54,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012274","02Apr2014.Plate.28",2,5,"t",1,20,45.23,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",7,4,"t",1,0.008,16.03,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",6,4,"t",1,0.025,13.08,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",7,5,"t",1,0.008,16.55,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",6,5,"t",1,0.025,11.3,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",5,4,"t",1,0.074,13.8,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",5,5,"t",1,0.074,15.05,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",4,5,"t",1,0.222,11.43,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",4,4,"t",1,0.222,11.53,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",3,4,"t",1,0.667,12.28,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",3,5,"t",1,0.667,10.73,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",2,4,"t",1,2,6.18,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",7,10,"t",1,0.082,15.87,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012269","09Apr2014.Plate.1",2,5,"t",1,2,7.84,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",7,11,"t",1,0.082,13.9,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",6,10,"t",1,0.247,16.05,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",6,11,"t",1,0.247,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",5,11,"t",1,0.741,10.72,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",5,10,"t",1,0.741,13.73,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",4,10,"t",1,2.222,18.22,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",4,11,"t",1,2.222,15.72,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",3,10,"t",1,6.667,17.7,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",2,10,"t",1,20,14.5,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",3,11,"t",1,6.667,15.78,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012263","09Apr2014.Plate.8",2,11,"t",1,20,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",7,6,"t",1,0.082,8.68,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",7,7,"t",1,0.082,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",6,7,"t",1,0.247,8.34,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",6,6,"t",1,0.247,8.48,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",5,6,"t",1,0.741,6.36,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",5,7,"t",1,0.741,6.8,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",4,6,"t",1,2.222,3.63,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",3,6,"t",1,6.667,2.25,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",4,7,"t",1,2.222,3.54,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",3,7,"t",1,6.667,2.05,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",2,6,"t",1,20,0.8,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012211","26Mar2014.Plate.16",2,7,"t",1,20,1.05,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",7,7,"t",1,0.001,42.32,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",7,6,"t",1,0.001,44.43,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",6,6,"t",1,0.002,41.78,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",6,7,"t",1,0.002,40.8,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",5,6,"t",1,0.007,43.69,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",4,6,"t",1,0.022,48.09,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",5,7,"t",1,0.007,43.82,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",4,7,"t",1,0.022,41.8,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",3,6,"t",1,0.067,43.65,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",2,6,"t",1,0.2,32.57,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",3,7,"t",1,0.067,39.58,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX012209","02Apr2014.Plate.31",2,7,"t",1,0.2,31.34,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",7,10,"t",1,0.412,55.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",6,10,"t",1,1.235,64.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",7,11,"t",1,0.412,57.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",6,11,"t",1,1.235,55.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",5,10,"t",1,3.704,72.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",5,11,"t",1,3.704,62.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",4,10,"t",1,11.111,68.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",4,11,"t",1,11.111,60.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",3,10,"t",1,33.333,69.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",3,11,"t",1,33.333,75.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",2,10,"t",1,100,70.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011905","03Sep2014.Plate.14",2,11,"t",1,100,71.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",7,4,"t",1,0.082,41.13,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",7,5,"t",1,0.082,43.49,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",6,4,"t",1,0.247,46.53,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",6,5,"t",1,0.247,43.39,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",5,5,"t",1,0.741,49.34,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",5,4,"t",1,0.741,48.61,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",4,4,"t",1,2.222,54.14,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",4,5,"t",1,2.222,54.21,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",3,4,"t",1,6.667,51.74,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",2,4,"t",1,20,41.88,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",3,5,"t",1,6.667,50.57,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011664","02Apr2014.Plate.1",2,5,"t",1,20,44.47,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",7,6,"t",1,0.041,50.95,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",7,7,"t",1,0.041,51.07,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",6,7,"t",1,0.123,51.03,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",6,6,"t",1,0.123,45.01,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",5,6,"t",1,0.37,46.78,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",5,7,"t",1,0.37,46.57,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",4,6,"t",1,1.111,42.72,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",4,7,"t",1,1.111,44.12,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",3,6,"t",1,3.333,33.73,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",3,7,"t",1,3.333,35.15,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",2,6,"t",1,10,20.2,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011638","02Apr2014.Plate.17",2,7,"t",1,10,22.57,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",7,6,"t",1,0.082,14.71,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",7,7,"t",1,0.082,11.98,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",6,6,"t",1,0.247,8.66,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",6,7,"t",1,0.247,10.5,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",5,6,"t",1,0.741,8.65,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",5,7,"t",1,0.741,8.95,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",4,6,"t",1,2.222,4.7,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",4,7,"t",1,2.222,5.5,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",3,6,"t",1,6.667,2.72,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",3,7,"t",1,6.667,2.58,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",2,6,"t",1,20,0.97,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011630","26Mar2014.Plate.19",2,7,"t",1,20,1.09,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",7,8,"t",1,0.052,15.35,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",7,9,"t",1,0.052,14.55,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",6,8,"t",1,0.157,13.94,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",6,9,"t",1,0.157,14.49,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",5,8,"t",1,0.47,17.97,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",5,9,"t",1,0.47,16.09,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",4,8,"t",1,1.411,13.58,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",3,8,"t",1,4.233,17.12,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",4,9,"t",1,1.411,13.81,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",3,9,"t",1,4.233,18.31,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",2,8,"t",1,12.7,17.75,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011613","09Apr2014.Plate.10",2,9,"t",1,12.7,18.65,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",7,7,"t",1,0.412,13.91,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",7,6,"t",1,0.412,11.83,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",6,6,"t",1,1.235,10.66,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",6,7,"t",1,1.235,12.72,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",5,7,"t",1,3.704,13.99,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",5,6,"t",1,3.704,13.36,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",4,6,"t",1,11.111,12.17,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",4,7,"t",1,11.111,13.28,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",3,6,"t",1,33.333,13.6,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",2,6,"t",1,100,18.16,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",3,7,"t",1,33.333,18.9,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX011250","09Apr2014.Plate.31",2,7,"t",1,100,24.33,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",7,8,"t",1,0.041,12.88,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",7,9,"t",1,0.041,11.98,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",6,9,"t",1,0.123,9.73,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",6,8,"t",1,0.123,11.06,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",5,8,"t",1,0.37,8.79,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",5,9,"t",1,0.37,8.99,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",4,8,"t",1,1.111,7.81,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",3,8,"t",1,3.333,5.45,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",4,9,"t",1,1.111,8.85,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",3,9,"t",1,3.333,3.72,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",2,8,"t",1,10,1.98,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010299","09Apr2014.Plate.25",2,9,"t",1,10,1.2,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",7,8,"t",1,0.412,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",7,9,"t",1,0.412,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",6,8,"t",1,1.235,14.53,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",6,9,"t",1,1.235,11.33,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",5,8,"t",1,3.704,8.98,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",5,9,"t",1,3.704,6.37,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",4,8,"t",1,11.111,7.67,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",4,9,"t",1,11.111,6.29,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",3,8,"t",1,33.333,7.34,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",3,9,"t",1,33.333,6.08,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",2,8,"t",1,100,4.65,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010235","09Apr2014.Plate.11",2,9,"t",1,100,3.75,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",7,10,"t",1,0.412,15.71,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",7,11,"t",1,0.412,13.92,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",6,10,"t",1,1.235,13.9,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",6,11,"t",1,1.235,10.84,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",5,10,"t",1,3.704,13.04,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",5,11,"t",1,3.704,12.99,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",4,10,"t",1,11.111,9.37,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",4,11,"t",1,11.111,9.6,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",3,10,"t",1,33.333,9.79,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",3,11,"t",1,33.333,8.97,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",2,10,"t",1,100,8.32,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010217","09Apr2014.Plate.20",2,11,"t",1,100,7.97,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",7,10,"t",1,0.412,15.21,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",7,11,"t",1,0.412,13.83,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",6,10,"t",1,1.235,15.54,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",6,11,"t",1,1.235,18.05,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",5,10,"t",1,3.704,18.76,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",5,11,"t",1,3.704,16.07,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",4,10,"t",1,11.111,19.2,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",4,11,"t",1,11.111,18.67,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",3,10,"t",1,33.333,25.63,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",3,11,"t",1,33.333,26.41,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",2,10,"t",1,100,37.91,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010199","09Apr2014.Plate.16",2,11,"t",1,100,37.5,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",7,4,"t",1,0.412,13.64,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",7,5,"t",1,0.412,10.04,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",6,4,"t",1,1.235,10.65,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",6,5,"t",1,1.235,10.68,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",5,4,"t",1,3.704,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",5,5,"t",1,3.704,12.32,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",4,4,"t",1,11.111,9.34,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",4,5,"t",1,11.111,8.36,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",3,4,"t",1,33.333,7.99,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",3,5,"t",1,33.333,7.22,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",2,4,"t",1,100,4.48,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010183","09Apr2014.Plate.32",2,5,"t",1,100,4.23,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",7,10,"t",1,0.018,4.09,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",7,11,"t",1,0.018,7.68,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",6,10,"t",1,0.054,4,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",6,11,"t",1,0.054,6.81,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",5,10,"t",1,0.163,6.26,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",5,11,"t",1,0.163,6.04,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",4,10,"t",1,0.489,9.25,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",4,11,"t",1,0.489,5.43,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",3,10,"t",1,1.467,4.63,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",3,11,"t",1,1.467,9.76,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",2,10,"t",1,4.4,3.81,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010112","09Apr2014.Plate.21",2,11,"t",1,4.4,6.23,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",7,8,"t",1,0.412,22.36,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",7,9,"t",1,0.412,21.85,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",6,8,"t",1,1.235,52.76,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",6,9,"t",1,1.235,46.6,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",5,8,"t",1,3.704,72.69,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",5,9,"t",1,3.704,60.91,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",4,8,"t",1,11.111,85.21,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",4,9,"t",1,11.111,63.85,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",3,8,"t",1,33.333,86.1,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",2,8,"t",1,100,83.21,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",3,9,"t",1,33.333,73.23,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010035","09Apr2014.Plate.17",2,9,"t",1,100,74.65,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",7,8,"t",1,0.039,27.75,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",7,9,"t",1,0.039,28.85,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",6,9,"t",1,0.116,46.43,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",6,8,"t",1,0.116,42.43,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",5,8,"t",1,0.348,44.07,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",5,9,"t",1,0.348,49.19,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",4,8,"t",1,1.044,52.12,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",3,8,"t",1,3.133,57.9,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",4,9,"t",1,1.044,55.64,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",3,9,"t",1,3.133,54.75,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",2,8,"t",1,9.4,63.58,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010009","02Apr2014.Plate.6",2,9,"t",1,9.4,54.11,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",7,4,"t",1,0.412,15.37,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",7,5,"t",1,0.412,9.81,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",6,4,"t",1,1.235,6.69,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",6,5,"t",1,1.235,6.36,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",5,4,"t",1,3.704,7.42,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",5,5,"t",1,3.704,5.89,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",4,4,"t",1,11.111,4.8,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",4,5,"t",1,11.111,4.6,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",3,4,"t",1,33.333,3.12,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",3,5,"t",1,33.333,2.39,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",2,4,"t",1,100,1.66,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX010001","09Apr2014.Plate.14",2,5,"t",1,100,1.31,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",7,8,"t",1,0.412,16.44,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",7,9,"t",1,0.412,16.07,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",6,8,"t",1,1.235,16.79,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",6,9,"t",1,1.235,16,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",5,8,"t",1,3.704,16.9,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",5,9,"t",1,3.704,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",4,8,"t",1,11.111,14.27,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",4,9,"t",1,11.111,12.53,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",3,8,"t",1,33.333,16.88,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",3,9,"t",1,33.333,12.21,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",2,8,"t",1,100,11.35,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009828","09Apr2014.Plate.20",2,9,"t",1,100,10.95,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",7,8,"t",1,0.091,43.31,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",7,9,"t",1,0.091,35.22,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",6,8,"t",1,0.272,35.9,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",6,9,"t",1,0.272,29.99,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",5,8,"t",1,0.815,34.73,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",5,9,"t",1,0.815,26.53,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",4,8,"t",1,2.444,22.29,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",4,9,"t",1,2.444,17.59,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",3,8,"t",1,7.333,9.83,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",3,9,"t",1,7.333,8.03,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",2,8,"t",1,22,2.81,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009792","02Apr2014.Plate.18",2,9,"t",1,22,2.26,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",7,6,"t",1,0.041,15.23,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",7,7,"t",1,0.041,14.12,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",6,6,"t",1,0.123,13.81,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",6,7,"t",1,0.123,13.8,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",5,6,"t",1,0.37,17.55,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",5,7,"t",1,0.37,13.13,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",4,6,"t",1,1.111,16.36,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",4,7,"t",1,1.111,15.31,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",3,6,"t",1,3.333,14.34,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",3,7,"t",1,3.333,14.99,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",2,6,"t",1,10,8.69,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009766","09Apr2014.Plate.14",2,7,"t",1,10,8.01,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",7,8,"t",1,0.082,7.66,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",7,9,"t",1,0.082,5.8,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",6,8,"t",1,0.247,7.83,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",5,8,"t",1,0.741,9.06,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",6,9,"t",1,0.247,4.88,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",5,9,"t",1,0.741,9.18,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",4,8,"t",1,2.222,11.42,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",4,9,"t",1,2.222,9.3,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",3,9,"t",1,6.667,10.27,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",3,8,"t",1,6.667,12.31,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",2,8,"t",1,20,12.13,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009742","26Mar2014.Plate.9",2,9,"t",1,20,11.19,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",7,6,"t",1,0.412,12.91,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",7,7,"t",1,0.412,11.67,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",6,7,"t",1,1.235,10.77,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",6,6,"t",1,1.235,15.28,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",5,6,"t",1,3.704,11.17,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",5,7,"t",1,3.704,9.68,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",4,7,"t",1,11.111,8.98,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",4,6,"t",1,11.111,9.88,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",3,6,"t",1,33.333,8.93,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",3,7,"t",1,33.333,8.71,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",2,6,"t",1,100,3.19,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009720","09Apr2014.Plate.17",2,7,"t",1,100,2.42,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",7,8,"t",1,0.14,11.19,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",7,9,"t",1,0.14,12.07,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",6,8,"t",1,0.42,8.78,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",6,9,"t",1,0.42,8.52,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",5,8,"t",1,1.259,6.54,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",5,9,"t",1,1.259,6.23,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",4,8,"t",1,3.778,6.2,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",4,9,"t",1,3.778,5.71,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",3,8,"t",1,11.333,3.51,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",3,9,"t",1,11.333,3.82,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",2,8,"t",1,34,2.34,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009582","09Apr2014.Plate.13",2,9,"t",1,34,2.42,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",7,10,"t",1,0.082,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",7,11,"t",1,0.082,7.58,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",6,10,"t",1,0.247,10.48,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",6,11,"t",1,0.247,9.94,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",5,10,"t",1,0.741,8.57,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",5,11,"t",1,0.741,7.44,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",4,10,"t",1,2.222,11.42,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",4,11,"t",1,2.222,7.55,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",3,10,"t",1,6.667,8.64,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",3,11,"t",1,6.667,8.79,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",2,10,"t",1,20,8.01,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009478","09Apr2014.Plate.24",2,11,"t",1,20,7.53,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",7,6,"t",1,0.412,12.37,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",7,7,"t",1,0.412,8.98,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",6,6,"t",1,1.235,11.94,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",6,7,"t",1,1.235,12.14,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",5,6,"t",1,3.704,9.87,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",5,7,"t",1,3.704,6.83,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",4,6,"t",1,11.111,23.59,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",4,7,"t",1,11.111,7.43,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",3,6,"t",1,33.333,5.83,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",2,6,"t",1,100,2.22,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",3,7,"t",1,33.333,4.72,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009419","09Apr2014.Plate.24",2,7,"t",1,100,2.19,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",7,7,"t",1,0.082,61.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",7,6,"t",1,0.082,59.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",6,6,"t",1,0.247,63.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",5,6,"t",1,0.741,65.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",6,7,"t",1,0.247,70.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",5,7,"t",1,0.741,64.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",4,7,"t",1,2.222,62.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",4,6,"t",1,2.222,60.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",3,6,"t",1,6.667,55.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",2,6,"t",1,20,34.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",3,7,"t",1,6.667,35.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009384","03Sep2014.Plate.19",2,7,"t",1,20,44.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",7,5,"t",1,0.412,15.98,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",7,4,"t",1,0.412,15.24,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",6,4,"t",1,1.235,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",5,4,"t",1,3.704,19.58,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",6,5,"t",1,1.235,11.47,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",5,5,"t",1,3.704,13.16,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",4,5,"t",1,11.111,12.58,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",4,4,"t",1,11.111,13.96,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",3,4,"t",1,33.333,13.33,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",2,4,"t",1,100,11.88,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",3,5,"t",1,33.333,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009285","09Apr2014.Plate.19",2,5,"t",1,100,11.04,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",7,11,"t",1,0.412,9.48,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",7,10,"t",1,0.412,11.96,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",6,10,"t",1,1.235,10.33,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",5,10,"t",1,3.704,11.59,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",6,11,"t",1,1.235,8.69,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",5,11,"t",1,3.704,10.92,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",4,11,"t",1,11.111,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",4,10,"t",1,11.111,12.12,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",3,10,"t",1,33.333,13.84,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",2,10,"t",1,100,13,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",3,11,"t",1,33.333,11.42,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009281","09Apr2014.Plate.22",2,11,"t",1,100,12.9,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",7,5,"t",1,0.412,15.57,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",7,4,"t",1,0.412,17.26,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",6,4,"t",1,1.235,17.22,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",5,4,"t",1,3.704,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",6,5,"t",1,1.235,16.33,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",5,5,"t",1,3.704,15.22,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",4,5,"t",1,11.111,14.69,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",4,4,"t",1,11.111,17.57,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",3,4,"t",1,33.333,16.05,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",2,4,"t",1,100,9.72,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",3,5,"t",1,33.333,19.56,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009193","09Apr2014.Plate.33",2,5,"t",1,100,9.87,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",7,9,"t",1,0.082,60.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",7,8,"t",1,0.082,54.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",6,8,"t",1,0.247,60.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",5,8,"t",1,0.741,73.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",6,9,"t",1,0.247,71.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",5,9,"t",1,0.741,70.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",4,9,"t",1,2.222,65.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",4,8,"t",1,2.222,69.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",3,8,"t",1,6.667,46.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",2,8,"t",1,20,28.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",3,9,"t",1,6.667,52.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009165","03Sep2014.Plate.3",2,9,"t",1,20,31.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" -"TX009156","20130320.Plate.1",7,4,"t",1,0.07,14.27,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",6,4,"t",1,0.21,12.4,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",7,5,"t",1,0.07,9.62,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",6,5,"t",1,0.21,13.25,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",5,4,"t",1,0.64,15.66,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",4,4,"t",1,1.91,15.9,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",5,5,"t",1,0.64,14.28,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",4,5,"t",1,1.91,15.62,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",3,4,"t",1,5.73,13.89,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",3,5,"t",1,5.73,14.42,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",2,4,"t",1,17.2,13.3,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009156","20130320.Plate.1",2,5,"t",1,17.2,13.93,"ToxCast_1 CR 20130320 Plate 1.csv","cort" -"TX009070","02Apr2014.Plate.3",7,5,"t",1,0.051,40.72,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",7,4,"t",1,0.051,40.46,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",6,4,"t",1,0.154,43.58,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",5,4,"t",1,0.463,37.57,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",6,5,"t",1,0.154,36.69,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",5,5,"t",1,0.463,38.07,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",4,5,"t",1,1.389,37.19,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",4,4,"t",1,1.389,45.01,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",3,4,"t",1,4.167,46.75,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",2,4,"t",1,12.5,42.91,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",3,5,"t",1,4.167,39.47,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009070","02Apr2014.Plate.3",2,5,"t",1,12.5,44.43,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",7,6,"t",1,0.206,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",7,7,"t",1,0.206,14.08,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",6,6,"t",1,0.617,15.14,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",6,7,"t",1,0.617,16.21,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",5,6,"t",1,1.852,15.54,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",5,7,"t",1,1.852,12.65,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",4,6,"t",1,5.556,17.71,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",4,7,"t",1,5.556,14.96,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",3,6,"t",1,16.667,21.18,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",3,7,"t",1,16.667,19.35,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",2,6,"t",1,50,20.35,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009065","09Apr2014.Plate.33",2,7,"t",1,50,16.67,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",7,10,"t",1,0.412,13.02,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",7,11,"t",1,0.412,11.55,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",6,10,"t",1,1.235,10.8,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",6,11,"t",1,1.235,10.56,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",5,10,"t",1,3.704,7.58,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",5,11,"t",1,3.704,7.34,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",4,10,"t",1,11.111,1.73,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",4,11,"t",1,11.111,1.47,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",3,10,"t",1,33.333,0.69,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",3,11,"t",1,33.333,0.63,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",2,10,"t",1,100,1.25,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009051","09Apr2014.Plate.12",2,11,"t",1,100,1.12,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",7,10,"t",1,0.412,12.03,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",7,11,"t",1,0.412,11.68,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",6,10,"t",1,1.235,18.54,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",6,11,"t",1,1.235,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",5,10,"t",1,3.704,14,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",5,11,"t",1,3.704,11.72,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",4,10,"t",1,11.111,16.18,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",4,11,"t",1,11.111,18.46,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",3,10,"t",1,33.333,8.34,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",3,11,"t",1,33.333,6.79,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",2,10,"t",1,100,1.05,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX009041","09Apr2014.Plate.18",2,11,"t",1,100,0.94,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",7,6,"t",1,0.412,17,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",7,7,"t",1,0.412,15.2,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",6,6,"t",1,1.235,17.53,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",6,7,"t",1,1.235,19.58,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",5,6,"t",1,3.704,14.25,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",5,7,"t",1,3.704,12.37,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",4,6,"t",1,11.111,14.39,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",4,7,"t",1,11.111,14.02,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",3,6,"t",1,33.333,17.55,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",3,7,"t",1,33.333,13.01,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",2,6,"t",1,100,15.44,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008849","09Apr2014.Plate.18",2,7,"t",1,100,13.33,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",7,6,"t",1,0.008,68.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",7,7,"t",1,0.008,60.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",6,6,"t",1,0.025,73.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",6,7,"t",1,0.025,71.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",5,6,"t",1,0.074,74.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",5,7,"t",1,0.074,67.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",4,6,"t",1,0.222,67.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",4,7,"t",1,0.222,67.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",3,6,"t",1,0.667,73.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",3,7,"t",1,0.667,73.17,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",2,6,"t",1,2,71.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008731","03Sep2014.Plate.5",2,7,"t",1,2,70.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",7,6,"t",1,0.082,66.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",7,7,"t",1,0.082,72.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",6,6,"t",1,0.247,74.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",6,7,"t",1,0.247,70.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",5,6,"t",1,0.741,80.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",5,7,"t",1,0.741,82.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",4,6,"t",1,2.222,80.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",4,7,"t",1,2.222,87.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",3,6,"t",1,6.667,74.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",3,7,"t",1,6.667,75.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",2,6,"t",1,20,49.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008704","03Sep2014.Plate.4",2,7,"t",1,20,58.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",7,8,"t",1,0.412,16.19,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",7,9,"t",1,0.412,13.61,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",6,8,"t",1,1.235,18.11,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",6,9,"t",1,1.235,15.04,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",5,8,"t",1,3.704,17.9,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",5,9,"t",1,3.704,15.94,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",4,8,"t",1,11.111,17.24,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",3,8,"t",1,33.333,20.71,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",4,9,"t",1,11.111,16.17,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",3,9,"t",1,33.333,18.51,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",2,8,"t",1,100,19.7,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008567","09Apr2014.Plate.18",2,9,"t",1,100,15.37,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",7,9,"t",1,0.004,12.31,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",7,8,"t",1,0.004,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",6,9,"t",1,0.012,13.48,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",6,8,"t",1,0.012,14.83,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",5,8,"t",1,0.037,12.6,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",4,8,"t",1,0.111,13.24,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",5,9,"t",1,0.037,13.37,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",4,9,"t",1,0.111,12,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",3,9,"t",1,0.333,8.97,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",3,8,"t",1,0.333,12.2,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",2,8,"t",1,1,9.89,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",7,10,"t",1,0.412,12.91,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008428","09Apr2014.Plate.31",2,9,"t",1,1,8.94,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",7,11,"t",1,0.412,13.95,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",6,11,"t",1,1.235,12.32,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",6,10,"t",1,1.235,11.38,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",5,10,"t",1,3.704,9.45,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",4,10,"t",1,11.111,12.17,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",5,11,"t",1,3.704,9.95,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",4,11,"t",1,11.111,10,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",3,11,"t",1,33.333,7.7,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",3,10,"t",1,33.333,9.22,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",2,10,"t",1,100,5.97,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",7,4,"t",1,0.412,15.36,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008416","09Apr2014.Plate.25",2,11,"t",1,100,4.79,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",7,5,"t",1,0.412,13.65,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",6,5,"t",1,1.235,12.41,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",6,4,"t",1,1.235,13.97,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",5,4,"t",1,3.704,13.74,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",4,4,"t",1,11.111,17.84,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",5,5,"t",1,3.704,15.2,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",4,5,"t",1,11.111,16.4,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",3,5,"t",1,33.333,15.45,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",3,4,"t",1,33.333,14.07,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",2,4,"t",1,100,8.93,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",7,4,"t",1,0.059,17.36,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008326","09Apr2014.Plate.30",2,5,"t",1,100,11.24,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",7,5,"t",1,0.059,17.14,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",6,4,"t",1,0.177,15.96,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",6,5,"t",1,0.177,14.83,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",5,4,"t",1,0.53,15.68,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",5,5,"t",1,0.53,14.22,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",4,4,"t",1,1.589,19.53,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",4,5,"t",1,1.589,16.02,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",3,4,"t",1,4.767,19.77,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",3,5,"t",1,4.767,18.91,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",2,5,"t",1,14.3,15.32,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008321","09Apr2014.Plate.9",2,4,"t",1,14.3,16.96,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",7,8,"t",1,0.082,64.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",6,8,"t",1,0.247,61.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",7,9,"t",1,0.082,60.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",6,9,"t",1,0.247,67.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",5,8,"t",1,0.741,74.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",5,9,"t",1,0.741,72.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",4,8,"t",1,2.222,76.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",4,9,"t",1,2.222,72.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",3,8,"t",1,6.667,60.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",3,9,"t",1,6.667,62.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",2,8,"t",1,20,29.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008082","03Sep2014.Plate.1",2,9,"t",1,20,27.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",7,6,"t",1,0.082,63.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",7,7,"t",1,0.082,54.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",6,6,"t",1,0.247,69.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",6,7,"t",1,0.247,64.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",5,6,"t",1,0.741,71.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",5,7,"t",1,0.741,64.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",4,6,"t",1,2.222,61.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",4,7,"t",1,2.222,61.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",3,6,"t",1,6.667,58.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",3,7,"t",1,6.667,61.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",2,6,"t",1,20,38.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX008070","03Sep2014.Plate.18",2,7,"t",1,20,49.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",7,6,"t",1,0.412,18.99,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",7,7,"t",1,0.412,18.36,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",6,6,"t",1,1.235,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",6,7,"t",1,1.235,12.26,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",5,6,"t",1,3.704,16.56,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",5,7,"t",1,3.704,14.18,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",4,6,"t",1,11.111,17.01,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",4,7,"t",1,11.111,14.18,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",3,6,"t",1,33.333,19.86,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",3,7,"t",1,33.333,18.7,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",2,6,"t",1,100,18.9,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007874","09Apr2014.Plate.15",2,7,"t",1,100,16.4,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",7,6,"t",1,0.412,15.35,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",7,7,"t",1,0.412,13.02,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",6,6,"t",1,1.235,14.34,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",6,7,"t",1,1.235,12.96,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",5,6,"t",1,3.704,15.09,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",5,7,"t",1,3.704,11.93,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",4,6,"t",1,11.111,13.26,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",4,7,"t",1,11.111,13.51,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",3,6,"t",1,33.333,14.96,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",3,7,"t",1,33.333,14.23,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",2,6,"t",1,100,1.13,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007832","09Apr2014.Plate.26",2,7,"t",1,100,0.87,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",7,10,"t",1,0.412,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",7,11,"t",1,0.412,13.9,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",6,10,"t",1,1.235,13.6,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",6,11,"t",1,1.235,12.85,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",5,10,"t",1,3.704,14.89,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",5,11,"t",1,3.704,15.33,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",4,10,"t",1,11.111,17.09,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",4,11,"t",1,11.111,16.71,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",3,10,"t",1,33.333,16.15,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",3,11,"t",1,33.333,17.71,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",2,10,"t",1,100,12.8,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007792","09Apr2014.Plate.15",2,11,"t",1,100,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",7,10,"t",1,0.412,14.44,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",7,11,"t",1,0.412,13.32,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",6,10,"t",1,1.235,12.73,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",6,11,"t",1,1.235,14.44,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",5,10,"t",1,3.704,15.64,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",5,11,"t",1,3.704,16.09,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",4,10,"t",1,11.111,15.44,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",4,11,"t",1,11.111,13.66,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",3,10,"t",1,33.333,13.87,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",3,11,"t",1,33.333,14.86,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",2,10,"t",1,100,14.21,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007784","09Apr2014.Plate.31",2,11,"t",1,100,12.94,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",7,4,"t",1,0.412,14.41,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",7,5,"t",1,0.412,13.54,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",6,4,"t",1,1.235,9.73,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",6,5,"t",1,1.235,12.83,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",5,4,"t",1,3.704,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",5,5,"t",1,3.704,13.28,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",4,5,"t",1,11.111,13.68,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",4,4,"t",1,11.111,12.37,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",3,5,"t",1,33.333,14.08,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",3,4,"t",1,33.333,16.41,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",2,4,"t",1,100,6.49,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",7,4,"t",1,0.008,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007602","09Apr2014.Plate.22",2,5,"t",1,100,7.7,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",7,5,"t",1,0.008,14.44,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",6,5,"t",1,0.025,15.26,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",6,4,"t",1,0.025,15.13,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",5,4,"t",1,0.074,12.86,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",4,4,"t",1,0.222,15.88,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",5,5,"t",1,0.074,11.58,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",4,5,"t",1,0.222,14.84,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",3,5,"t",1,0.667,14.15,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",3,4,"t",1,0.667,14.94,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",2,4,"t",1,2,14.31,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",7,8,"t",1,0.005,14.78,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007494","09Apr2014.Plate.16",2,5,"t",1,2,13.34,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",7,9,"t",1,0.005,17.06,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",6,9,"t",1,0.015,11.54,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",6,8,"t",1,0.015,12.35,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",5,8,"t",1,0.044,14.09,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",4,8,"t",1,0.131,10.44,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",5,9,"t",1,0.044,10.3,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",4,9,"t",1,0.131,10.47,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",3,9,"t",1,0.393,9.51,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",3,8,"t",1,0.393,9.88,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",2,8,"t",1,1.18,9,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",7,4,"t",1,0.412,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007436","09Apr2014.Plate.14",2,9,"t",1,1.18,8.91,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",7,5,"t",1,0.412,10.88,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",6,4,"t",1,1.235,10.48,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",5,4,"t",1,3.704,11.25,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",6,5,"t",1,1.235,12.88,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",5,5,"t",1,3.704,10.77,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",4,5,"t",1,11.111,10.32,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",4,4,"t",1,11.111,7.94,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",3,4,"t",1,33.333,5.03,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",2,4,"t",1,100,0.82,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",3,5,"t",1,33.333,7.26,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",7,6,"t",1,0.008,58.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007354","09Apr2014.Plate.26",2,5,"t",1,100,0.74,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",7,7,"t",1,0.008,58.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",6,6,"t",1,0.025,70.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",6,7,"t",1,0.025,63.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",5,6,"t",1,0.074,76.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",5,7,"t",0,0.074,NA,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",4,6,"t",1,0.222,70.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",4,7,"t",1,0.222,65.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",3,6,"t",1,0.667,63.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",3,7,"t",1,0.667,65.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",2,7,"t",1,2,44.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007304","03Sep2014.Plate.21",2,6,"t",1,2,47.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",7,6,"t",1,0,15.01,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",7,7,"t",1,0,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",6,6,"t",1,0,14.18,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",6,7,"t",1,0,15.39,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",5,6,"t",1,0,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",5,7,"t",1,0,14.14,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",4,6,"t",1,0.001,18.54,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",4,7,"t",1,0.001,16.41,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",3,6,"t",1,0.003,18.33,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",3,7,"t",1,0.003,15.31,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",2,6,"t",1,0.01,16.58,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007257","09Apr2014.Plate.13",2,7,"t",1,0.01,15.34,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",7,4,"t",1,0.041,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",7,5,"t",1,0.041,11.7,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",6,4,"t",1,0.123,13.08,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",6,5,"t",1,0.123,9.9,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",5,4,"t",1,0.37,14.38,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",5,5,"t",1,0.37,11.58,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",4,4,"t",1,1.111,14.22,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",4,5,"t",1,1.111,16.21,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",3,4,"t",1,3.333,13.72,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",3,5,"t",1,3.333,11.12,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",2,4,"t",1,10,7.45,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007207","09Apr2014.Plate.27",2,5,"t",1,10,6.79,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",7,4,"t",1,0.082,14.76,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",7,5,"t",1,0.082,14.2,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",6,4,"t",1,0.247,12.6,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",6,5,"t",1,0.247,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",5,4,"t",1,0.741,14.26,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",5,5,"t",1,0.741,11.87,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",4,5,"t",1,2.222,13.67,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",4,4,"t",1,2.222,14.11,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",3,5,"t",1,6.667,13.24,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",3,4,"t",1,6.667,15.56,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",2,4,"t",1,20,14.65,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",7,4,"t",1,0.082,62.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007199","09Apr2014.Plate.28",2,5,"t",1,20,13.45,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",7,5,"t",1,0.082,65.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",6,5,"t",1,0.247,66.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",6,4,"t",1,0.247,63.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",5,4,"t",1,0.741,83.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",5,5,"t",1,0.741,83.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",4,4,"t",1,2.222,84.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",4,5,"t",1,2.222,85.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",3,4,"t",1,6.667,71.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",3,5,"t",1,6.667,70.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",2,4,"t",1,20,58.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007188","03Sep2014.Plate.4",2,5,"t",1,20,54.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",7,4,"t",1,0.412,46.54,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",7,5,"t",1,0.412,51.03,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",6,4,"t",1,1.235,43.62,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",6,5,"t",1,1.235,38.08,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",5,4,"t",1,3.704,50.19,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",5,5,"t",1,3.704,37.18,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",4,4,"t",1,11.111,46.32,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",4,5,"t",1,11.111,48.98,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",3,4,"t",1,33.333,45.66,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",3,5,"t",1,33.333,44.73,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",2,4,"t",1,100,42.76,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX007156","02Apr2014.Plate.8",2,5,"t",1,100,38.66,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",7,8,"t",1,0.082,65.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",7,9,"t",1,0.082,75.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",6,8,"t",1,0.247,73.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",6,9,"t",1,0.247,76.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",5,8,"t",1,0.741,76.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",5,9,"t",1,0.741,78.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",4,8,"t",1,2.222,81.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",4,9,"t",1,2.222,89.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",3,8,"t",1,6.667,81.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",3,9,"t",1,6.667,77.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",2,8,"t",1,20,63.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006949","03Sep2014.Plate.7",2,9,"t",1,20,68.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",7,6,"t",1,0.082,64.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",7,7,"t",1,0.082,65.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",6,7,"t",1,0.247,70.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",6,6,"t",1,0.247,66.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",5,6,"t",1,0.741,72.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",4,6,"t",1,2.222,53.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",5,7,"t",1,0.741,67.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",4,7,"t",1,2.222,55.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",3,7,"t",1,6.667,27.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",3,6,"t",1,6.667,29.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",2,6,"t",1,20,7.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",7,8,"t",1,0.412,19.99,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006887","03Sep2014.Plate.20",2,7,"t",1,20,8.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",7,9,"t",1,0.412,18.7,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",6,9,"t",1,1.235,12.44,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",6,8,"t",1,1.235,14.62,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",5,8,"t",1,3.704,15.8,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",4,8,"t",1,11.111,16.88,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",5,9,"t",1,3.704,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",4,9,"t",1,11.111,13.47,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",3,9,"t",1,33.333,15.34,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",3,8,"t",1,33.333,19.68,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",2,8,"t",1,100,18.02,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",7,10,"t",1,0.412,16.62,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006763","09Apr2014.Plate.15",2,9,"t",1,100,12.82,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",7,11,"t",1,0.412,12.35,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",6,11,"t",1,1.235,13.27,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",6,10,"t",1,1.235,13.12,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",5,10,"t",1,3.704,8.35,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",4,10,"t",1,11.111,3.28,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",5,11,"t",1,3.704,7.86,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",4,11,"t",1,11.111,2.65,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",3,11,"t",1,33.333,4,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",3,10,"t",1,33.333,4.95,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",2,10,"t",1,100,4.19,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",7,4,"t",1,0.082,59.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006695","09Apr2014.Plate.17",2,11,"t",1,100,3.62,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",7,5,"t",1,0.082,53.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",6,4,"t",1,0.247,65.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",6,5,"t",1,0.247,56.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",5,4,"t",1,0.741,45.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",5,5,"t",1,0.741,50.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",4,4,"t",1,2.222,22.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",3,4,"t",1,6.667,6.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",4,5,"t",1,2.222,22.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",3,5,"t",1,6.667,6.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",2,5,"t",1,20,2.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006656","03Sep2014.Plate.21",2,4,"t",1,20,2.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",7,4,"t",1,0.082,44.27,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",7,5,"t",1,0.082,40.62,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",6,5,"t",1,0.247,38.92,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",6,4,"t",1,0.247,46.03,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",5,4,"t",1,0.741,49.8,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",4,4,"t",1,2.222,46.64,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",5,5,"t",1,0.741,47.26,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",4,5,"t",1,2.222,41.65,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",3,5,"t",1,6.667,43.11,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",3,4,"t",1,6.667,42,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",2,4,"t",1,20,29.89,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",7,4,"t",1,0.082,47.57,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006393","02Apr2014.Plate.32",2,5,"t",1,20,29.93,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",7,5,"t",1,0.082,39.1,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",6,5,"t",1,0.247,38.09,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",6,4,"t",1,0.247,47.51,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",5,4,"t",1,0.741,46.26,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",4,4,"t",1,2.222,47.01,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",5,5,"t",1,0.741,44.83,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",4,5,"t",1,2.222,33.02,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",3,5,"t",1,6.667,34.66,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",3,4,"t",1,6.667,36.03,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",2,4,"t",1,20,29.86,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",7,10,"t",1,0.082,33.61,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006305","02Apr2014.Plate.27",2,5,"t",1,20,24.02,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",7,11,"t",1,0.082,35.46,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",6,11,"t",1,0.247,32.9,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",6,10,"t",1,0.247,33.27,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",5,10,"t",1,0.741,29.73,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",4,10,"t",1,2.222,25.08,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",5,11,"t",1,0.741,27.83,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",4,11,"t",1,2.222,26.65,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",3,10,"t",1,6.667,18.7,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",3,11,"t",1,6.667,21.36,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",2,10,"t",1,20,21.96,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006301","02Apr2014.Plate.6",2,11,"t",1,20,15.79,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",7,8,"t",1,0.008,43.64,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",7,9,"t",1,0.008,45.84,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",6,8,"t",1,0.025,51.33,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",6,9,"t",1,0.025,41.65,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",5,8,"t",1,0.074,50.14,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",5,9,"t",1,0.074,45.77,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",4,8,"t",1,0.222,41.8,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",4,9,"t",1,0.222,40.38,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",3,9,"t",1,0.667,14.24,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",3,8,"t",1,0.667,18.31,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",2,8,"t",1,2,1.44,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006299","02Apr2014.Plate.12",2,9,"t",1,2,1.6,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",7,9,"t",1,0.082,12.24,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",7,8,"t",1,0.082,15.29,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",6,8,"t",1,0.247,10.65,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",5,8,"t",1,0.741,9.48,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",6,9,"t",1,0.247,8.02,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",5,9,"t",1,0.741,9.74,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",4,9,"t",1,2.222,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",4,8,"t",1,2.222,10.43,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",3,8,"t",1,6.667,8.9,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",2,8,"t",1,20,8.79,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",3,9,"t",1,6.667,8.25,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006256","26Mar2014.Plate.14",2,9,"t",1,20,7.37,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",7,7,"t",1,0.077,11.76,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",7,6,"t",1,0.077,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",6,6,"t",1,0.231,14.4,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",5,6,"t",1,0.693,11.12,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",6,7,"t",1,0.231,11.73,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",5,7,"t",1,0.693,11.68,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",4,7,"t",1,2.078,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",4,6,"t",1,2.078,10.78,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",3,6,"t",1,6.233,10.38,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",2,6,"t",1,18.7,11.26,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",3,7,"t",1,6.233,10.47,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006251","09Apr2014.Plate.4",2,7,"t",1,18.7,10.48,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",7,11,"t",1,0.082,38.95,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",7,10,"t",1,0.082,40.98,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",6,10,"t",1,0.247,37.85,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",6,11,"t",1,0.247,42.3,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",5,10,"t",1,0.741,41.09,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",5,11,"t",1,0.741,40.58,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",4,10,"t",1,2.222,39.26,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",4,11,"t",1,2.222,40.64,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",3,10,"t",1,6.667,39.72,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",3,11,"t",1,6.667,37.99,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",2,10,"t",1,20,36.1,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006230","02Apr2014.Plate.9",2,11,"t",1,20,34.14,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",7,6,"t",1,0.021,52.1,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",7,7,"t",1,0.021,43.45,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",6,6,"t",1,0.062,47.31,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",6,7,"t",1,0.062,40.93,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",5,6,"t",1,0.185,46.74,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",5,7,"t",1,0.185,47.37,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",4,6,"t",1,0.556,45.87,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",4,7,"t",1,0.556,42.55,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",3,6,"t",1,1.667,49.3,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",3,7,"t",1,1.667,45.96,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",2,6,"t",1,5,36.18,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006218","02Apr2014.Plate.14",2,7,"t",1,5,33.96,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",7,4,"t",1,0.008,13.69,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",7,5,"t",1,0.008,11.54,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",6,4,"t",1,0.023,14.5,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",6,5,"t",1,0.023,12.12,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",5,4,"t",1,0.068,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",5,5,"t",1,0.068,12.29,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",4,4,"t",1,0.204,13.24,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",4,5,"t",1,0.204,10.63,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",3,4,"t",1,0.613,7.81,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",3,5,"t",1,0.613,8.5,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",2,4,"t",1,1.84,4.85,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006204","09Apr2014.Plate.2",2,5,"t",1,1.84,4.67,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",7,10,"t",1,0.082,43.06,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",7,11,"t",1,0.082,49.41,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",6,10,"t",1,0.247,39.23,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",5,10,"t",1,0.741,36.88,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",6,11,"t",1,0.247,41.95,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",5,11,"t",1,0.741,34.1,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",4,11,"t",1,2.222,34.04,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",4,10,"t",1,2.222,31.77,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",3,11,"t",1,6.667,26.78,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",3,10,"t",1,6.667,24.1,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",2,10,"t",1,20,16.66,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006203","02Apr2014.Plate.12",2,11,"t",1,20,14.36,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",7,6,"t",1,0.038,14.63,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",7,7,"t",1,0.038,11.77,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",6,6,"t",1,0.115,13.5,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",6,7,"t",1,0.115,9.19,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",5,6,"t",1,0.344,8.58,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",5,7,"t",1,0.344,7.53,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",4,6,"t",1,1.033,6.49,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",4,7,"t",1,1.033,6.56,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",3,6,"t",1,3.1,6.79,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",3,7,"t",1,3.1,6.79,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",2,6,"t",1,9.3,8.28,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006202","09Apr2014.Plate.10",2,7,"t",1,9.3,7.36,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",7,6,"t",1,0.082,55.84,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",7,7,"t",1,0.082,53.69,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",6,6,"t",1,0.247,53.59,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",6,7,"t",1,0.247,43.76,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",5,6,"t",1,0.741,54.82,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",5,7,"t",1,0.741,49.7,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",4,6,"t",1,2.222,51.59,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",4,7,"t",1,2.222,48.67,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",3,6,"t",1,6.667,45.5,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",3,7,"t",1,6.667,42.92,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",2,6,"t",1,20,29.32,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006198","02Apr2014.Plate.15",2,7,"t",1,20,25.26,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",7,6,"t",1,0.082,49.4,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",7,7,"t",1,0.082,43.85,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",6,6,"t",1,0.247,45.92,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",5,6,"t",1,0.741,44.79,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",6,7,"t",1,0.247,43.36,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",4,6,"t",1,2.222,44.05,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",5,7,"t",1,0.741,42.41,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",4,7,"t",1,2.222,38.69,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",3,6,"t",1,6.667,44.66,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",3,7,"t",1,6.667,41.77,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",2,6,"t",1,20,40.92,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006180","02Apr2014.Plate.20",2,7,"t",1,20,39.65,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",7,11,"t",1,0.082,9.81,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",7,10,"t",1,0.082,11.88,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",6,10,"t",1,0.247,10.56,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",6,11,"t",1,0.247,10.17,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",5,10,"t",1,0.741,10.32,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",4,10,"t",1,2.222,10.37,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",5,11,"t",1,0.741,9.34,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",4,11,"t",1,2.222,9.04,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",3,11,"t",1,6.667,9.27,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",3,10,"t",1,6.667,8.22,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",2,10,"t",1,20,8.58,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",7,6,"t",1,0.041,9.59,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006174","26Mar2014.Plate.12",2,11,"t",1,20,8.31,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",7,7,"t",1,0.041,9.7,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",6,7,"t",1,0.123,9.49,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",6,6,"t",1,0.123,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",5,6,"t",1,0.37,9.44,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",4,6,"t",1,1.111,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",5,7,"t",1,0.37,7.94,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",4,7,"t",1,1.111,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",3,7,"t",1,3.333,7.5,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",3,6,"t",1,3.333,9.36,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",2,6,"t",1,10,7.62,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",7,8,"t",1,0.041,6.15,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006160","26Mar2014.Plate.12",2,7,"t",1,10,7.24,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",7,9,"t",1,0.041,6.45,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",6,9,"t",1,0.123,7.92,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",6,8,"t",1,0.123,8.64,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",5,8,"t",1,0.37,9.97,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",4,8,"t",1,1.111,9.69,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",5,9,"t",1,0.37,10.17,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",4,9,"t",1,1.111,9.87,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",3,9,"t",1,3.333,12.59,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",3,8,"t",1,3.333,9.68,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",2,8,"t",1,10,10.63,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",7,4,"t",1,0.041,9.13,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006157","26Mar2014.Plate.20",2,9,"t",1,10,10.09,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",7,5,"t",1,0.041,9.39,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",6,5,"t",1,0.123,7.21,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",6,4,"t",1,0.123,9.43,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",5,4,"t",1,0.37,8.84,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",4,4,"t",1,1.111,7.33,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",5,5,"t",1,0.37,8.92,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",4,5,"t",1,1.111,8.23,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",3,4,"t",1,3.333,10.01,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",3,5,"t",1,3.333,10.4,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",2,5,"t",1,10,9.46,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006153","26Mar2014.Plate.18",2,4,"t",1,10,6.34,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",7,6,"t",1,0.008,48.82,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",6,6,"t",1,0.025,48.15,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",7,7,"t",1,0.008,36.84,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",6,7,"t",1,0.025,35.39,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",5,7,"t",1,0.074,37.97,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",5,6,"t",1,0.074,45.93,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",4,6,"t",1,0.222,46.2,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",3,6,"t",1,0.667,57.93,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",4,7,"t",1,0.222,44.9,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",3,7,"t",1,0.667,49.36,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",2,6,"t",1,2,60.72,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006143","02Apr2014.Plate.6",2,7,"t",1,2,57.12,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",7,4,"t",1,0.412,17.07,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",7,5,"t",1,0.412,14.9,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",6,4,"t",1,1.235,20.54,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",6,5,"t",1,1.235,14.99,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",5,4,"t",1,3.704,15.98,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",5,5,"t",1,3.704,13.37,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",4,4,"t",1,11.111,17.17,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",4,5,"t",1,11.111,13,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",3,4,"t",1,33.333,22.39,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",3,5,"t",1,33.333,18.86,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",2,4,"t",1,100,33.84,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX006045","09Apr2014.Plate.12",2,5,"t",1,100,30.92,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",7,6,"t",1,0.206,16.6,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",7,7,"t",1,0.206,15.82,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",6,6,"t",1,0.617,18.02,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",6,7,"t",1,0.617,17.32,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",5,6,"t",1,1.852,15.81,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",5,7,"t",1,1.852,16.32,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",4,6,"t",1,5.556,13.3,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",4,7,"t",1,5.556,14.73,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",3,6,"t",1,16.667,16.8,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",3,7,"t",1,16.667,17.38,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",2,6,"t",1,50,19.52,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005790","09Apr2014.Plate.11",2,7,"t",1,50,16.45,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",7,10,"t",1,0.412,10.65,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",7,11,"t",1,0.412,7.65,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",6,10,"t",1,1.235,5.58,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",6,11,"t",1,1.235,4.96,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",5,10,"t",1,3.704,5.77,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",5,11,"t",1,3.704,4.65,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",4,10,"t",1,11.111,2.18,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",4,11,"t",1,11.111,1.52,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",3,10,"t",1,33.333,1.11,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",3,11,"t",1,33.333,1,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",2,10,"t",1,100,0.71,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005767","09Apr2014.Plate.30",2,11,"t",1,100,0.63,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",7,8,"t",1,0.412,19.31,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",7,9,"t",1,0.412,17.47,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",6,8,"t",1,1.235,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",6,9,"t",1,1.235,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",5,8,"t",1,3.704,18.07,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",4,8,"t",1,11.111,15.44,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",5,9,"t",1,3.704,16.5,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",4,9,"t",1,11.111,15.34,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",3,9,"t",1,33.333,19.15,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",3,8,"t",1,33.333,17.4,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",2,8,"t",1,100,17,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",7,4,"t",1,0.412,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005519","09Apr2014.Plate.19",2,9,"t",1,100,15.49,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",7,5,"t",1,0.412,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",6,5,"t",1,1.235,15.37,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",6,4,"t",1,1.235,14.2,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",5,4,"t",1,3.704,15.3,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",4,4,"t",1,11.111,12.68,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",5,5,"t",1,3.704,14.86,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",4,5,"t",1,11.111,12.79,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",3,5,"t",1,33.333,15.37,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",3,4,"t",1,33.333,17.37,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",2,4,"t",1,100,17.73,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",7,8,"t",1,0.412,14.83,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005479","09Apr2014.Plate.17",2,5,"t",1,100,14.17,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",7,9,"t",1,0.412,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",6,9,"t",1,1.235,12.16,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",6,8,"t",1,1.235,13.91,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",5,8,"t",1,3.704,14.9,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",4,8,"t",1,11.111,14.17,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",5,9,"t",1,3.704,10.69,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",4,9,"t",1,11.111,12.18,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",3,9,"t",1,33.333,11.11,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",3,8,"t",1,33.333,12.44,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",2,8,"t",1,100,11.19,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",7,8,"t",1,0.008,57.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005465","09Apr2014.Plate.28",2,9,"t",1,100,8.34,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",7,9,"t",1,0.008,59.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",6,9,"t",1,0.025,67.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",6,8,"t",1,0.025,69.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",5,8,"t",1,0.074,69.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",4,8,"t",1,0.222,62.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",5,9,"t",1,0.074,72.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",4,9,"t",1,0.222,58.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",3,9,"t",1,0.667,50.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",3,8,"t",1,0.667,55.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",2,8,"t",1,2,32.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",7,6,"t",1,0.412,17.18,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005400","03Sep2014.Plate.2",2,9,"t",1,2,30.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",7,7,"t",1,0.412,16.09,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",6,7,"t",1,1.235,12.7,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",6,6,"t",1,1.235,13.09,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",5,6,"t",1,3.704,15.31,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",4,6,"t",1,11.111,16.99,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",5,7,"t",1,3.704,12.6,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",4,7,"t",1,11.111,12.93,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",3,7,"t",1,33.333,16.14,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",3,6,"t",1,33.333,17.07,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",2,6,"t",1,100,9.07,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",7,10,"t",1,0.412,13.84,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX005228","09Apr2014.Plate.19",2,7,"t",1,100,7.2,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",7,11,"t",1,0.412,15.5,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",6,11,"t",1,1.235,13.9,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",6,10,"t",1,1.235,14.57,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",5,10,"t",1,3.704,15.38,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",4,10,"t",1,11.111,15.06,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",5,11,"t",1,3.704,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",4,11,"t",1,11.111,13.83,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",3,11,"t",1,33.333,19.04,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",3,10,"t",1,33.333,21.04,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",2,10,"t",1,100,11.9,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",7,6,"t",1,0.004,11.96,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004973","09Apr2014.Plate.33",2,11,"t",1,100,9.61,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",7,7,"t",1,0.004,10.47,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",6,7,"t",1,0.012,10.08,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",6,6,"t",1,0.012,11.63,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",5,6,"t",1,0.037,10.19,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",4,6,"t",1,0.111,13.42,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",5,7,"t",1,0.037,11.94,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",4,7,"t",1,0.111,12.66,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",3,7,"t",1,0.333,13.27,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",3,6,"t",1,0.333,14.73,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",2,6,"t",1,1,15.56,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",7,10,"t",1,0.412,11.41,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004947","09Apr2014.Plate.25",2,7,"t",1,1,14.74,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",7,11,"t",1,0.412,12.1,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",6,11,"t",1,1.235,11.62,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",6,10,"t",1,1.235,13.52,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",5,10,"t",1,3.704,10.04,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",4,10,"t",1,11.111,13.14,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",5,11,"t",1,3.704,10.75,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",4,11,"t",1,11.111,13.63,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",3,11,"t",1,33.333,10.3,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",3,10,"t",1,33.333,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",2,10,"t",1,100,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",7,10,"t",1,0.412,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004903","09Apr2014.Plate.26",2,11,"t",1,100,13.35,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",7,11,"t",1,0.412,14.86,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",6,11,"t",1,1.235,11.94,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",6,10,"t",1,1.235,15.93,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",5,10,"t",1,3.704,14.45,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",4,10,"t",1,11.111,15.25,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",5,11,"t",1,3.704,14.34,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",4,11,"t",1,11.111,16.03,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",3,11,"t",1,33.333,20.93,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",3,10,"t",1,33.333,21.8,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",2,10,"t",1,100,35.61,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",7,6,"t",1,0.412,12.55,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004809","09Apr2014.Plate.29",2,11,"t",1,100,30.85,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",7,7,"t",1,0.412,12.9,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",6,7,"t",1,1.235,11.09,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",6,6,"t",1,1.235,12.98,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",5,6,"t",1,3.704,11.85,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",5,7,"t",1,3.704,12.74,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",4,6,"t",1,11.111,12.46,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",4,7,"t",1,11.111,11.57,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",3,6,"t",1,33.333,13.89,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",3,7,"t",1,33.333,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",2,6,"t",1,100,7.46,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004631","09Apr2014.Plate.22",2,7,"t",1,100,6.52,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",7,6,"t",1,0.412,15.03,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",7,7,"t",1,0.412,13.66,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",6,6,"t",1,1.235,13.55,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",6,7,"t",1,1.235,10.57,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",5,6,"t",1,3.704,12.11,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",5,7,"t",1,3.704,11.03,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",4,6,"t",1,11.111,11.27,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",4,7,"t",1,11.111,8.98,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",3,6,"t",1,33.333,9.05,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",3,7,"t",1,33.333,6.31,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",2,6,"t",1,100,4.22,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004547","09Apr2014.Plate.27",2,7,"t",1,100,2.84,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",7,10,"t",1,0.412,12.28,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",7,11,"t",1,0.412,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",6,10,"t",1,1.235,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",6,11,"t",1,1.235,10.74,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",5,10,"t",1,3.704,11.2,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",5,11,"t",1,3.704,9.46,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",4,10,"t",1,11.111,11.77,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",4,11,"t",1,11.111,11.34,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",3,10,"t",1,33.333,10.48,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",3,11,"t",1,33.333,7.65,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",2,10,"t",1,100,6.69,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004545","09Apr2014.Plate.14",2,11,"t",1,100,5.38,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",7,10,"t",1,0.412,19.74,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",7,11,"t",1,0.412,16.8,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",6,10,"t",1,1.235,15.54,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",6,11,"t",1,1.235,15.29,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",5,10,"t",1,3.704,17.92,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",5,11,"t",1,3.704,14.97,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",4,10,"t",1,11.111,20.64,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",4,11,"t",1,11.111,18.36,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",3,10,"t",1,33.333,21.97,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",3,11,"t",1,33.333,21.54,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",2,10,"t",1,100,7,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004541","09Apr2014.Plate.19",2,11,"t",1,100,6.49,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",7,8,"t",1,0.412,13.45,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",7,9,"t",1,0.412,12.53,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",6,8,"t",1,1.235,12.46,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",6,9,"t",1,1.235,10.55,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",5,8,"t",1,3.704,7.71,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",5,9,"t",1,3.704,6.44,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",4,8,"t",1,11.111,1.54,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",4,9,"t",1,11.111,1.46,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",3,8,"t",1,33.333,0.96,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",3,9,"t",1,33.333,0.88,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",2,8,"t",1,100,0.62,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004539","09Apr2014.Plate.22",2,9,"t",1,100,0.64,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",7,4,"t",1,0.082,14.8,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",7,5,"t",1,0.082,11.61,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",6,4,"t",1,0.247,12.51,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",6,5,"t",1,0.247,12.09,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",5,4,"t",1,0.741,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",5,5,"t",1,0.741,11.3,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",4,4,"t",1,2.222,10.92,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",4,5,"t",1,2.222,10.51,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",3,4,"t",1,6.667,6.67,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",3,5,"t",1,6.667,6.96,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",2,4,"t",1,20,3.15,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004525","09Apr2014.Plate.23",2,5,"t",1,20,2.87,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",7,4,"t",1,0.082,60.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",7,5,"t",1,0.082,61.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",6,4,"t",1,0.247,61.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",6,5,"t",1,0.247,60.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",5,4,"t",1,0.741,59.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",5,5,"t",1,0.741,69.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",4,4,"t",1,2.222,50,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",4,5,"t",1,2.222,55.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",3,4,"t",1,6.667,38.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",3,5,"t",1,6.667,43.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",2,4,"t",1,20,24.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004516","03Sep2014.Plate.5",2,5,"t",1,20,27.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",7,8,"t",1,0.412,10.01,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",7,9,"t",1,0.412,9.54,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",6,8,"t",1,1.235,8.53,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",6,9,"t",1,1.235,8.84,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",5,8,"t",1,3.704,8.42,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",5,9,"t",1,3.704,6.51,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",4,8,"t",1,11.111,5.64,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",4,9,"t",1,11.111,6.41,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",3,9,"t",1,33.333,4.04,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",3,8,"t",1,33.333,4.44,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",2,8,"t",1,100,0.83,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",7,8,"t",1,0.412,13.67,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004513","09Apr2014.Plate.23",2,9,"t",1,100,0.64,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",6,8,"t",1,1.235,13.13,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",7,9,"t",1,0.412,14.59,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",6,9,"t",1,1.235,12.47,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",5,9,"t",1,3.704,13.91,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",5,8,"t",1,3.704,15.6,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",4,8,"t",1,11.111,17.28,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",3,8,"t",1,33.333,9.32,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",4,9,"t",1,11.111,15.57,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",3,9,"t",1,33.333,6.04,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",2,9,"t",1,100,5.69,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004511","09Apr2014.Plate.26",2,8,"t",1,100,7.37,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",7,8,"t",1,0.412,14.64,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",6,8,"t",1,1.235,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",7,9,"t",1,0.412,11.06,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",6,9,"t",1,1.235,10.52,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",5,9,"t",1,3.704,12.43,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",5,8,"t",1,3.704,14,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",4,8,"t",1,11.111,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",3,8,"t",1,33.333,18.36,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",4,9,"t",1,11.111,14.41,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",3,9,"t",1,33.333,14.41,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",2,9,"t",1,100,12.24,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004507","09Apr2014.Plate.29",2,8,"t",1,100,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",7,6,"t",1,0.412,15.05,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",6,6,"t",1,1.235,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",7,7,"t",1,0.412,15.01,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",6,7,"t",1,1.235,12.03,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",5,6,"t",1,3.704,13.34,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",4,6,"t",1,11.111,10.15,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",5,7,"t",1,3.704,12.59,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",4,7,"t",1,11.111,10.87,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",3,7,"t",1,33.333,7.16,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",3,6,"t",1,33.333,9.14,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",2,6,"t",1,100,3.8,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",7,10,"t",1,0.412,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004485","09Apr2014.Plate.20",2,7,"t",1,100,3.46,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",7,11,"t",1,0.412,11.23,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",6,11,"t",1,1.235,10.87,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",6,10,"t",1,1.235,12.79,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",5,10,"t",1,3.704,14.29,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",4,10,"t",1,11.111,14.59,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",5,11,"t",1,3.704,12.49,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",4,11,"t",1,11.111,10.61,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",3,11,"t",1,33.333,12.71,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",3,10,"t",1,33.333,16.62,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",2,10,"t",1,100,22.95,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",7,8,"t",1,0.412,15.45,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004479","09Apr2014.Plate.32",2,11,"t",1,100,17.09,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",7,9,"t",1,0.412,11.28,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",6,9,"t",1,1.235,12.7,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",6,8,"t",1,1.235,14.7,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",5,8,"t",1,3.704,16.61,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",4,8,"t",1,11.111,13.38,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",5,9,"t",1,3.704,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",4,9,"t",1,11.111,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",3,9,"t",1,33.333,11.7,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",3,8,"t",1,33.333,12.98,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",2,8,"t",1,100,8.63,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",7,6,"t",1,0.082,57.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004358","09Apr2014.Plate.32",2,9,"t",1,100,7.37,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",7,7,"t",1,0.082,59.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",6,7,"t",1,0.247,61.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",6,6,"t",1,0.247,64.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",5,6,"t",1,0.741,67.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",4,6,"t",1,2.222,62.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",5,7,"t",1,0.741,64.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",4,7,"t",1,2.222,66.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",3,7,"t",1,6.667,63.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",3,6,"t",1,6.667,61.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",2,6,"t",1,20,65.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",7,10,"t",1,0.412,14.2,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004310","03Sep2014.Plate.9",2,7,"t",1,20,69.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",7,11,"t",1,0.412,12.21,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",6,11,"t",1,1.235,12.37,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",6,10,"t",1,1.235,11.32,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",5,10,"t",1,3.704,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",5,11,"t",1,3.704,12.69,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",4,10,"t",1,11.111,16.82,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",4,11,"t",1,11.111,13.67,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",3,10,"t",1,33.333,13.72,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",3,11,"t",1,33.333,11.42,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",2,11,"t",1,100,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004209","09Apr2014.Plate.28",2,10,"t",1,100,17.65,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",7,10,"t",1,0.082,51.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",7,11,"t",1,0.082,60.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",6,10,"t",1,0.247,64.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",6,11,"t",1,0.247,60.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",5,10,"t",1,0.741,58.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",5,11,"t",1,0.741,54.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",4,10,"t",1,2.222,65.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",7,7,"t",1,0.412,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004193","09Apr2014.Plate.12",7,6,"t",1,0.412,17.01,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",2,11,"t",1,20,32.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",2,10,"t",1,20,30.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",3,11,"t",1,6.667,54.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",3,10,"t",1,6.667,49.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" -"TX004206","03Sep2014.Plate.17",4,11,"t",1,2.222,61.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"spid","apid","rowi","coli","wllt","wllq","conc","rval","srcf","acsn" +"TX004193","09Apr2014.Plate.12",6,6,"t",1,1.235,16.68,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",5,6,"t",1,3.704,16.53,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",6,7,"t",1,1.235,16.81,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",5,7,"t",1,3.704,14.84,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",4,6,"t",1,11.111,15.33,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",4,7,"t",1,11.111,15.01,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",3,6,"t",1,33.333,14.8,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",3,7,"t",1,33.333,14.81,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",2,6,"t",1,100,9.72,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",2,7,"t",1,100,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",7,6,"t",1,0.412,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",7,7,"t",1,0.412,12.53,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",6,6,"t",1,1.235,10.98,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",6,7,"t",1,1.235,11.84,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",5,6,"t",1,3.704,13.6,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",5,7,"t",1,3.704,14.26,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",4,6,"t",1,11.111,10.85,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",4,7,"t",1,11.111,11.74,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",3,6,"t",1,33.333,9.57,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",3,7,"t",1,33.333,10.13,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",2,6,"t",1,100,9.04,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004059","09Apr2014.Plate.28",2,7,"t",1,100,9.45,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",7,4,"t",1,0.004,13.04,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",7,5,"t",1,0.004,11,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",6,4,"t",1,0.012,13.1,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",6,5,"t",1,0.012,12.24,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",5,4,"t",1,0.037,11.35,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",5,5,"t",1,0.037,14.04,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",4,4,"t",1,0.111,12.34,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",4,5,"t",1,0.111,15.12,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",3,4,"t",1,0.333,11.78,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",3,5,"t",1,0.333,12.96,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",2,4,"t",1,1,8.81,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003893","09Apr2014.Plate.25",2,5,"t",1,1,9.92,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",7,8,"t",1,0.206,15.01,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",7,9,"t",1,0.206,16.32,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",6,8,"t",1,0.617,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",6,9,"t",1,0.617,13.61,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",5,8,"t",1,1.852,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",5,9,"t",1,1.852,11.57,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",4,8,"t",1,5.556,12.17,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",4,9,"t",1,5.556,12.02,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",3,8,"t",1,16.667,9.8,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",3,9,"t",1,16.667,8.25,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",2,8,"t",1,50,11.31,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003879","09Apr2014.Plate.16",2,9,"t",1,50,8.91,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",7,4,"t",1,0.206,15.79,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",7,5,"t",1,0.206,11.59,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",6,4,"t",1,0.617,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",6,5,"t",1,0.617,13.7,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",5,4,"t",1,1.852,15.79,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",5,5,"t",1,1.852,11.74,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",4,4,"t",1,5.556,14.16,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",4,5,"t",1,5.556,14.86,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",3,4,"t",1,16.667,9.28,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",3,5,"t",1,16.667,11.1,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",2,4,"t",1,50,6.34,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003871","09Apr2014.Plate.13",2,5,"t",1,50,5.43,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",7,6,"t",1,0.082,66.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",7,7,"t",1,0.082,67.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",6,6,"t",1,0.247,69.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",6,7,"t",1,0.247,75.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",5,6,"t",1,0.741,78.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",5,7,"t",1,0.741,82.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",4,6,"t",1,2.222,77.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",4,7,"t",1,2.222,80.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",3,6,"t",1,6.667,65.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",3,7,"t",1,6.667,68.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",2,6,"t",1,20,55.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003751","03Sep2014.Plate.6",2,7,"t",1,20,64.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",7,4,"t",1,0.082,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",7,5,"t",1,0.082,15.21,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",6,4,"t",1,0.247,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",6,5,"t",1,0.247,12.75,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",5,4,"t",1,0.741,10.18,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",5,5,"t",1,0.741,7.43,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",4,4,"t",1,2.222,4.47,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",4,5,"t",1,2.222,3.02,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",3,4,"t",1,6.667,1.49,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",3,5,"t",1,6.667,1.15,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",2,4,"t",1,20,0.57,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003572","09Apr2014.Plate.20",2,5,"t",1,20,0.67,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",7,10,"t",1,0.412,15.97,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",7,11,"t",1,0.412,12.82,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",6,10,"t",1,1.235,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",6,11,"t",1,1.235,11.13,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",5,10,"t",1,3.704,9.8,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",5,11,"t",1,3.704,7.4,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",4,10,"t",1,11.111,6.76,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",4,11,"t",1,11.111,8.05,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",3,10,"t",1,33.333,4.72,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",3,11,"t",1,33.333,4.63,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",2,10,"t",1,100,2.64,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003350","09Apr2014.Plate.23",2,11,"t",1,100,2.14,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",7,4,"t",1,0.412,15.43,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",7,5,"t",1,0.412,12.03,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",6,4,"t",1,1.235,16.34,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",6,5,"t",1,1.235,18.89,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",5,4,"t",1,3.704,17.67,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",5,5,"t",1,3.704,15.75,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",4,4,"t",1,11.111,22.45,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",4,5,"t",1,11.111,16.62,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",3,4,"t",1,33.333,22.06,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",3,5,"t",1,33.333,21.4,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",2,4,"t",1,100,22.12,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003294","09Apr2014.Plate.11",2,5,"t",1,100,19.6,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",7,4,"t",1,0.412,11.24,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",7,5,"t",1,0.412,7.51,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",6,4,"t",1,1.235,11.15,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",6,5,"t",1,1.235,10.54,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",5,4,"t",1,3.704,9.49,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",5,5,"t",1,3.704,7.54,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",4,4,"t",1,11.111,9.63,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",4,5,"t",1,11.111,7.2,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",3,4,"t",1,33.333,11.09,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",3,5,"t",1,33.333,9.07,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",2,4,"t",1,100,9.2,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003282","09Apr2014.Plate.21",2,5,"t",1,100,10.32,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",7,6,"t",1,0.412,15.11,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",7,7,"t",1,0.412,14.42,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",6,6,"t",1,1.235,16.29,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",6,7,"t",1,1.235,12.15,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",5,6,"t",1,3.704,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",5,7,"t",1,3.704,13.01,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",4,6,"t",1,11.111,14.89,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",4,7,"t",1,11.111,13.8,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",3,6,"t",1,33.333,18.84,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",3,7,"t",1,33.333,17.67,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",2,6,"t",1,100,24.39,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003240","09Apr2014.Plate.16",2,7,"t",1,100,19.55,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",7,4,"t",1,0.041,13.1,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",7,5,"t",1,0.041,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",6,4,"t",1,0.123,12.26,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",6,5,"t",1,0.123,11.68,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",5,4,"t",1,0.37,15.27,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",5,5,"t",1,0.37,15.06,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",4,4,"t",1,1.111,13.79,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",4,5,"t",1,1.111,13.35,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",3,4,"t",1,3.333,14.89,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",3,5,"t",1,3.333,14.78,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",2,4,"t",1,10,12.34,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003238","09Apr2014.Plate.34",2,5,"t",1,10,12.64,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",7,4,"t",1,0.206,16.79,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",7,5,"t",1,0.206,15.14,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",6,4,"t",1,0.617,32.71,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",6,5,"t",1,0.617,18.75,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",5,4,"t",1,1.852,13.5,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",5,5,"t",1,1.852,14.54,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",4,4,"t",1,5.556,12.53,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",4,5,"t",1,5.556,12.67,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",3,4,"t",1,16.667,15.4,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",3,5,"t",1,16.667,16.4,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",2,4,"t",1,50,15.82,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003216","09Apr2014.Plate.18",2,5,"t",1,50,17.16,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",7,10,"t",1,0.412,15.26,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",7,11,"t",1,0.412,14.22,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",6,10,"t",1,1.235,14.17,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",6,11,"t",1,1.235,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",5,10,"t",1,3.704,17.85,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",5,11,"t",1,3.704,13.28,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",4,10,"t",1,11.111,17.12,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",4,11,"t",1,11.111,12.87,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",3,10,"t",1,33.333,13.64,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",3,11,"t",1,33.333,11.49,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",2,10,"t",1,100,22.89,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003170","09Apr2014.Plate.27",2,11,"t",1,100,20.44,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",7,8,"t",1,0.412,15.79,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",7,9,"t",1,0.412,14.96,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",6,8,"t",1,1.235,13.15,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",6,9,"t",1,1.235,12.74,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",5,8,"t",1,3.704,13.65,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",5,9,"t",1,3.704,16.01,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",4,8,"t",1,11.111,15.2,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",4,9,"t",1,11.111,16,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",3,8,"t",1,33.333,13.23,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",3,9,"t",1,33.333,13.44,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",2,8,"t",1,100,15.33,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003164","09Apr2014.Plate.27",2,9,"t",1,100,17.3,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",7,4,"t",1,0.206,20.04,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",7,5,"t",1,0.206,14.64,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",6,4,"t",1,0.617,13.76,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",6,5,"t",1,0.617,12.1,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",5,4,"t",1,1.852,15.41,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",5,5,"t",1,1.852,16.98,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",4,4,"t",1,5.556,19.92,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",4,5,"t",1,5.556,13.71,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",3,4,"t",1,16.667,17.84,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",3,5,"t",1,16.667,14.82,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",2,4,"t",1,50,13.88,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX003076","09Apr2014.Plate.15",2,5,"t",1,50,13.1,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",7,4,"t",1,0.412,11.99,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",7,5,"t",1,0.412,10.82,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",6,4,"t",1,1.235,9.68,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",6,5,"t",1,1.235,10.16,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",5,4,"t",1,3.704,12.91,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",5,5,"t",1,3.704,11.49,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",4,4,"t",1,11.111,13.44,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",4,5,"t",1,11.111,9.48,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",3,4,"t",1,33.333,7.9,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",3,5,"t",1,33.333,8.12,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",2,4,"t",1,100,8.45,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002934","09Apr2014.Plate.31",2,5,"t",1,100,6.35,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",7,4,"t",1,0.412,14.77,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",7,5,"t",1,0.412,12.15,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",6,4,"t",1,1.235,12.18,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",6,5,"t",1,1.235,10.37,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",5,4,"t",1,3.704,16.39,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",5,5,"t",1,3.704,11.85,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",4,4,"t",1,11.111,15.08,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",3,4,"t",1,33.333,16.37,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",4,5,"t",1,11.111,13.68,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",3,5,"t",1,33.333,15.11,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",2,4,"t",1,100,16.64,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002910","09Apr2014.Plate.29",2,5,"t",1,100,14.66,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",7,7,"t",1,0.412,11.17,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",7,6,"t",1,0.412,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",6,6,"t",1,1.235,11.99,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",6,7,"t",1,1.235,12.4,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",5,6,"t",1,3.704,17.18,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",4,6,"t",1,11.111,15.89,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",5,7,"t",1,3.704,13.77,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",4,7,"t",1,11.111,14.01,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",3,6,"t",1,33.333,18.58,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",3,7,"t",1,33.333,22.22,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",2,7,"t",1,100,17.45,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002674","09Apr2014.Plate.29",2,6,"t",1,100,22.29,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",7,6,"t",1,0.206,16.34,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",7,7,"t",1,0.206,10.81,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",6,6,"t",1,0.617,12.76,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",5,6,"t",1,1.852,14.77,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",6,7,"t",1,0.617,13.04,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",5,7,"t",1,1.852,13.43,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",4,6,"t",1,5.556,13.71,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",4,7,"t",1,5.556,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",3,7,"t",1,16.667,11.73,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",3,6,"t",1,16.667,15.89,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",2,6,"t",1,50,16.39,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002640","09Apr2014.Plate.23",2,7,"t",1,50,16.18,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",7,6,"t",1,0.412,11.37,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",6,6,"t",1,1.235,14.07,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",7,7,"t",1,0.412,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",6,7,"t",1,1.235,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",5,6,"t",1,3.704,14.62,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",5,7,"t",1,3.704,11.71,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",4,7,"t",1,11.111,13.74,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",4,6,"t",1,11.111,11.64,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",3,6,"t",1,33.333,20.03,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",3,7,"t",1,33.333,17.71,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",2,6,"t",1,100,8.79,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",7,4,"t",1,0.412,11.56,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002436","09Apr2014.Plate.21",2,7,"t",1,100,6.62,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",7,5,"t",1,0.412,11.54,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",6,4,"t",1,1.235,11.33,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",5,4,"t",1,3.704,11.68,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",6,5,"t",1,1.235,13.71,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",5,5,"t",1,3.704,13.64,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",4,5,"t",1,11.111,12.82,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",4,4,"t",1,11.111,13.57,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",3,4,"t",1,33.333,15.96,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",3,5,"t",1,33.333,15.76,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",2,5,"t",1,100,9.29,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002330","09Apr2014.Plate.24",2,4,"t",1,100,10.58,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",7,8,"t",1,0.412,15.98,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",7,9,"t",1,0.412,15.27,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",6,8,"t",1,1.235,16.5,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",5,8,"t",1,3.704,17.29,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",6,9,"t",1,1.235,15.15,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",5,9,"t",1,3.704,14.06,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",4,8,"t",1,11.111,19.28,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",4,9,"t",1,11.111,15.14,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",3,9,"t",1,33.333,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",3,8,"t",1,33.333,21.46,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",2,8,"t",1,100,12.34,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX002231","09Apr2014.Plate.33",2,9,"t",1,100,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",7,11,"t",1,0.082,58.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",7,10,"t",1,0.082,64.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",6,10,"t",1,0.247,64.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",6,11,"t",1,0.247,69.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",5,11,"t",1,0.741,64.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",5,10,"t",1,0.741,69.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",4,10,"t",1,2.222,61.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",4,11,"t",1,2.222,60.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",3,10,"t",1,6.667,55.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",3,11,"t",1,6.667,61.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",2,10,"t",1,20,50.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001757","03Sep2014.Plate.2",2,11,"t",1,20,58.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",7,8,"t",1,0.206,12.69,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",7,9,"t",1,0.206,11.47,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",6,9,"t",1,0.617,10.01,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",6,8,"t",1,0.617,11.64,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",5,8,"t",1,1.852,14.12,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",5,9,"t",1,1.852,14.76,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",4,8,"t",1,5.556,12.21,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",3,8,"t",1,16.667,10.18,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",4,9,"t",1,5.556,13.13,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",3,9,"t",1,16.667,8.72,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",2,8,"t",1,50,6.08,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001689","09Apr2014.Plate.30",2,9,"t",1,50,4.88,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001595","20130320.Plate.4",7,7,"t",1,0.04,20.96,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",7,6,"t",1,0.04,16.59,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",6,6,"t",1,0.12,17.41,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",6,7,"t",1,0.12,18.43,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",5,6,"t",1,0.37,15.64,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",4,6,"t",1,1.11,14.59,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",5,7,"t",1,0.37,17.96,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",4,7,"t",1,1.11,19.78,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",3,6,"t",1,3.33,15.31,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",3,7,"t",1,3.33,18.37,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",2,7,"t",1,10,13.45,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001595","20130320.Plate.4",2,6,"t",1,10,13.03,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX001593","20130320.Plate.3",7,10,"t",1,0.04,10.98,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",7,11,"t",1,0.04,10.74,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",6,10,"t",1,0.12,10.99,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",5,10,"t",1,0.37,10.13,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",6,11,"t",1,0.12,13.51,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",5,11,"t",1,0.37,10.69,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",4,10,"t",1,1.11,5.28,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",4,11,"t",1,1.11,6.38,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",3,11,"t",1,3.33,2.97,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",3,10,"t",1,3.33,2.9,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",2,10,"t",1,10,1.48,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX001593","20130320.Plate.3",2,11,"t",1,10,1.82,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"TX0012741","03Sep2014.Plate.3",7,11,"t",1,0.082,36.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",7,10,"t",1,0.082,59.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",6,10,"t",1,0.247,65.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",6,11,"t",1,0.247,55.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",5,11,"t",1,0.741,57.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",5,10,"t",1,0.741,68.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",4,10,"t",1,2.222,64.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",4,11,"t",1,2.222,59.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",3,11,"t",1,6.667,53.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",3,10,"t",1,6.667,65.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",2,10,"t",1,20,39.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012741","03Sep2014.Plate.3",2,11,"t",1,20,36.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",7,6,"t",1,0.412,15.98,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",6,6,"t",1,1.235,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",7,7,"t",1,0.412,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",6,7,"t",1,1.235,16.5,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",5,6,"t",1,3.704,10.67,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",5,7,"t",1,3.704,11.91,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",4,7,"t",1,11.111,3.3,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",4,6,"t",1,11.111,3.44,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",3,6,"t",1,33.333,2.22,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",3,7,"t",1,33.333,2.29,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",2,6,"t",1,100,1.27,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",7,10,"t",1,0.412,14.52,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012739","09Apr2014.Plate.32",2,7,"t",1,100,1.23,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",7,11,"t",1,0.412,13.53,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",6,10,"t",1,1.235,17.35,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",6,11,"t",1,1.235,17.26,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",5,10,"t",1,3.704,14.66,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",5,11,"t",1,3.704,13.09,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",4,10,"t",1,11.111,12.67,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",4,11,"t",1,11.111,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",3,11,"t",1,33.333,13.2,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",3,10,"t",1,33.333,13.91,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",2,10,"t",1,100,8.35,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012733","09Apr2014.Plate.11",2,11,"t",1,100,8.07,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",7,7,"t",1,0.412,13.78,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",7,6,"t",1,0.412,14.55,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",6,6,"t",1,1.235,12.5,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",6,7,"t",1,1.235,11.04,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",5,6,"t",1,3.704,19.53,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",4,6,"t",1,11.111,20.16,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",5,7,"t",1,3.704,18.08,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",4,7,"t",1,11.111,17.87,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",3,6,"t",1,33.333,15.56,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",3,7,"t",1,33.333,16,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",2,7,"t",1,100,1.81,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX0012724","09Apr2014.Plate.30",2,6,"t",1,100,1.74,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",7,8,"t",1,0.206,6.4,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",7,9,"t",1,0.206,5.93,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",6,8,"t",1,0.617,8.48,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",5,8,"t",1,1.852,7.51,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",6,9,"t",1,0.617,5.76,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",5,9,"t",1,1.852,6.66,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",4,8,"t",1,5.556,8.51,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",4,9,"t",1,5.556,7.88,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",3,9,"t",1,16.667,6.25,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",3,8,"t",1,16.667,8.59,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",2,8,"t",1,50,8.66,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001184","09Apr2014.Plate.21",2,9,"t",1,50,6.56,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",7,8,"t",1,0.206,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",6,8,"t",1,0.617,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",7,9,"t",1,0.206,10.14,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",6,9,"t",1,0.617,10.33,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",5,8,"t",1,1.852,9.84,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",5,9,"t",1,1.852,8.78,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",4,9,"t",1,5.556,9.69,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",4,8,"t",1,5.556,9.93,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",3,8,"t",1,16.667,9.95,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",3,9,"t",1,16.667,9.39,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",2,8,"t",1,50,9.41,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",7,8,"t",1,0.412,12.51,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001140","09Apr2014.Plate.12",2,9,"t",1,50,12.69,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",7,9,"t",1,0.412,9.35,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",6,8,"t",1,1.235,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",6,9,"t",1,1.235,12.27,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",5,9,"t",1,3.704,9.38,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",5,8,"t",1,3.704,10.31,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",4,8,"t",1,11.111,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",4,9,"t",1,11.111,11.4,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",3,9,"t",1,33.333,7.2,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",3,8,"t",1,33.333,10.12,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",2,8,"t",1,100,1.55,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001132","09Apr2014.Plate.24",2,9,"t",1,100,1.36,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",7,10,"t",1,0.412,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",7,11,"t",1,0.412,13.8,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",6,10,"t",1,1.235,11.64,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",6,11,"t",1,1.235,12.5,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",5,11,"t",1,3.704,10.52,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",5,10,"t",1,3.704,13.02,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",4,10,"t",1,11.111,12.42,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",4,11,"t",1,11.111,11.87,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",3,10,"t",1,33.333,14.4,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",2,10,"t",1,100,11.73,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",3,11,"t",1,33.333,13.09,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001106","09Apr2014.Plate.13",2,11,"t",1,100,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",7,4,"t",1,0.082,60.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",6,4,"t",1,0.247,74.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",7,5,"t",1,0.082,60.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",6,5,"t",1,0.247,66.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",5,4,"t",1,0.741,76.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",4,4,"t",1,2.222,69.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",5,5,"t",1,0.741,82.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",4,5,"t",1,2.222,78.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",3,4,"t",1,6.667,63.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",2,4,"t",1,20,44.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",3,5,"t",1,6.667,65.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX001083","03Sep2014.Plate.6",2,5,"t",1,20,47.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX000789","20130320.Plate.6",7,8,"t",1,0.08,15.79,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",7,9,"t",1,0.08,16.97,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",6,9,"t",1,0.25,15.35,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",6,8,"t",1,0.25,13.53,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",5,8,"t",1,0.74,13.18,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",5,9,"t",1,0.74,14.96,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",4,8,"t",1,2.22,12.11,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",3,8,"t",1,6.67,10.5,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",4,9,"t",1,2.22,12.09,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",3,9,"t",1,6.67,9.97,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",2,8,"t",1,20,10.85,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"TX000789","20130320.Plate.6",2,9,"t",1,20,9.54,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"PRO","20130321.Plate.9",5,2,"m",1,3,0.62,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"PRO","20130321.Plate.9",5,3,"m",1,3,0.76,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"PRO","20130321.Plate.8",5,3,"m",1,3,0.55,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"PRO","20130321.Plate.8",5,2,"m",1,3,0.71,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"PRO","20130321.Plate.7",5,3,"m",1,3,0.66,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"PRO","20130321.Plate.6",5,3,"m",1,3,0.59,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"PRO","20130321.Plate.7",5,2,"m",1,3,0.53,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"PRO","20130321.Plate.6",5,2,"m",1,3,0.67,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"PRO","20130321.Plate.5",5,3,"m",1,3,0.5,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"PRO","20130321.Plate.5",5,2,"m",1,3,0.6,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"PRO","20130321.Plate.4",5,2,"m",1,3,0.54,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"PRO","20130321.Plate.4",5,3,"m",1,3,0.6,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"PRO","20130321.Plate.3",5,3,"m",1,3,0.66,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"PRO","20130321.Plate.3",5,2,"m",1,3,0.67,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"PRO","20130321.Plate.2",5,3,"m",1,3,0.58,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"PRO","20130321.Plate.1",5,3,"m",1,3,0.56,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"PRO","20130321.Plate.2",5,2,"m",1,3,0.61,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"PRO","20130321.Plate.1",5,2,"m",1,3,0.61,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"PRO","20130320.Plate.9",5,3,"m",1,3,0.56,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"PRO","20130320.Plate.8",5,3,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"PRO","20130320.Plate.9",5,2,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"PRO","20130320.Plate.8",5,2,"m",1,3,0.48,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"PRO","20130320.Plate.7",5,3,"m",1,3,0.6,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"PRO","20130320.Plate.7",5,2,"m",1,3,0.63,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"PRO","20130320.Plate.6",5,3,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"PRO","20130320.Plate.5",5,3,"m",1,3,0.71,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"PRO","20130320.Plate.6",5,2,"m",0,3,NA,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"PRO","20130320.Plate.5",5,2,"m",1,3,0.67,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"PRO","20130320.Plate.4",5,3,"m",1,3,0.62,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"PRO","20130320.Plate.4",5,2,"m",1,3,0.57,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"PRO","20130320.Plate.3",5,2,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"PRO","20130320.Plate.3",5,3,"m",1,3,0.59,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"PRO","20130320.Plate.2",5,3,"m",1,3,0.63,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"PRO","20130320.Plate.2",5,2,"m",1,3,0.58,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"PRO","20130320.Plate.15",5,3,"m",1,3,0.71,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"PRO","20130320.Plate.14",5,3,"m",1,3,0.66,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"PRO","20130320.Plate.15",5,2,"m",1,3,0.57,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"PRO","20130320.Plate.14",5,2,"m",1,3,0.6,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"PRO","20130320.Plate.13",5,3,"m",1,3,0.65,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"PRO","20130320.Plate.13",5,2,"m",1,3,0.65,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"PRO","20130320.Plate.12",5,2,"m",1,3,0.68,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"PRO","20130320.Plate.12",5,3,"m",1,3,0.54,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"PRO","20130320.Plate.11",5,3,"m",1,3,0.51,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"PRO","20130320.Plate.11",5,2,"m",1,3,0.59,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"PRO","20130320.Plate.10",5,3,"m",1,3,0.7,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"PRO","20130320.Plate.1",5,3,"m",1,3,0.96,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"PRO","20130320.Plate.10",5,2,"m",1,3,0.64,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"PRO","20130320.Plate.1",5,2,"m",1,3,0.3,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"FOR","20130321.Plate.9",3,3,"p",1,10,116.71,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"FOR","20130321.Plate.9",3,2,"p",1,10,123.01,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"FOR","20130321.Plate.8",3,2,"p",1,10,123.65,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"FOR","20130321.Plate.8",3,3,"p",1,10,123.05,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"FOR","20130321.Plate.7",3,3,"p",1,10,113.89,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"FOR","20130321.Plate.7",3,2,"p",1,10,130.81,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"FOR","20130321.Plate.6",3,3,"p",1,10,112.82,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"FOR","20130321.Plate.5",3,3,"p",1,10,109.62,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"FOR","20130321.Plate.6",3,2,"p",1,10,127.9,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"FOR","20130321.Plate.5",3,2,"p",1,10,119.76,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"FOR","20130321.Plate.4",3,3,"p",1,10,121.74,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"FOR","20130321.Plate.4",3,2,"p",1,10,118.19,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"FOR","20130321.Plate.3",3,2,"p",1,10,114.86,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"FOR","20130321.Plate.3",3,3,"p",1,10,129.11,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"FOR","20130321.Plate.2",3,3,"p",1,10,129.4,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"FOR","20130321.Plate.2",3,2,"p",1,10,119.92,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"FOR","20130321.Plate.1",3,3,"p",1,10,118.75,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"FOR","20130320.Plate.9",3,3,"p",1,10,69.78,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"FOR","20130321.Plate.1",3,2,"p",1,10,108.86,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"FOR","20130320.Plate.9",3,2,"p",1,10,62.75,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"FOR","20130320.Plate.8",3,3,"p",1,10,54.98,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"FOR","20130320.Plate.8",3,2,"p",1,10,48.55,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"FOR","20130320.Plate.7",3,2,"p",1,10,49.77,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"FOR","20130320.Plate.7",3,3,"p",1,10,56.17,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"FOR","20130320.Plate.6",3,3,"p",1,10,60.24,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"FOR","20130320.Plate.6",3,2,"p",0,10,NA,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"FOR","20130320.Plate.5",3,3,"p",1,10,57.18,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"FOR","20130320.Plate.4",3,3,"p",1,10,64.5,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"FOR","20130320.Plate.5",3,2,"p",1,10,60.96,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"FOR","20130320.Plate.4",3,2,"p",1,10,63.74,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"FOR","20130320.Plate.3",3,3,"p",1,10,58.42,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"FOR","20130320.Plate.3",3,2,"p",1,10,46.75,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"FOR","20130320.Plate.2",3,2,"p",1,10,54.79,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"FOR","20130320.Plate.2",3,3,"p",1,10,62.92,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"FOR","20130320.Plate.15",3,3,"p",1,10,67.17,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"FOR","20130320.Plate.15",3,2,"p",1,10,63.9,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"FOR","20130320.Plate.14",3,3,"p",1,10,55.61,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"FOR","20130320.Plate.13",3,3,"p",1,10,58.54,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"FOR","20130320.Plate.14",3,2,"p",1,10,56.96,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"FOR","20130320.Plate.13",3,2,"p",1,10,62.19,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"FOR","20130320.Plate.12",3,3,"p",1,10,70.79,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"FOR","20130320.Plate.12",3,2,"p",1,10,58.34,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"FOR","20130320.Plate.11",3,2,"p",1,10,67.71,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"FOR","20130320.Plate.11",3,3,"p",1,10,59.54,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"FOR","20130320.Plate.10",3,3,"p",1,10,63.9,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"FOR","20130320.Plate.10",3,2,"p",1,10,62.58,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"FOR","20130320.Plate.1",3,3,"p",1,10,0.85,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"DMSO","20130321.Plate.9",7,3,"n",1,0.1,28.88,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"FOR","20130320.Plate.1",3,2,"p",1,10,14.53,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"DMSO","20130321.Plate.9",6,3,"n",1,0.1,28.09,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"DMSO","20130321.Plate.9",2,3,"n",1,0.1,24.64,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"DMSO","20130321.Plate.9",2,2,"n",1,0.1,25.94,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"DMSO","20130321.Plate.8",6,3,"n",1,0.1,29.46,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"DMSO","20130321.Plate.8",7,3,"n",1,0.1,27.63,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"DMSO","20130321.Plate.8",2,3,"n",1,0.1,26.18,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"DMSO","20130321.Plate.8",2,2,"n",1,0.1,26.54,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"DMSO","20130321.Plate.7",7,3,"n",1,0.1,28.85,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"DMSO","20130321.Plate.7",2,3,"n",1,0.1,22.72,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"DMSO","20130321.Plate.7",6,3,"n",1,0.1,23.34,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"DMSO","20130321.Plate.7",2,2,"n",1,0.1,24.53,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"DMSO","20130321.Plate.6",7,3,"n",1,0.1,27.46,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"DMSO","20130321.Plate.6",6,3,"n",1,0.1,31.19,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"DMSO","20130321.Plate.6",2,2,"n",1,0.1,24.65,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"DMSO","20130321.Plate.6",2,3,"n",1,0.1,29.51,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"DMSO","20130321.Plate.5",7,3,"n",1,0.1,27.24,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"DMSO","20130321.Plate.5",6,3,"n",1,0.1,31.3,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"DMSO","20130321.Plate.5",2,3,"n",1,0.1,23.97,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"DMSO","20130321.Plate.4",7,3,"n",1,0.1,28.88,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"DMSO","20130321.Plate.5",2,2,"n",1,0.1,23.34,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"DMSO","20130321.Plate.4",6,3,"n",1,0.1,30.19,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"DMSO","20130321.Plate.4",2,3,"n",1,0.1,27.55,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"DMSO","20130321.Plate.4",2,2,"n",1,0.1,22.09,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"DMSO","20130321.Plate.3",6,3,"n",1,0.1,28.65,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"DMSO","20130321.Plate.3",7,3,"n",1,0.1,27.35,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"DMSO","20130321.Plate.3",2,3,"n",1,0.1,28.05,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"DMSO","20130321.Plate.3",2,2,"n",1,0.1,23.75,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"DMSO","20130321.Plate.2",6,3,"n",1,0.1,26.73,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"DMSO","20130321.Plate.2",7,3,"n",1,0.1,28.73,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"DMSO","20130321.Plate.2",2,3,"n",1,0.1,29.84,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"DMSO","20130321.Plate.2",2,2,"n",1,0.1,26.74,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"DMSO","20130321.Plate.1",7,3,"n",1,0.1,30.72,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"DMSO","20130321.Plate.1",2,3,"n",1,0.1,25.41,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"DMSO","20130321.Plate.1",6,3,"n",1,0.1,31.49,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"DMSO","20130321.Plate.1",2,2,"n",1,0.1,28.75,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"DMSO","20130320.Plate.9",7,3,"n",1,0.1,12.87,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"DMSO","20130320.Plate.9",6,3,"n",1,0.1,14.04,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"DMSO","20130320.Plate.9",2,2,"n",1,0.1,10.85,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"DMSO","20130320.Plate.9",2,3,"n",1,0.1,12.4,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"DMSO","20130320.Plate.8",7,3,"n",1,0.1,11.1,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"DMSO","20130320.Plate.8",6,3,"n",1,0.1,11.53,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"DMSO","20130320.Plate.8",2,3,"n",1,0.1,14.01,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"DMSO","20130320.Plate.7",7,3,"n",1,0.1,14.21,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"DMSO","20130320.Plate.8",2,2,"n",1,0.1,11.73,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"DMSO","20130320.Plate.7",6,3,"n",1,0.1,11.32,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"DMSO","20130320.Plate.7",2,3,"n",1,0.1,13.62,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"DMSO","20130320.Plate.7",2,2,"n",1,0.1,15.08,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"DMSO","20130320.Plate.6",6,3,"n",1,0.1,12.29,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"DMSO","20130320.Plate.6",7,3,"n",1,0.1,11.01,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"DMSO","20130320.Plate.6",2,3,"n",1,0.1,13.35,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"DMSO","20130320.Plate.6",2,2,"n",0,0.1,NA,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"DMSO","20130320.Plate.5",7,3,"n",1,0.1,9.74,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"DMSO","20130320.Plate.5",2,3,"n",1,0.1,13.79,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"DMSO","20130320.Plate.5",6,3,"n",1,0.1,11.61,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"DMSO","20130320.Plate.5",2,2,"n",1,0.1,9.76,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"DMSO","20130320.Plate.4",7,3,"n",1,0.1,14.45,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"DMSO","20130320.Plate.4",6,3,"n",1,0.1,14.07,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"DMSO","20130320.Plate.4",2,2,"n",1,0.1,10.32,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"DMSO","20130320.Plate.4",2,3,"n",1,0.1,13.28,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"DMSO","20130320.Plate.3",7,3,"n",1,0.1,11.77,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"DMSO","20130320.Plate.3",6,3,"n",1,0.1,12.33,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"DMSO","20130320.Plate.3",2,3,"n",1,0.1,13.23,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"DMSO","20130320.Plate.2",7,3,"n",1,0.1,12.03,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"DMSO","20130320.Plate.3",2,2,"n",1,0.1,12.53,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"DMSO","20130320.Plate.2",6,3,"n",1,0.1,16.22,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"DMSO","20130320.Plate.2",2,3,"n",1,0.1,13.17,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"DMSO","20130320.Plate.2",2,2,"n",1,0.1,13.7,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"DMSO","20130320.Plate.15",6,3,"n",1,0.1,15.14,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"DMSO","20130320.Plate.15",7,3,"n",1,0.1,14.59,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"DMSO","20130320.Plate.15",2,3,"n",1,0.1,12.85,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"DMSO","20130320.Plate.15",2,2,"n",1,0.1,13.98,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"DMSO","20130320.Plate.14",7,3,"n",1,0.1,11.86,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"DMSO","20130320.Plate.14",2,3,"n",1,0.1,13.32,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"DMSO","20130320.Plate.14",6,3,"n",1,0.1,12.94,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"DMSO","20130320.Plate.14",2,2,"n",1,0.1,11.25,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"DMSO","20130320.Plate.13",7,3,"n",1,0.1,14.67,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"DMSO","20130320.Plate.13",6,3,"n",1,0.1,13.81,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"DMSO","20130320.Plate.13",2,2,"n",1,0.1,13.67,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"DMSO","20130320.Plate.13",2,3,"n",1,0.1,13.15,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"DMSO","20130320.Plate.12",7,3,"n",1,0.1,12.07,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"DMSO","20130320.Plate.12",6,3,"n",1,0.1,15.26,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"DMSO","20130320.Plate.12",2,2,"n",1,0.1,13.66,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"DMSO","20130320.Plate.12",2,3,"n",1,0.1,15.03,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"DMSO","20130320.Plate.11",7,3,"n",1,0.1,11.72,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"DMSO","20130320.Plate.11",6,3,"n",1,0.1,13.94,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"DMSO","20130320.Plate.11",2,2,"n",1,0.1,14.33,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"DMSO","20130320.Plate.11",2,3,"n",1,0.1,13.1,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"DMSO","20130320.Plate.10",7,3,"n",1,0.1,12.64,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"DMSO","20130320.Plate.10",6,3,"n",1,0.1,13,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"DMSO","20130320.Plate.10",2,3,"n",1,0.1,14.83,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"DMSO","20130320.Plate.1",7,3,"n",1,0.1,0.76,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"DMSO","20130320.Plate.10",2,2,"n",1,0.1,14.39,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"DMSO","20130320.Plate.1",6,3,"n",1,0.1,0.94,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"DMSO","20130320.Plate.1",2,3,"n",1,0.1,0.81,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"DMSO","20130320.Plate.1",2,2,"n",1,0.1,3.86,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF20128140","26Mar2014.Plate.7",7,5,"t",1,0.041,7.34,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",7,4,"t",1,0.041,10.32,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",6,4,"t",1,0.123,8.41,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",6,5,"t",1,0.123,8.36,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",5,4,"t",1,0.37,8.14,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",4,4,"t",1,1.111,7.28,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",5,5,"t",1,0.37,6.96,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",4,5,"t",1,1.111,5.34,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",3,4,"t",1,3.333,4.59,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",3,5,"t",1,3.333,3.6,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",2,5,"t",1,10,2.19,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF20128140","26Mar2014.Plate.7",2,4,"t",1,10,3.12,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",7,8,"t",1,0.041,9.41,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",7,9,"t",1,0.041,8.87,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",6,8,"t",1,0.123,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",5,8,"t",1,0.37,9.68,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",6,9,"t",1,0.123,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",5,9,"t",1,0.37,8.91,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",4,8,"t",1,1.111,10.4,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",4,9,"t",1,1.111,7.63,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",3,9,"t",1,3.333,9.6,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",3,8,"t",1,3.333,9.58,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",2,8,"t",1,10,9.29,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128353","26Mar2014.Plate.6",2,9,"t",1,10,7.74,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",7,6,"t",1,0.041,12.48,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",6,6,"t",1,0.123,10.41,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",7,7,"t",0,0.041,NA,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",6,7,"t",1,0.123,7.41,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",5,6,"t",1,0.37,8.52,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",5,7,"t",1,0.37,7.05,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",4,7,"t",1,1.111,6.3,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",4,6,"t",1,1.111,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",3,6,"t",1,3.333,6.03,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",3,7,"t",1,3.333,4.65,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",2,7,"t",1,10,3.25,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF10128140","26Mar2014.Plate.6",2,6,"t",1,10,3.23,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",7,4,"t",1,0.412,8.39,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",7,5,"t",1,0.412,8.11,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",6,4,"t",1,1.235,6.82,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",6,5,"t",1,1.235,7.95,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",5,4,"t",1,3.704,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",5,5,"t",1,3.704,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",4,5,"t",1,11.111,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",4,4,"t",1,11.111,11.27,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",3,4,"t",1,33.333,10.01,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",3,5,"t",1,33.333,9.46,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131808","26Mar2014.Plate.8",2,4,"t",1,100,13.18,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131807","20130320.Plate.5",7,10,"t",1,0.41,16.62,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131808","26Mar2014.Plate.8",2,5,"t",1,100,12.18,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00131807","20130320.Plate.5",7,11,"t",1,0.41,17.12,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",6,10,"t",1,1.23,15.4,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",6,11,"t",1,1.23,18.94,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",5,11,"t",1,3.7,17.53,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",5,10,"t",1,3.7,13.72,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",4,10,"t",1,11.11,12.85,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",4,11,"t",1,11.11,14.18,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",3,10,"t",1,33.33,8.83,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",2,10,"t",1,100,4.3,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",3,11,"t",1,33.33,10.34,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131807","20130320.Plate.5",2,11,"t",1,100,5.85,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00131806","26Mar2014.Plate.3",7,6,"t",1,0.412,8.33,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",7,7,"t",1,0.412,7.94,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",6,7,"t",1,1.235,6.58,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",6,6,"t",1,1.235,7.49,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",5,6,"t",1,3.704,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",5,7,"t",1,3.704,6.58,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",4,6,"t",1,11.111,7.59,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",3,6,"t",1,33.333,8.24,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",4,7,"t",1,11.111,7.16,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",3,7,"t",1,33.333,8.11,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",2,6,"t",1,100,8.93,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131806","26Mar2014.Plate.3",2,7,"t",1,100,7.11,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00131805","20130321.Plate.5",7,5,"t",1,0.003,27.78,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",7,4,"t",1,0.003,24.76,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",6,4,"t",1,0.01,28.49,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",6,5,"t",1,0.01,26.69,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",5,4,"t",1,0.04,25.66,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",4,4,"t",1,0.11,25.88,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",5,5,"t",1,0.04,28.26,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",4,5,"t",1,0.11,23.28,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",3,4,"t",1,0.33,21.62,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",3,5,"t",1,0.33,26.93,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",2,5,"t",1,1.001,22.05,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00131805","20130321.Plate.5",2,4,"t",1,1.001,20.97,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128356","26Mar2014.Plate.5",7,6,"t",1,0.041,9.1,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",7,7,"t",1,0.041,11.25,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",6,6,"t",1,0.123,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",5,6,"t",1,0.37,9.26,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",6,7,"t",1,0.123,10.8,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",5,7,"t",1,0.37,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",4,6,"t",1,1.111,7.14,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",3,6,"t",1,3.333,5.06,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",4,7,"t",1,1.111,7.83,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",3,7,"t",1,3.333,4.61,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",2,6,"t",1,10,2.41,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128356","26Mar2014.Plate.5",2,7,"t",1,10,1.54,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128355","20130320.Plate.7",7,7,"t",1,0.41,14.27,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",7,6,"t",1,0.41,15.92,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",6,6,"t",1,1.23,13.97,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",6,7,"t",1,1.23,14.93,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",5,6,"t",1,3.7,13.96,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",4,6,"t",1,11.11,16.05,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",5,7,"t",1,3.7,16.14,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",4,7,"t",1,11.11,16.06,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",3,6,"t",1,33.33,13.61,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",3,7,"t",1,33.33,11.03,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",2,7,"t",1,100,11.8,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128355","20130320.Plate.7",2,6,"t",1,100,10.92,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",7,8,"t",1,0.04,30.15,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",7,9,"t",1,0.04,26.57,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",6,8,"t",1,0.12,27.33,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",5,8,"t",1,0.37,23.15,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",6,9,"t",1,0.12,26.16,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",5,9,"t",1,0.37,19.91,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",4,8,"t",1,1.11,30.68,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",4,9,"t",1,1.11,31.71,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",3,9,"t",1,3.33,28.96,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",3,8,"t",1,3.33,32.27,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",2,8,"t",1,10,29.81,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128353","20130321.Plate.7",2,9,"t",1,10,28.62,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128349","20130320.Plate.14",7,10,"t",1,0.41,15.13,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",6,10,"t",1,1.23,20.36,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",7,11,"t",1,0.41,14.37,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",6,11,"t",1,1.23,18.76,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",5,10,"t",1,3.7,26.34,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",5,11,"t",1,3.7,20.67,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",4,11,"t",1,11.11,19.67,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",4,10,"t",1,11.11,19.09,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",3,10,"t",1,33.33,19.71,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",3,11,"t",1,33.33,21.82,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128349","20130320.Plate.14",2,10,"t",1,100,18.6,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128346","20130321.Plate.6",7,8,"t",1,0.41,30.21,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128349","20130320.Plate.14",2,11,"t",1,100,21.02,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128346","20130321.Plate.6",7,9,"t",1,0.41,27.92,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",6,8,"t",1,1.23,27.34,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",6,9,"t",1,1.23,28.43,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",5,9,"t",1,3.7,26.5,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",5,8,"t",1,3.7,23.9,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",4,8,"t",1,11.11,29.84,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",4,9,"t",1,11.11,25.89,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",3,8,"t",1,33.33,25.53,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",2,8,"t",1,100,23.15,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",3,9,"t",1,33.33,26.81,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128346","20130321.Plate.6",2,9,"t",1,100,21.03,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128344","20130320.Plate.12",7,10,"t",1,0.41,15.61,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",6,10,"t",1,1.23,14.62,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",7,11,"t",1,0.41,15.5,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",6,11,"t",1,1.23,17.31,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",5,10,"t",1,3.7,18.32,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",4,10,"t",1,11.11,18.69,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",5,11,"t",1,3.7,16.93,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",4,11,"t",1,11.11,21.25,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",3,10,"t",1,33.33,23.27,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",2,10,"t",1,100,22.46,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",3,11,"t",1,33.33,26.09,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128344","20130320.Plate.12",2,11,"t",1,100,28.07,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128340","20130321.Plate.9",7,6,"t",1,0.41,24.55,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",6,6,"t",1,1.23,27.14,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",7,7,"t",1,0.41,28.98,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",6,7,"t",1,1.23,27.14,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",5,6,"t",1,3.7,27.87,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",4,6,"t",1,11.11,29.22,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",5,7,"t",1,3.7,26.63,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",4,7,"t",1,11.11,29.42,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",3,6,"t",1,33.33,28.14,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",3,7,"t",1,33.33,28.49,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",2,7,"t",1,100,33.09,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128340","20130321.Plate.9",2,6,"t",1,100,31.61,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",7,10,"t",1,0.21,13.89,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",7,11,"t",1,0.21,15.5,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",6,10,"t",1,0.62,14.73,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",5,10,"t",1,1.85,14.81,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",6,11,"t",1,0.62,15.02,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",5,11,"t",1,1.85,17.65,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",4,10,"t",1,5.56,13.2,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",4,11,"t",1,5.56,15.01,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",3,11,"t",1,16.67,21.81,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",3,10,"t",1,16.67,16.14,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",2,10,"t",1,50,15.75,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128332","20130320.Plate.9",2,11,"t",1,50,20.61,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128330","20130320.Plate.7",7,10,"t",1,0.04,12.87,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",6,10,"t",1,0.12,17.08,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",7,11,"t",1,0.04,17.52,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",6,11,"t",1,0.12,14.19,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",5,10,"t",1,0.37,15,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",5,11,"t",1,0.37,15.12,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",4,11,"t",1,1.11,16.66,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",4,10,"t",1,1.11,21.91,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",3,10,"t",1,3.33,20.35,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",3,11,"t",1,3.33,16.34,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128330","20130320.Plate.7",2,10,"t",1,10,13.82,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128329","26Mar2014.Plate.4",7,10,"t",1,0.412,9.29,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128330","20130320.Plate.7",2,11,"t",1,10,19.89,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128329","26Mar2014.Plate.4",7,11,"t",1,0.412,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",6,10,"t",1,1.235,9.24,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",5,10,"t",1,3.704,7.69,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",6,11,"t",1,1.235,9.47,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",5,11,"t",1,3.704,6.81,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",4,11,"t",1,11.111,7.04,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",4,10,"t",1,11.111,8.8,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",3,10,"t",1,33.333,9.2,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",3,11,"t",1,33.333,6.85,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",2,10,"t",1,100,10.27,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",7,4,"t",1,0.004,10.07,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128329","26Mar2014.Plate.4",2,11,"t",1,100,7.34,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",7,5,"t",1,0.004,9.8,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",6,4,"t",1,0.012,7.89,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",6,5,"t",1,0.012,9.99,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",5,5,"t",1,0.037,8.03,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",5,4,"t",1,0.037,8.97,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",4,4,"t",1,0.111,7.54,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",4,5,"t",1,0.111,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",3,4,"t",1,0.333,7.71,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",2,4,"t",1,1,4.23,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",3,5,"t",1,0.333,5.98,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128324","26Mar2014.Plate.6",2,5,"t",1,1,4.37,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128322","20130320.Plate.8",7,10,"t",1,0.41,12.99,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",7,11,"t",1,0.41,15.54,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",6,11,"t",1,1.23,19.83,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",6,10,"t",1,1.23,18.49,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",5,10,"t",1,3.7,15.77,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",5,11,"t",1,3.7,16.11,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",4,10,"t",1,11.11,12.91,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",3,10,"t",1,33.33,16.83,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",4,11,"t",1,11.11,15.06,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",3,11,"t",1,33.33,15.44,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",2,10,"t",1,100,11.38,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128322","20130320.Plate.8",2,11,"t",1,100,10.3,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128318","26Mar2014.Plate.5",7,5,"t",1,0.412,10.05,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",7,4,"t",1,0.412,8.36,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",6,4,"t",1,1.235,9.49,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",6,5,"t",1,1.235,8.63,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",5,4,"t",1,3.704,8.22,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",4,4,"t",1,11.111,6.79,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",5,5,"t",1,3.704,8.25,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",4,5,"t",1,11.111,8.63,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",3,4,"t",1,33.333,8.46,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",3,5,"t",1,33.333,9.09,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",2,5,"t",1,100,12.09,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128318","26Mar2014.Plate.5",2,4,"t",1,100,8.58,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128313","20130320.Plate.12",7,6,"t",1,0.41,19.74,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",7,7,"t",1,0.41,20.21,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",6,6,"t",1,1.23,17.55,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",5,6,"t",1,3.7,26.46,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",6,7,"t",1,1.23,21.75,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",5,7,"t",1,3.7,24.18,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",4,6,"t",1,11.11,26.93,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",4,7,"t",1,11.11,23.26,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",3,7,"t",1,33.33,24.98,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",3,6,"t",1,33.33,28.95,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",2,6,"t",1,100,21.07,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128313","20130320.Plate.12",2,7,"t",1,100,21.8,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128312","20130320.Plate.14",7,4,"t",1,0.41,17.09,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",6,4,"t",1,1.23,17.4,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",7,5,"t",1,0.41,16.95,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",6,5,"t",1,1.23,21.09,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",5,4,"t",1,3.7,16.56,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",5,5,"t",1,3.7,16.67,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",4,5,"t",1,11.11,14.11,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",4,4,"t",1,11.11,16.19,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",3,4,"t",1,33.33,15.15,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",3,5,"t",1,33.33,15.74,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128312","20130320.Plate.14",2,4,"t",1,100,15.29,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128306","20130320.Plate.9",7,4,"t",1,0.41,18.87,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128312","20130320.Plate.14",2,5,"t",1,100,15.71,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128306","20130320.Plate.9",7,5,"t",1,0.41,15.79,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",6,4,"t",1,1.23,16.8,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",6,5,"t",1,1.23,13.66,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",5,5,"t",1,3.7,16.92,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",5,4,"t",1,3.7,17.5,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",4,4,"t",1,11.11,15.79,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",4,5,"t",1,11.11,14.87,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",3,4,"t",1,33.33,23.85,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",2,4,"t",1,100,20.4,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",3,5,"t",1,33.33,22,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128306","20130320.Plate.9",2,5,"t",1,100,22.11,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128303","20130320.Plate.4",7,8,"t",1,0.41,18.83,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",7,9,"t",1,0.41,17.66,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",6,8,"t",1,1.23,19.6,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",5,8,"t",1,3.7,17.67,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",6,9,"t",1,1.23,18.81,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",5,9,"t",1,3.7,15.8,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",4,8,"t",1,11.11,18.1,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",4,9,"t",1,11.11,19.08,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",3,9,"t",1,33.33,16.84,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",3,8,"t",1,33.33,18.09,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",2,8,"t",1,100,15.25,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128303","20130320.Plate.4",2,9,"t",1,100,14.86,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128302","20130321.Plate.9",7,4,"t",1,0.41,26.07,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",6,4,"t",1,1.23,24.78,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",7,5,"t",1,0.41,26.24,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",6,5,"t",1,1.23,27.45,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",5,4,"t",1,3.7,33.04,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",5,5,"t",1,3.7,31.62,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",4,5,"t",1,11.11,33.53,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",4,4,"t",1,11.11,37.21,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",3,4,"t",1,33.33,27.36,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",3,5,"t",1,33.33,26.1,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128302","20130321.Plate.9",2,4,"t",1,100,3.16,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128301","20130320.Plate.10",7,10,"t",1,0.04,14.48,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128302","20130321.Plate.9",2,5,"t",1,100,1.45,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128301","20130320.Plate.10",7,11,"t",1,0.04,16.55,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",6,10,"t",1,0.12,16.24,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",6,11,"t",1,0.12,15.39,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",5,11,"t",1,0.37,14.98,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",5,10,"t",1,0.37,13.72,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",4,10,"t",1,1.11,15.21,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",4,11,"t",1,1.11,15.32,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",3,10,"t",1,3.33,14.43,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",2,10,"t",1,10,13.13,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",3,11,"t",1,3.33,14.26,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128301","20130320.Plate.10",2,11,"t",1,10,11.61,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128300","20130321.Plate.7",7,10,"t",1,0.41,29.37,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",7,11,"t",1,0.41,28.19,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",6,11,"t",1,1.23,29.1,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",6,10,"t",1,1.23,23.85,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",5,10,"t",1,3.7,20.18,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",5,11,"t",1,3.7,23.94,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",4,10,"t",1,11.11,30.75,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",3,10,"t",1,33.33,31.77,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",4,11,"t",1,11.11,29.67,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",3,11,"t",1,33.33,28.05,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",2,10,"t",1,100,25.96,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128300","20130321.Plate.7",2,11,"t",1,100,27.58,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128299","20130320.Plate.6",7,10,"t",1,0.04,14.96,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",6,10,"t",1,0.12,12.88,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",7,11,"t",1,0.04,16.37,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",6,11,"t",1,0.12,17.4,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",5,10,"t",1,0.37,13.11,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",5,11,"t",1,0.37,13.33,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",4,11,"t",1,1.11,13.07,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",4,10,"t",1,1.11,12.69,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",3,10,"t",1,3.33,13.16,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",3,11,"t",1,3.33,12.4,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128299","20130320.Plate.6",2,10,"t",1,10,9.07,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128296","20130321.Plate.5",7,10,"t",1,0.21,30.19,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128299","20130320.Plate.6",2,11,"t",1,10,9.46,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128296","20130321.Plate.5",7,11,"t",1,0.21,26.2,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",6,10,"t",1,0.62,26.85,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",6,11,"t",1,0.62,27.31,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",5,11,"t",1,1.85,30.12,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",5,10,"t",1,1.85,28.98,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",4,10,"t",1,5.56,24.93,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",4,11,"t",1,5.56,27.37,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",3,10,"t",1,16.67,21.51,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",2,10,"t",1,50,18.76,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",3,11,"t",1,16.67,20.81,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128296","20130321.Plate.5",2,11,"t",1,50,18.65,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128295","20130320.Plate.9",7,8,"t",1,0.04,18.33,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",7,9,"t",1,0.04,15.99,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",6,9,"t",1,0.12,16.84,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",6,8,"t",1,0.12,14.2,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",5,8,"t",1,0.37,17.05,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",5,9,"t",1,0.37,15.17,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",4,9,"t",1,1.11,14.76,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",4,8,"t",1,1.11,13.55,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",3,8,"t",1,3.33,13.58,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",3,9,"t",1,3.33,11.94,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",2,9,"t",1,10,8.29,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128295","20130320.Plate.9",2,8,"t",1,10,11.48,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128292","26Mar2014.Plate.2",7,10,"t",1,0.041,13.69,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",7,11,"t",1,0.041,9.24,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",6,10,"t",1,0.123,7.8,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",5,10,"t",1,0.37,7.48,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",6,11,"t",1,0.123,8.82,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",5,11,"t",1,0.37,10.2,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",4,10,"t",1,1.111,8.72,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",4,11,"t",1,1.111,8.13,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",3,11,"t",1,3.333,7.49,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",3,10,"t",1,3.333,6.28,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",2,10,"t",1,10,6.07,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128292","26Mar2014.Plate.2",2,11,"t",1,10,6.26,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",7,8,"t",1,0.412,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",6,8,"t",1,1.235,9.07,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",7,9,"t",1,0.412,10.57,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",6,9,"t",1,1.235,8.72,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",5,8,"t",1,3.704,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",5,9,"t",1,3.704,8.17,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",4,9,"t",1,11.111,7.28,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",4,8,"t",1,11.111,7.17,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",3,8,"t",1,33.333,5.77,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",3,9,"t",1,33.333,6.04,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128291","26Mar2014.Plate.7",2,8,"t",1,100,5.17,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128286","20130320.Plate.8",7,8,"t",1,0.41,15.25,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128291","26Mar2014.Plate.7",2,9,"t",1,100,4.01,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128286","20130320.Plate.8",7,9,"t",1,0.41,15.36,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",6,8,"t",1,1.23,14.43,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",6,9,"t",1,1.23,13.84,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",5,9,"t",1,3.7,14.16,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",5,8,"t",1,3.7,13.01,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",4,8,"t",1,11.11,9.8,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",4,9,"t",1,11.11,11.08,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",3,8,"t",1,33.33,9.01,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",2,8,"t",1,100,7.39,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",3,9,"t",1,33.33,8.18,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128286","20130320.Plate.8",2,9,"t",1,100,7.59,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128285","20130320.Plate.15",7,8,"t",1,0.41,18.24,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",7,9,"t",1,0.41,16.7,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",6,9,"t",1,1.23,21.04,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",6,8,"t",1,1.23,18.05,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",5,8,"t",1,3.7,16.6,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",5,9,"t",1,3.7,16.13,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",4,8,"t",1,11.11,15.13,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",3,8,"t",1,33.33,15.76,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",4,9,"t",1,11.11,15.46,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",3,9,"t",1,33.33,14.13,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",2,8,"t",1,100,14.47,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128285","20130320.Plate.15",2,9,"t",1,100,13.38,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",7,7,"t",1,0.41,16.76,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",7,6,"t",1,0.41,16.51,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",6,6,"t",1,1.23,15.31,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",6,7,"t",1,1.23,19.01,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",5,6,"t",1,3.7,18.58,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",4,6,"t",1,11.11,14.91,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",5,7,"t",1,3.7,17.26,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",4,7,"t",1,11.11,15.21,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",3,6,"t",1,33.33,14.91,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",3,7,"t",1,33.33,16.11,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",2,7,"t",1,100,12.95,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128283","20130320.Plate.15",2,6,"t",1,100,12.7,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128282","20130320.Plate.6",7,4,"t",1,0.41,14.33,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",7,5,"t",1,0.41,13.59,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",6,4,"t",1,1.23,15.3,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",5,4,"t",1,3.7,11.72,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",6,5,"t",1,1.23,13.97,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",5,5,"t",1,3.7,14.36,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",4,4,"t",1,11.11,14.76,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",4,5,"t",1,11.11,16.56,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",3,5,"t",1,33.33,14.09,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",3,4,"t",1,33.33,12.23,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",2,4,"t",1,100,9.86,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128282","20130320.Plate.6",2,5,"t",1,100,7.32,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128281","20130321.Plate.3",7,4,"t",1,0.41,27.7,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",6,4,"t",1,1.23,27.9,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",7,5,"t",1,0.41,26.46,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",6,5,"t",1,1.23,29.23,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",5,4,"t",1,3.7,27.59,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",5,5,"t",1,3.7,28.47,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",4,5,"t",1,11.11,30.11,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",4,4,"t",1,11.11,32.29,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",3,4,"t",1,33.33,24.31,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",3,5,"t",1,33.33,21.03,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128281","20130321.Plate.3",2,4,"t",1,100,10.91,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128279","20130321.Plate.2",7,6,"t",1,0.41,31.04,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128281","20130321.Plate.3",2,5,"t",1,100,10.94,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128279","20130321.Plate.2",7,7,"t",1,0.41,28.81,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",6,6,"t",1,1.23,27.88,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",6,7,"t",1,1.23,29.35,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",5,7,"t",1,3.7,29.14,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",5,6,"t",1,3.7,28.42,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",4,6,"t",1,11.11,24.59,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",4,7,"t",1,11.11,30.11,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",3,6,"t",1,33.33,25.4,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",2,6,"t",1,100,21.26,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",3,7,"t",1,33.33,29.62,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128279","20130321.Plate.2",2,7,"t",1,100,22.48,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128278","26Mar2014.Plate.5",7,10,"t",1,0.041,9.6,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",7,11,"t",1,0.041,10.54,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",6,11,"t",1,0.123,9.49,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",6,10,"t",1,0.123,8.55,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",5,10,"t",1,0.37,16.9,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",5,11,"t",1,0.37,13.62,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",4,10,"t",1,1.111,16.65,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",3,10,"t",1,3.333,16.22,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",4,11,"t",1,1.111,14.4,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",3,11,"t",1,3.333,14.47,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",2,11,"t",1,10,9.34,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128278","26Mar2014.Plate.5",2,10,"t",1,10,8.57,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",7,10,"t",1,0.412,11.28,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",7,11,"t",1,0.412,12.96,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",6,10,"t",1,1.235,11.64,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",5,10,"t",1,3.704,11.76,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",6,11,"t",1,1.235,8.29,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",5,11,"t",1,3.704,9.59,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",4,10,"t",1,11.111,12.94,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",4,11,"t",1,11.111,13.03,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",3,11,"t",1,33.333,12.49,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",3,10,"t",1,33.333,13.88,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",2,10,"t",1,100,17.08,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128274","26Mar2014.Plate.1",2,11,"t",1,100,13.06,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",7,10,"t",1,0.041,12.62,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",6,10,"t",1,0.123,11.01,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",7,11,"t",1,0.041,9.61,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",6,11,"t",1,0.123,8.77,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",5,10,"t",1,0.37,10.63,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",5,11,"t",1,0.37,10.49,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",4,11,"t",1,1.111,9.2,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",4,10,"t",1,1.111,10.65,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",3,10,"t",1,3.333,12.97,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",3,11,"t",1,3.333,11.94,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128273","26Mar2014.Plate.7",2,10,"t",1,10,10.36,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128272","20130321.Plate.7",7,4,"t",1,0.41,29.54,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128273","26Mar2014.Plate.7",2,11,"t",1,10,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128272","20130321.Plate.7",7,5,"t",1,0.41,24.96,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",6,4,"t",1,1.23,25.19,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",6,5,"t",1,1.23,29.18,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",5,5,"t",1,3.7,22.99,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",5,4,"t",1,3.7,21.56,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",4,4,"t",1,11.11,32,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",4,5,"t",1,11.11,30.22,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",3,4,"t",1,33.33,31.61,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",3,5,"t",1,33.33,28.18,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",2,4,"t",1,100,28.98,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128272","20130321.Plate.7",2,5,"t",1,100,28.86,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128271","20130320.Plate.13",7,4,"t",1,0.41,16.15,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",7,5,"t",1,0.41,16.93,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",6,4,"t",1,1.23,17.13,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",6,5,"t",1,1.23,18,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",5,4,"t",1,3.7,18.3,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",5,5,"t",1,3.7,16.78,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",4,4,"t",1,11.11,15.3,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",3,4,"t",1,33.33,15.68,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",4,5,"t",1,11.11,15.45,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",3,5,"t",1,33.33,14.73,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",2,4,"t",1,100,15.6,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128271","20130320.Plate.13",2,5,"t",1,100,14.52,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128270","26Mar2014.Plate.2",7,9,"t",1,0.041,9.14,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",7,8,"t",1,0.041,10.34,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",6,8,"t",1,0.123,7.59,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",5,8,"t",1,0.37,8.8,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",6,9,"t",1,0.123,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",5,9,"t",1,0.37,8.2,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",4,8,"t",1,1.111,6.68,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",4,9,"t",1,1.111,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",3,9,"t",1,3.333,7.68,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",3,8,"t",1,3.333,5.85,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",2,8,"t",1,10,10.68,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128270","26Mar2014.Plate.2",2,9,"t",1,10,8.65,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128268","20130320.Plate.9",7,6,"t",1,0.003,14.82,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",7,7,"t",1,0.003,16.69,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",6,6,"t",1,0.01,12.38,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",6,7,"t",1,0.01,11.41,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",5,6,"t",1,0.04,16.55,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",5,7,"t",1,0.04,16.21,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",4,6,"t",1,0.11,7.88,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",4,7,"t",1,0.11,10.04,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",3,6,"t",1,0.33,7.53,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",3,7,"t",1,0.33,6.68,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128268","20130320.Plate.9",2,6,"t",1,1,2.72,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128266","20130321.Plate.2",7,8,"t",1,0.41,27.1,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128268","20130320.Plate.9",2,7,"t",1,1,2.71,"ToxCast_1 CR 20130320 Plate 9.csv","cort" +"BF00128266","20130321.Plate.2",7,9,"t",1,0.41,24.65,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",6,8,"t",1,1.23,28.25,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",6,9,"t",1,1.23,25.14,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",5,8,"t",1,3.7,26.87,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",5,9,"t",1,3.7,27.28,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",4,8,"t",1,11.11,26.2,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",4,9,"t",1,11.11,25.39,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",3,8,"t",1,33.33,27.53,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",3,9,"t",1,33.33,24.43,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",2,8,"t",1,100,24.51,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128266","20130321.Plate.2",2,9,"t",1,100,19.24,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128264","20130321.Plate.3",7,10,"t",1,0.41,30.24,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",7,11,"t",1,0.41,26.98,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",6,11,"t",1,1.23,28.03,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",6,10,"t",1,1.23,30.98,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",5,10,"t",1,3.7,30.03,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",5,11,"t",1,3.7,28.79,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",4,10,"t",1,11.11,29.68,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",3,10,"t",1,33.33,28.63,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",4,11,"t",1,11.11,27.11,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",3,11,"t",1,33.33,25.09,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",2,10,"t",1,100,24.92,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128264","20130321.Plate.3",2,11,"t",1,100,25.19,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128263","20130321.Plate.4",7,7,"t",1,0.41,29.09,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",7,6,"t",1,0.41,27.12,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",6,6,"t",1,1.23,28.89,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",6,7,"t",1,1.23,28.56,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",5,6,"t",1,3.7,28.12,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",4,6,"t",1,11.11,29.21,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",5,7,"t",1,3.7,28.78,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",4,7,"t",1,11.11,29.42,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",3,6,"t",1,33.33,32.43,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",3,7,"t",1,33.33,31.02,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",2,7,"t",1,100,33.27,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128263","20130321.Plate.4",2,6,"t",1,100,36.28,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128259","20130320.Plate.12",7,4,"t",1,0.04,15.19,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",7,5,"t",1,0.04,14.37,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",6,4,"t",1,0.12,19.55,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",5,4,"t",1,0.37,23.86,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",6,5,"t",1,0.12,14.08,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",5,5,"t",1,0.37,19.41,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",4,4,"t",1,1.11,23.08,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",4,5,"t",1,1.11,21.08,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",3,4,"t",1,3.33,16.61,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",3,5,"t",1,3.33,16.37,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",2,4,"t",1,10,14.6,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128259","20130320.Plate.12",2,5,"t",1,10,10.22,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128257","26Mar2014.Plate.7",7,6,"t",1,0.412,10.56,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",7,7,"t",1,0.412,8.72,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",6,6,"t",1,1.235,12.02,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",6,7,"t",1,1.235,13.18,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",5,6,"t",1,3.704,13.77,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",5,7,"t",1,3.704,13.27,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",4,6,"t",1,11.111,8.67,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",4,7,"t",1,11.111,6.94,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",3,6,"t",1,33.333,5.36,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",3,7,"t",1,33.333,5.23,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",2,6,"t",1,100,4.73,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128257","26Mar2014.Plate.7",2,7,"t",1,100,3.81,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"BF00128256","26Mar2014.Plate.1",7,4,"t",1,0.41,12.67,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","26Mar2014.Plate.1",7,5,"t",1,0.41,12.39,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","20130320.Plate.1",7,10,"t",1,0.41,12.64,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","20130320.Plate.1",7,11,"t",1,0.41,15.4,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","26Mar2014.Plate.1",6,4,"t",1,1.23,6.14,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","26Mar2014.Plate.1",6,5,"t",1,1.23,8.9,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","20130320.Plate.1",6,10,"t",1,1.23,14.26,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","20130320.Plate.1",6,11,"t",1,1.23,15.27,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","26Mar2014.Plate.1",5,4,"t",1,3.7,8.53,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","26Mar2014.Plate.1",5,5,"t",1,3.7,12.86,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","20130320.Plate.1",5,10,"t",1,3.7,16.35,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","20130320.Plate.1",5,11,"t",1,3.7,23.06,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","26Mar2014.Plate.1",4,4,"t",1,11.11,11.66,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","26Mar2014.Plate.1",4,5,"t",1,11.11,15.05,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","20130320.Plate.1",4,10,"t",1,11.11,21.69,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","20130320.Plate.1",4,11,"t",1,11.11,17.71,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","26Mar2014.Plate.1",3,4,"t",1,33.33,12.84,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","26Mar2014.Plate.1",3,5,"t",1,33.33,15.83,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","20130320.Plate.1",3,10,"t",1,33.33,14.93,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","20130320.Plate.1",3,11,"t",1,33.33,13.56,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","26Mar2014.Plate.1",2,4,"t",1,100,9.79,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","26Mar2014.Plate.1",2,5,"t",1,100,11.41,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128256","20130320.Plate.1",2,10,"t",1,100,9.71,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128256","20130320.Plate.1",2,11,"t",1,100,12.22,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128251","26Mar2014.Plate.4",7,4,"t",1,0.004,12.89,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",7,5,"t",1,0.004,10.76,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",6,4,"t",1,0.012,9.05,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",5,4,"t",1,0.037,8.06,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",6,5,"t",1,0.012,10.12,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",5,5,"t",1,0.037,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",4,4,"t",1,0.111,8.4,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",4,5,"t",1,0.111,8.12,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",3,4,"t",1,0.333,11.76,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",3,5,"t",1,0.333,8.32,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",2,4,"t",1,1,11.91,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128251","26Mar2014.Plate.4",2,5,"t",1,1,8.44,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128247","20130320.Plate.5",7,8,"t",1,0.41,19.04,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",7,9,"t",1,0.41,14.82,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",6,8,"t",1,1.23,19.79,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",6,9,"t",1,1.23,15.09,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",5,8,"t",1,3.7,16.03,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",5,9,"t",1,3.7,16.18,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",4,8,"t",1,11.11,22.1,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",4,9,"t",1,11.11,20.22,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",3,8,"t",1,33.33,19.11,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",3,9,"t",1,33.33,15.44,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",2,8,"t",1,100,13.74,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128247","20130320.Plate.5",2,9,"t",1,100,13.66,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128246","20130320.Plate.15",7,4,"t",1,0.41,21.38,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",7,5,"t",1,0.41,17.16,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",6,4,"t",1,1.23,23.18,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",6,5,"t",1,1.23,24.4,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",5,4,"t",1,3.7,28.05,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",5,5,"t",1,3.7,20.89,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",4,4,"t",1,11.11,22,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",3,4,"t",1,33.33,19.01,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",4,5,"t",1,11.11,28.71,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",3,5,"t",1,33.33,24.36,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",2,4,"t",1,100,51.19,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128246","20130320.Plate.15",2,5,"t",1,100,29.99,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128244","20130321.Plate.8",7,7,"t",1,0.41,27.59,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",7,6,"t",1,0.41,26.48,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",6,6,"t",1,1.23,27.23,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",6,7,"t",1,1.23,31.57,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",5,6,"t",1,3.7,27.03,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",4,6,"t",1,11.11,28.7,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",5,7,"t",1,3.7,29.29,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",4,7,"t",1,11.11,30.03,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",3,6,"t",1,33.33,30.02,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",3,7,"t",1,33.33,31.36,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",2,6,"t",1,100,27.92,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128244","20130321.Plate.8",2,7,"t",1,100,35.22,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128241","20130320.Plate.11",7,4,"t",1,0.04,15.41,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",7,5,"t",1,0.04,20.31,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",6,4,"t",1,0.12,14.37,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",6,5,"t",1,0.12,17.13,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",5,4,"t",1,0.37,13,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",5,5,"t",1,0.37,19.18,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",4,4,"t",1,1.11,14.62,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",4,5,"t",1,1.11,18.46,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",3,4,"t",1,3.33,13.45,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",2,4,"t",1,10,12.76,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",3,5,"t",1,3.33,16.33,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128241","20130320.Plate.11",2,5,"t",1,10,12.43,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128240","20130321.Plate.2",7,10,"t",1,0.41,28.16,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",7,11,"t",1,0.41,30.25,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",6,10,"t",1,1.23,26.11,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",6,11,"t",1,1.23,29.51,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",5,10,"t",1,3.7,30.51,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",5,11,"t",1,3.7,31.38,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",4,10,"t",1,11.11,27.22,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",4,11,"t",1,11.11,29.14,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",3,10,"t",1,33.33,29.87,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",3,11,"t",1,33.33,29.28,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",2,10,"t",1,100,24.63,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128240","20130321.Plate.2",2,11,"t",1,100,29.64,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128238","20130321.Plate.3",7,6,"t",1,0.41,28.74,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",7,7,"t",1,0.41,36.11,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",6,6,"t",1,1.23,32.84,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",6,7,"t",1,1.23,35.18,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",5,6,"t",1,3.7,38.91,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",5,7,"t",1,3.7,39.87,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",4,6,"t",1,11.11,30.38,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",4,7,"t",1,11.11,32.86,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",3,6,"t",1,33.33,23.84,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",3,7,"t",1,33.33,26.34,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",2,6,"t",1,100,24.25,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128238","20130321.Plate.3",2,7,"t",1,100,21.4,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128235","20130321.Plate.4",7,8,"t",1,0.003,32.91,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",7,9,"t",1,0.003,27.85,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",6,8,"t",1,0.01,35.05,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",6,9,"t",1,0.01,34.62,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",5,8,"t",1,0.04,30.04,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",5,9,"t",1,0.04,26.06,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",4,8,"t",1,0.11,17.54,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",4,9,"t",1,0.11,16.44,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",3,8,"t",1,0.33,6.12,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",3,9,"t",1,0.33,4.66,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",2,8,"t",1,1,1.28,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128235","20130321.Plate.4",2,9,"t",1,1,1.44,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128233","20130321.Plate.8",7,4,"t",1,0.41,31.28,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",7,5,"t",1,0.41,25.61,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",6,4,"t",1,1.23,33.72,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",6,5,"t",1,1.23,28.6,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",5,4,"t",1,3.7,27.84,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",5,5,"t",1,3.7,31.04,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",4,4,"t",1,11.11,28.45,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",4,5,"t",1,11.11,29.87,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",3,4,"t",1,33.33,27.65,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",3,5,"t",1,33.33,26.01,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",2,4,"t",1,100,29.6,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128233","20130321.Plate.8",2,5,"t",1,100,25.12,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128232","20130321.Plate.9",7,11,"t",1,0.41,27.25,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",7,10,"t",1,0.41,30.01,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",6,10,"t",1,1.23,29.69,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",6,11,"t",1,1.23,25.55,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",5,10,"t",1,3.7,28,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",4,10,"t",1,11.11,27.42,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",5,11,"t",1,3.7,28.56,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",4,11,"t",1,11.11,26.42,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",3,10,"t",1,33.33,27.95,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",3,11,"t",1,33.33,26.7,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",2,11,"t",1,100,26.01,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128232","20130321.Plate.9",2,10,"t",1,100,25.85,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128228","20130320.Plate.5",7,6,"t",1,0.41,12.48,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",7,7,"t",1,0.41,15.92,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",6,6,"t",1,1.23,15.06,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",5,6,"t",1,3.7,11.53,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",6,7,"t",1,1.23,16.18,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",5,7,"t",1,3.7,12.91,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",4,6,"t",1,11.11,13.57,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",4,7,"t",1,11.11,12.43,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",3,6,"t",1,33.33,10.41,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",3,7,"t",1,33.33,11.11,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",2,6,"t",1,100,7.7,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128228","20130320.Plate.5",2,7,"t",1,100,10.37,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128225","26Mar2014.Plate.3",7,8,"t",1,0.004,8.9,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",7,9,"t",1,0.004,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",6,8,"t",1,0.012,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",6,9,"t",1,0.012,6.87,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",5,8,"t",1,0.037,8.86,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",5,9,"t",1,0.037,7.8,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",4,8,"t",1,0.111,8.84,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",4,9,"t",1,0.111,7.74,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",3,8,"t",1,0.333,5.54,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",3,9,"t",1,0.333,6.17,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",2,8,"t",1,1,2.54,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128225","26Mar2014.Plate.3",2,9,"t",1,1,2.23,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128224","20130320.Plate.10",7,4,"t",1,0.41,17.71,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",7,5,"t",1,0.41,12.14,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",6,4,"t",1,1.23,14.33,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",6,5,"t",1,1.23,15.09,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",5,4,"t",1,3.7,14.63,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",5,5,"t",1,3.7,12.38,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",4,4,"t",1,11.11,18.75,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",4,5,"t",1,11.11,14.5,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",3,4,"t",1,33.33,14.88,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",3,5,"t",1,33.33,13.45,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",2,4,"t",1,100,13.11,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128224","20130320.Plate.10",2,5,"t",1,100,12.71,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128220","20130320.Plate.6",7,6,"t",1,0.41,3.77,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",7,7,"t",1,0.41,4.3,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",6,6,"t",1,1.23,2.11,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",6,7,"t",1,1.23,1.98,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",5,7,"t",1,3.7,1.49,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",5,6,"t",1,3.7,2.23,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",4,6,"t",1,11.11,0.75,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",4,7,"t",1,11.11,0.85,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",3,6,"t",1,33.33,0.53,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",2,6,"t",1,100,1.1,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",3,7,"t",1,33.33,0.67,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128220","20130320.Plate.6",2,7,"t",1,100,0.76,"ToxCast_1 CR 20130320 Plate 6.csv","cort" +"BF00128218","20130321.Plate.8",7,10,"t",1,0.04,25.38,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",7,11,"t",1,0.04,24.89,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",6,10,"t",1,0.12,24.15,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",6,11,"t",1,0.12,28.42,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",5,10,"t",1,0.37,27.68,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",5,11,"t",1,0.37,27.16,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",4,10,"t",1,1.11,29.27,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",4,11,"t",1,1.11,24.84,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",3,10,"t",1,3.33,22.82,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",3,11,"t",1,3.33,24.66,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",2,10,"t",1,10,19.2,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128218","20130321.Plate.8",2,11,"t",1,10,19.94,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128215","26Mar2014.Plate.2",7,4,"t",1,0.041,8.34,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",7,5,"t",1,0.041,6.54,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",6,4,"t",1,0.123,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",6,5,"t",1,0.123,7.02,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",5,4,"t",1,0.37,8.06,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",5,5,"t",1,0.37,7.36,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",4,4,"t",1,1.111,4.95,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",4,5,"t",1,1.111,4.92,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",3,4,"t",1,3.333,4.52,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",3,5,"t",1,3.333,4.37,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",2,4,"t",1,10,1.69,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128215","26Mar2014.Plate.2",2,5,"t",1,10,1.65,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128211","20130320.Plate.10",7,8,"t",1,0.003,16.75,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",7,9,"t",1,0.003,18.58,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",6,8,"t",1,0.01,16.83,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",6,9,"t",1,0.01,16.59,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",5,8,"t",1,0.04,16.42,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",5,9,"t",1,0.04,19,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",4,8,"t",1,0.11,16.2,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",4,9,"t",1,0.11,18.06,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",3,8,"t",1,0.33,16.29,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",3,9,"t",1,0.33,16.08,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",2,8,"t",1,1,15.29,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128211","20130320.Plate.10",2,9,"t",1,1,16.7,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128208","20130320.Plate.2",7,4,"t",1,0.41,17.9,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",7,5,"t",1,0.41,14.41,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",6,4,"t",1,1.23,18.07,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",6,5,"t",1,1.23,15.09,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",5,4,"t",1,3.7,21.86,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",4,4,"t",1,11.11,16.75,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",5,5,"t",1,3.7,17.1,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",4,5,"t",1,11.11,16.24,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",3,4,"t",1,33.33,19.5,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",2,4,"t",1,100,18.94,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",3,5,"t",1,33.33,16.57,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128208","20130320.Plate.2",2,5,"t",1,100,18.45,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128201","26Mar2014.Plate.4",7,6,"t",1,0.412,9.11,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",7,7,"t",1,0.412,9.73,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",6,6,"t",1,1.235,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",5,6,"t",1,3.704,8.85,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",6,7,"t",1,1.235,10.5,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",5,7,"t",1,3.704,8.33,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",4,6,"t",1,11.111,8.21,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",3,6,"t",1,33.333,10.24,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",4,7,"t",1,11.111,10.47,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",3,7,"t",1,33.333,7.96,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",2,6,"t",1,100,6.77,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128201","26Mar2014.Plate.4",2,7,"t",1,100,6.53,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128200","20130321.Plate.6",7,5,"t",1,0.08,27.75,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",7,4,"t",1,0.08,26.79,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",6,4,"t",1,0.25,32.34,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",6,5,"t",1,0.25,31.49,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",5,4,"t",1,0.74,30.56,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",5,5,"t",1,0.74,26.85,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",4,4,"t",1,2.23,37.49,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",4,5,"t",1,2.23,31.77,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",3,4,"t",1,6.7,45.49,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",3,5,"t",1,6.7,43.79,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",2,4,"t",1,20.1,49.64,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128200","20130321.Plate.6",2,5,"t",1,20.1,46.27,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128197","20130320.Plate.7",7,4,"t",1,0.04,15.07,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",7,5,"t",1,0.04,16,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",6,4,"t",1,0.12,13.4,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",6,5,"t",1,0.12,13.82,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",5,4,"t",1,0.37,16.59,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",5,5,"t",1,0.37,17.07,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",4,4,"t",1,1.11,17.83,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",4,5,"t",1,1.11,16.48,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",3,4,"t",1,3.33,15.01,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",3,5,"t",1,3.33,14.27,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",2,4,"t",1,10,23.15,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128197","20130320.Plate.7",2,5,"t",1,10,26.62,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128196","20130320.Plate.8",7,6,"t",1,0.41,13.68,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",7,7,"t",1,0.41,14.85,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",6,6,"t",1,1.23,13.36,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",6,7,"t",1,1.23,15.67,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",5,6,"t",1,3.7,10.43,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",5,7,"t",1,3.7,12.59,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",4,6,"t",1,11.11,9.4,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",4,7,"t",1,11.11,8.54,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",3,6,"t",1,33.33,7.86,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",3,7,"t",1,33.33,7.31,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",2,6,"t",1,100,3.65,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128196","20130320.Plate.8",2,7,"t",1,100,3.22,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128195","20130320.Plate.7",7,8,"t",1,0.003,16.29,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",6,8,"t",1,0.01,11.02,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",7,9,"t",1,0.003,17.4,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",6,9,"t",1,0.01,11.43,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",5,8,"t",1,0.04,7.67,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",5,9,"t",1,0.04,6.67,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",4,9,"t",1,0.11,3.94,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",4,8,"t",1,0.11,4.12,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",3,8,"t",1,0.33,1.54,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",3,9,"t",1,0.33,1.68,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",2,8,"t",1,1,0.87,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128195","20130320.Plate.7",2,9,"t",1,1,0.97,"ToxCast_1 CR 20130320 Plate 7.csv","cort" +"BF00128194","20130321.Plate.5",7,6,"t",1,0.04,24.92,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",7,7,"t",1,0.04,29.26,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",6,6,"t",1,0.12,26.14,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",6,7,"t",1,0.12,28.74,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",5,6,"t",1,0.37,25.62,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",5,7,"t",1,0.37,28.47,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",4,6,"t",1,1.11,25.99,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",4,7,"t",1,1.11,28.1,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",3,6,"t",1,3.33,24.26,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",3,7,"t",1,3.33,25.94,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",2,6,"t",1,10,24.13,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128194","20130321.Plate.5",2,7,"t",1,10,25.39,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128192","20130321.Plate.6",7,10,"t",1,0.003,28.73,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",7,11,"t",1,0.003,25,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",6,10,"t",1,0.01,28.94,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",6,11,"t",1,0.01,30.62,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",5,10,"t",1,0.04,26.64,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",5,11,"t",1,0.04,26.79,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",4,10,"t",1,0.11,27.74,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",4,11,"t",1,0.11,30.95,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",3,10,"t",1,0.33,23.84,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",3,11,"t",1,0.33,21.88,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",2,10,"t",1,1,15.38,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128192","20130321.Plate.6",2,11,"t",1,1,16.41,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128190","20130320.Plate.15",7,10,"t",1,0.41,16.24,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",7,11,"t",1,0.41,17.49,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",6,10,"t",1,1.23,19.36,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",6,11,"t",1,1.23,20.12,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",5,10,"t",1,3.7,16.69,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",5,11,"t",1,3.7,18.61,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",4,10,"t",1,11.11,18.64,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",4,11,"t",1,11.11,18.74,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",3,10,"t",1,33.33,18.63,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",3,11,"t",1,33.33,16.38,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",2,10,"t",1,100,13.66,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128190","20130320.Plate.15",2,11,"t",1,100,13.38,"ToxCast_1 CR 20130320 Plate 15.csv","cort" +"BF00128187","20130320.Plate.11",7,8,"t",1,0.41,17.55,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",7,9,"t",1,0.41,17.2,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",6,8,"t",1,1.23,17.08,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",6,9,"t",1,1.23,20.16,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",5,8,"t",1,3.7,18.8,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",5,9,"t",1,3.7,18.03,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",4,9,"t",1,11.11,13.18,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",4,8,"t",1,11.11,13.36,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",3,8,"t",1,33.33,7.04,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",3,9,"t",1,33.33,7.01,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",2,9,"t",1,100,3.17,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128187","20130320.Plate.11",2,8,"t",1,100,3.55,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128182","20130320.Plate.10",7,6,"t",1,0.41,15.77,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",7,7,"t",1,0.41,17.48,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",6,6,"t",1,1.23,16.07,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",5,6,"t",1,3.7,16.73,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",6,7,"t",1,1.23,16.71,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",5,7,"t",1,3.7,20.51,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",4,6,"t",1,11.11,19.72,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",3,6,"t",1,33.33,21.12,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",4,7,"t",1,11.11,19.98,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",3,7,"t",1,33.33,19.94,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",2,6,"t",1,100,14.43,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128182","20130320.Plate.10",2,7,"t",1,100,20.16,"ToxCast_1 CR 20130320 Plate 10.csv","cort" +"BF00128179","26Mar2014.Plate.3",7,10,"t",1,0.412,10.05,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",7,11,"t",1,0.412,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",6,10,"t",1,1.235,7.79,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",5,10,"t",1,3.704,8.56,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",6,11,"t",1,1.235,7.2,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",5,11,"t",1,3.704,7.29,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",4,10,"t",1,11.111,8.13,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",3,10,"t",1,33.333,4.52,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",4,11,"t",1,11.111,9.01,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",3,11,"t",1,33.333,4.43,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",2,10,"t",1,100,3.95,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128179","26Mar2014.Plate.3",2,11,"t",1,100,4.08,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"BF00128178","20130320.Plate.13",7,11,"t",1,0.41,17.1,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",7,10,"t",1,0.41,14.45,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",6,10,"t",1,1.23,16.39,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",6,11,"t",1,1.23,18.5,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",5,10,"t",1,3.7,19.43,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",4,10,"t",1,11.11,19.26,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",5,11,"t",1,3.7,18.74,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",4,11,"t",1,11.11,16.22,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",3,10,"t",1,33.33,16.1,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",3,11,"t",1,33.33,14.14,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",2,11,"t",1,100,17.28,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128178","20130320.Plate.13",2,10,"t",1,100,20.27,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128176","20130321.Plate.4",7,4,"t",1,0.41,29.64,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",7,5,"t",1,0.41,25.46,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",6,4,"t",1,1.23,29.34,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",5,4,"t",1,3.7,26.92,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",6,5,"t",1,1.23,26.81,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",5,5,"t",1,3.7,26.87,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",4,4,"t",1,11.11,29.34,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",4,5,"t",1,11.11,30.8,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",3,5,"t",1,33.33,30.59,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",3,4,"t",1,33.33,33.87,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",2,4,"t",1,100,36.39,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128176","20130321.Plate.4",2,5,"t",1,100,31.59,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128175","20130320.Plate.3",7,8,"t",1,0.41,12.4,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",6,8,"t",1,1.23,11.83,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",7,9,"t",1,0.41,10.65,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",6,9,"t",1,1.23,11.04,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",5,8,"t",1,3.7,14.52,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",5,9,"t",1,3.7,14.2,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",4,9,"t",1,11.11,10.59,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",4,8,"t",1,11.11,11.43,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",3,8,"t",1,33.33,10.78,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",3,9,"t",1,33.33,7.85,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128175","20130320.Plate.3",2,8,"t",1,100,5.4,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128172","26Mar2014.Plate.1",7,6,"t",1,0.41,10.6,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128175","20130320.Plate.3",2,9,"t",1,100,3.78,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128172","26Mar2014.Plate.1",7,7,"t",1,0.41,8.54,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","20130320.Plate.1",7,8,"t",1,0.41,13.11,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","20130320.Plate.1",7,9,"t",1,0.41,13.62,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","26Mar2014.Plate.1",6,7,"t",1,1.23,7.2,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","26Mar2014.Plate.1",6,6,"t",1,1.23,8.7,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","20130320.Plate.1",6,8,"t",1,1.23,18.83,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","20130320.Plate.1",6,9,"t",1,1.23,16.6,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","26Mar2014.Plate.1",5,6,"t",1,3.7,11.49,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","26Mar2014.Plate.1",5,7,"t",1,3.7,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","20130320.Plate.1",5,8,"t",1,3.7,21.22,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","20130320.Plate.1",5,9,"t",1,3.7,17.79,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","26Mar2014.Plate.1",4,6,"t",1,11.11,12.8,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","26Mar2014.Plate.1",4,7,"t",1,11.11,11.06,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","20130320.Plate.1",4,8,"t",1,11.11,20.09,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","20130320.Plate.1",4,9,"t",1,11.11,19.36,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","26Mar2014.Plate.1",3,6,"t",1,33.33,12.12,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","26Mar2014.Plate.1",3,7,"t",1,33.33,15,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","20130320.Plate.1",3,8,"t",1,33.33,18.12,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","20130320.Plate.1",3,9,"t",1,33.33,17.45,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","26Mar2014.Plate.1",2,6,"t",1,100,15.08,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","26Mar2014.Plate.1",2,7,"t",1,100,16.36,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128172","20130320.Plate.1",2,8,"t",1,100,18.65,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128172","20130320.Plate.1",2,9,"t",1,100,19.95,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"BF00128171","20130320.Plate.12",7,8,"t",1,0.04,17.34,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",7,9,"t",1,0.04,15.93,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",6,8,"t",1,0.12,17.56,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",6,9,"t",1,0.12,19.42,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",5,8,"t",1,0.37,17.27,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",5,9,"t",1,0.37,17.28,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",4,8,"t",1,1.11,17.7,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",4,9,"t",1,1.11,18.62,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",3,8,"t",1,3.33,16.92,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",3,9,"t",1,3.33,19.33,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",2,8,"t",1,10,15.89,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128171","20130320.Plate.12",2,9,"t",1,10,17.08,"ToxCast_1 CR 20130320 Plate 12.csv","cort" +"BF00128169","26Mar2014.Plate.1",7,8,"t",1,0.041,7.53,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",7,9,"t",1,0.041,11.59,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",6,8,"t",1,0.123,9.69,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",5,8,"t",1,0.37,8.01,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",6,9,"t",1,0.123,8.55,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",5,9,"t",1,0.37,10.53,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",4,8,"t",1,1.111,7.58,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",3,8,"t",1,3.333,6.33,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",4,9,"t",1,1.111,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",3,9,"t",1,3.333,8.62,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",2,8,"t",1,10,3.32,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128169","26Mar2014.Plate.1",2,9,"t",1,10,3.12,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"BF00128147","20130321.Plate.9",7,8,"t",1,0.41,20.1,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",7,9,"t",1,0.41,20.7,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",6,8,"t",1,1.23,19.19,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",6,9,"t",1,1.23,19.99,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",5,8,"t",1,3.7,18.96,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",5,9,"t",1,3.7,15.32,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",4,8,"t",1,11.11,19.09,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",4,9,"t",1,11.11,17.71,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",3,8,"t",1,33.33,20.69,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",3,9,"t",1,33.33,16.86,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",2,8,"t",1,100,17.82,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128147","20130321.Plate.9",2,9,"t",1,100,16.58,"ToxCast_1 CR 20130321 Plate 9.csv","cort" +"BF00128146","26Mar2014.Plate.8",7,8,"t",1,0.004,10.75,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",7,9,"t",1,0.004,9.64,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",6,8,"t",1,0.012,10.01,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",6,9,"t",1,0.012,8.83,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",5,8,"t",1,0.037,11.13,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",5,9,"t",1,0.037,11.59,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",4,8,"t",1,0.111,10.76,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",4,9,"t",1,0.111,10.25,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",3,8,"t",1,0.333,11.23,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",3,9,"t",1,0.333,11.23,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",2,8,"t",1,1,10.98,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128146","26Mar2014.Plate.8",2,9,"t",1,1,11.33,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128145","20130321.Plate.1",7,10,"t",1,0.41,28.24,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",7,11,"t",1,0.41,28.18,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",6,10,"t",1,1.23,28.32,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",6,11,"t",1,1.23,27.85,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",5,10,"t",1,3.7,26.61,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",5,11,"t",1,3.7,22.85,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",4,10,"t",1,11.11,27.34,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",4,11,"t",1,11.11,26.21,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",3,10,"t",1,33.33,28.01,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",3,11,"t",1,33.33,28.88,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",2,11,"t",1,100,27.2,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128145","20130321.Plate.1",2,10,"t",1,100,31.19,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128144","26Mar2014.Plate.5",7,8,"t",1,0.412,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",7,9,"t",1,0.412,8.56,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",6,8,"t",1,1.235,8.33,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",5,8,"t",1,3.704,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",6,9,"t",1,1.235,8.02,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",5,9,"t",1,3.704,8.95,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",4,8,"t",1,11.111,9.51,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",3,8,"t",1,33.333,11.54,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",4,9,"t",1,11.111,8.66,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",3,9,"t",1,33.333,7.99,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128144","26Mar2014.Plate.5",2,8,"t",1,100,8.29,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128141","20130321.Plate.3",7,8,"t",1,0.41,29.48,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128144","26Mar2014.Plate.5",2,9,"t",1,100,9.16,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"BF00128141","20130321.Plate.3",7,9,"t",1,0.41,28.87,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",6,8,"t",1,1.23,23.28,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",6,9,"t",1,1.23,23.86,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",5,9,"t",1,3.7,20.82,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",5,8,"t",1,3.7,28.53,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",4,8,"t",1,11.11,22.7,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",4,9,"t",1,11.11,22.09,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",3,8,"t",1,33.33,18.64,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",2,8,"t",1,100,14.94,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",3,9,"t",1,33.33,17.48,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128141","20130321.Plate.3",2,9,"t",1,100,14.27,"ToxCast_1 CR 20130321 Plate 3.csv","cort" +"BF00128140","20130321.Plate.4",7,10,"t",1,0.04,29.15,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",7,11,"t",1,0.04,29.84,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",6,10,"t",1,0.12,26.96,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",6,11,"t",1,0.12,26.76,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",5,10,"t",1,0.37,25.77,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",5,11,"t",1,0.37,27.92,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",4,10,"t",1,1.11,20.6,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",4,11,"t",1,1.11,22.86,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",3,10,"t",1,3.33,13.49,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",3,11,"t",1,3.33,12.49,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",2,10,"t",1,10,7.04,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128140","20130321.Plate.4",2,11,"t",1,10,7.26,"ToxCast_1 CR 20130321 Plate 4.csv","cort" +"BF00128139","20130321.Plate.6",7,6,"t",1,0.41,26.55,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",7,7,"t",1,0.41,30.32,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",6,6,"t",1,1.23,28.75,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",6,7,"t",1,1.23,31.37,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",5,6,"t",1,3.7,30.16,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",5,7,"t",1,3.7,30.55,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",4,6,"t",1,11.11,30.54,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",4,7,"t",1,11.11,31.66,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",3,6,"t",1,33.33,30.48,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",3,7,"t",1,33.33,31.6,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",2,6,"t",1,100,31.26,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128139","20130321.Plate.6",2,7,"t",1,100,34.29,"ToxCast_1 CR 20130321 Plate 6.csv","cort" +"BF00128136","20130321.Plate.5",7,8,"t",1,0.41,28.45,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",7,9,"t",1,0.41,26.6,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",6,8,"t",1,1.23,26.91,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",6,9,"t",1,1.23,24.38,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",5,8,"t",1,3.7,28.51,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",5,9,"t",1,3.7,27.25,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",4,8,"t",1,11.11,26.67,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",4,9,"t",1,11.11,29.39,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",3,8,"t",1,33.33,33.17,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",3,9,"t",1,33.33,35.39,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",2,8,"t",1,100,34.01,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128136","20130321.Plate.5",2,9,"t",1,100,33.35,"ToxCast_1 CR 20130321 Plate 5.csv","cort" +"BF00128133","20130321.Plate.1",7,4,"t",1,0.41,30.02,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",6,4,"t",1,1.23,26.38,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",7,5,"t",1,0.41,28.73,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",6,5,"t",1,1.23,27.63,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",5,4,"t",1,3.7,28.97,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",5,5,"t",1,3.7,28.48,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",4,5,"t",1,11.11,27.63,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",4,4,"t",1,11.11,27.99,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",3,4,"t",1,33.33,29,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",3,5,"t",1,33.33,26.74,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",2,4,"t",1,100,30.21,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128133","20130321.Plate.1",2,5,"t",1,100,30.74,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128132","20130320.Plate.8",7,4,"t",1,0.41,17.72,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",7,5,"t",1,0.41,15.01,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",6,4,"t",1,1.23,18.76,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",6,5,"t",1,1.23,15.38,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",5,4,"t",1,3.7,14.36,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",5,5,"t",1,3.7,12.83,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",4,4,"t",1,11.11,11.24,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",4,5,"t",1,11.11,11.6,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",3,4,"t",1,33.33,8.5,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",3,5,"t",1,33.33,7.56,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",2,4,"t",1,100,7.59,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128132","20130320.Plate.8",2,5,"t",1,100,7.32,"ToxCast_1 CR 20130320 Plate 8.csv","cort" +"BF00128129","20130320.Plate.3",7,4,"t",1,0.04,14.73,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",6,4,"t",1,0.12,14.55,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",7,5,"t",1,0.04,12.87,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",6,5,"t",1,0.12,12.66,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",5,4,"t",1,0.37,15.24,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",5,5,"t",1,0.37,11.34,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",4,5,"t",1,1.11,13.87,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",4,4,"t",1,1.11,15.24,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",3,4,"t",1,3.33,13.93,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",3,5,"t",1,3.33,11.94,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128129","20130320.Plate.3",2,4,"t",1,10,13.61,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128121","20130320.Plate.2",7,6,"t",1,0.41,15.99,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128129","20130320.Plate.3",2,5,"t",1,10,12.69,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128121","20130320.Plate.2",7,7,"t",1,0.41,15.06,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",6,6,"t",1,1.23,16.21,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",6,7,"t",1,1.23,16.18,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",5,7,"t",1,3.7,16.37,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",5,6,"t",1,3.7,16.12,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",4,6,"t",1,11.11,15.31,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",4,7,"t",1,11.11,18.64,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",3,6,"t",1,33.33,16.85,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",2,6,"t",1,100,15.41,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",3,7,"t",1,33.33,13.41,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128121","20130320.Plate.2",2,7,"t",1,100,19.12,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",7,8,"t",1,0.41,20.29,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",7,9,"t",1,0.41,15.63,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",6,9,"t",1,1.23,14.62,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",6,8,"t",1,1.23,18.54,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",5,8,"t",1,3.7,18.1,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",5,9,"t",1,3.7,14.81,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",4,8,"t",1,11.11,13.4,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",3,8,"t",1,33.33,13.93,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",4,9,"t",1,11.11,16.54,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",3,9,"t",1,33.33,14.74,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",2,8,"t",1,100,15.86,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128119","20130320.Plate.2",2,9,"t",1,100,12.48,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128116","20130321.Plate.8",7,9,"t",1,0.41,25.65,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",7,8,"t",1,0.41,26.23,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",6,8,"t",1,1.23,28.07,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",6,9,"t",1,1.23,26.97,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",5,8,"t",1,3.7,28.56,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",5,9,"t",1,3.7,28.78,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",4,8,"t",1,11.11,27.71,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",4,9,"t",1,11.11,23.87,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",3,8,"t",1,33.33,25.62,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",3,9,"t",1,33.33,28.43,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",2,8,"t",1,100,29.48,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128116","20130321.Plate.8",2,9,"t",1,100,29.45,"ToxCast_1 CR 20130321 Plate 8.csv","cort" +"BF00128112","20130320.Plate.11",7,6,"t",1,0.41,14.15,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",7,7,"t",1,0.41,15.57,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",6,6,"t",1,1.23,15.17,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",6,7,"t",1,1.23,17.26,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",5,6,"t",1,3.7,10.78,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",5,7,"t",1,3.7,10.07,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",4,6,"t",1,11.11,6.59,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",4,7,"t",1,11.11,6.2,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",3,6,"t",1,33.33,1.77,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",3,7,"t",1,33.33,1.45,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",2,6,"t",1,100,0.63,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128112","20130320.Plate.11",2,7,"t",1,100,0.68,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128109","20130320.Plate.13",7,8,"t",1,0.41,18.19,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",7,9,"t",1,0.41,18.22,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",6,8,"t",1,1.23,19.41,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",6,9,"t",1,1.23,16.24,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",5,8,"t",1,3.7,20.2,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",5,9,"t",1,3.7,18.97,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",4,8,"t",1,11.11,18.48,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",4,9,"t",1,11.11,18.85,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",3,8,"t",1,33.33,18.03,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",3,9,"t",1,33.33,15.24,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",2,8,"t",1,100,16.51,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128109","20130320.Plate.13",2,9,"t",1,100,17.87,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128108","26Mar2014.Plate.2",7,6,"t",1,0.041,10.49,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",7,7,"t",1,0.041,9.92,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",6,6,"t",1,0.123,10.26,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",6,7,"t",1,0.123,9.14,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",5,6,"t",1,0.37,9.49,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",5,7,"t",1,0.37,10.68,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",4,6,"t",1,1.111,8.89,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",4,7,"t",1,1.111,8.32,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",3,6,"t",1,3.333,9.78,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",3,7,"t",1,3.333,7.73,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",2,6,"t",1,10,5.52,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128108","26Mar2014.Plate.2",2,7,"t",1,10,4.08,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"BF00128105","20130320.Plate.13",7,6,"t",1,0.41,18.86,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",7,7,"t",1,0.41,18.5,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",6,6,"t",1,1.23,19.81,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",6,7,"t",1,1.23,19.89,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",5,7,"t",1,3.7,18.19,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",5,6,"t",1,3.7,16.77,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",4,6,"t",1,11.11,16.23,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",4,7,"t",1,11.11,18.06,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",3,6,"t",1,33.33,16.73,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",2,6,"t",1,100,13.61,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",3,7,"t",1,33.33,18.75,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128105","20130320.Plate.13",2,7,"t",1,100,11.04,"ToxCast_1 CR 20130320 Plate 13.csv","cort" +"BF00128102","20130321.Plate.2",7,4,"t",1,0.04,29.05,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",7,5,"t",1,0.04,29.2,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",6,4,"t",1,0.12,28.14,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",6,5,"t",1,0.12,27.06,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",5,4,"t",1,0.37,27.66,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",5,5,"t",1,0.37,26.61,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",4,5,"t",1,1.11,24.38,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",4,4,"t",1,1.11,28.38,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",3,4,"t",1,3.33,23.81,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",3,5,"t",1,3.33,24.29,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",2,4,"t",1,10,28.8,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128102","20130321.Plate.2",2,5,"t",1,10,30.22,"ToxCast_1 CR 20130321 Plate 2.csv","cort" +"BF00128101","20130321.Plate.1",7,6,"t",1,0.04,28.15,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",7,7,"t",1,0.04,27.22,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",6,6,"t",1,0.12,28.97,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",6,7,"t",1,0.12,32.11,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",5,6,"t",1,0.37,27.92,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",5,7,"t",1,0.37,26.94,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",4,6,"t",1,1.11,28.3,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",4,7,"t",1,1.11,29.6,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",3,6,"t",1,3.33,32.22,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",3,7,"t",1,3.33,30.87,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",2,6,"t",1,10,33.5,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128101","20130321.Plate.1",2,7,"t",1,10,30.28,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128099","20130320.Plate.14",7,8,"t",1,0.41,18.25,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",7,9,"t",1,0.41,15.4,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",6,8,"t",1,1.23,21.58,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",6,9,"t",1,1.23,16.66,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",5,8,"t",1,3.7,17.25,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",5,9,"t",1,3.7,16.62,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",4,8,"t",1,11.11,16.5,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",4,9,"t",1,11.11,14.62,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",3,8,"t",1,33.33,17.65,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",3,9,"t",1,33.33,15.9,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",2,8,"t",1,100,17.2,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128099","20130320.Plate.14",2,9,"t",1,100,16.43,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128097","20130321.Plate.7",7,7,"t",1,0.41,22.55,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",7,6,"t",1,0.41,22.26,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",6,6,"t",1,1.23,18.31,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",6,7,"t",1,1.23,20.4,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",5,6,"t",1,3.7,11.43,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",4,6,"t",1,11.11,8.15,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",5,7,"t",1,3.7,12.15,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",4,7,"t",1,11.11,8.77,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",3,6,"t",1,33.33,3.91,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",3,7,"t",1,33.33,3.91,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",2,7,"t",1,100,1.64,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128097","20130321.Plate.7",2,6,"t",1,100,1.59,"ToxCast_1 CR 20130321 Plate 7.csv","cort" +"BF00128096","20130320.Plate.5",7,4,"t",1,0.04,15.74,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",7,5,"t",1,0.04,13.83,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",6,5,"t",1,0.12,15.63,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",6,4,"t",1,0.12,14.84,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",5,4,"t",1,0.37,10.89,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",5,5,"t",1,0.37,11.02,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",4,4,"t",1,1.11,9.99,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",4,5,"t",1,1.11,9.86,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",3,4,"t",1,3.33,4.92,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",3,5,"t",1,3.33,4.46,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",2,4,"t",1,10,1.71,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128096","20130320.Plate.5",2,5,"t",1,10,1.67,"ToxCast_1 CR 20130320 Plate 5.csv","cort" +"BF00128092","20130320.Plate.3",7,6,"t",1,0.04,11.13,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",7,7,"t",1,0.04,13.75,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",6,6,"t",1,0.12,12.93,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",6,7,"t",1,0.12,14.24,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",5,6,"t",1,0.37,12.46,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",5,7,"t",1,0.37,15.37,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",4,6,"t",1,1.11,11.82,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",4,7,"t",1,1.11,11.66,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",3,6,"t",1,3.33,16.1,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",3,7,"t",1,3.33,14.58,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",2,6,"t",1,10,13.72,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128092","20130320.Plate.3",2,7,"t",1,10,15.61,"ToxCast_1 CR 20130320 Plate 3.csv","cort" +"BF00128091","20130320.Plate.4",7,4,"t",1,0.41,29.54,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",7,5,"t",1,0.41,17.26,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",6,4,"t",1,1.23,24.74,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",6,5,"t",1,1.23,18.69,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",5,4,"t",1,3.7,27.37,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",5,5,"t",1,3.7,17.98,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",4,4,"t",1,11.11,23.57,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",4,5,"t",1,11.11,19.06,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",3,4,"t",1,33.33,15.47,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",3,5,"t",1,33.33,14.73,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",2,4,"t",1,100,9.19,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128091","20130320.Plate.4",2,5,"t",1,100,7.66,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"BF00128090","20130321.Plate.1",7,8,"t",1,0.003,31.33,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",7,9,"t",1,0.003,27.91,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",6,8,"t",0,0.01,NA,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",6,9,"t",1,0.01,30.67,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",5,8,"t",1,0.04,27.23,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",5,9,"t",1,0.04,25.06,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",4,8,"t",1,0.11,24.43,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",3,8,"t",1,0.33,21.04,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",4,9,"t",1,0.11,26.92,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",3,9,"t",1,0.33,23.18,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",2,8,"t",1,1,14.07,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128090","20130321.Plate.1",2,9,"t",1,1,14.94,"ToxCast_1 CR 20130321 Plate 1.csv","cort" +"BF00128087","20130320.Plate.14",7,7,"t",1,0.003,18.35,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",7,6,"t",1,0.003,18.44,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",6,6,"t",1,0.01,19.7,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",6,7,"t",1,0.01,19.56,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",5,6,"t",1,0.04,15.56,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",4,6,"t",1,0.11,17.1,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",5,7,"t",1,0.04,17.34,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",4,7,"t",1,0.11,16.97,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",3,6,"t",1,0.33,16.69,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",3,7,"t",1,0.33,12.72,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",2,6,"t",1,1,18.88,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128087","20130320.Plate.14",2,7,"t",1,1,18.01,"ToxCast_1 CR 20130320 Plate 14.csv","cort" +"BF00128086","26Mar2014.Plate.4",7,8,"t",1,0.412,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",7,9,"t",1,0.412,10.36,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",6,8,"t",1,1.235,11.12,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",6,9,"t",1,1.235,8,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",5,8,"t",1,3.704,8.06,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",5,9,"t",1,3.704,9.02,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",4,8,"t",1,11.111,6.93,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",4,9,"t",1,11.111,7.2,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",3,8,"t",1,33.333,6.38,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",3,9,"t",1,33.333,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",2,9,"t",1,100,6.71,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128086","26Mar2014.Plate.4",2,8,"t",1,100,7,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",7,6,"t",1,0.412,9.85,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",7,7,"t",1,0.412,12.22,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",6,6,"t",1,1.235,9.77,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",5,6,"t",1,3.704,9.74,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",6,7,"t",1,1.235,9.59,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",5,7,"t",1,3.704,10.32,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",4,6,"t",1,11.111,10.11,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",4,7,"t",1,11.111,7.82,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",3,7,"t",1,33.333,7.3,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",3,6,"t",1,33.333,7.83,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",2,6,"t",1,100,3.94,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128083","26Mar2014.Plate.8",2,7,"t",1,100,3.24,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",7,10,"t",1,0.041,12.18,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",6,10,"t",1,0.123,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",7,11,"t",1,0.041,7.62,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",6,11,"t",1,0.123,9.5,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",5,10,"t",1,0.37,11.18,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",5,11,"t",1,0.37,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",4,11,"t",1,1.111,7.82,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",4,10,"t",1,1.111,10.92,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",3,10,"t",1,3.333,10.66,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",3,11,"t",1,3.333,11.01,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128081","26Mar2014.Plate.6",2,10,"t",1,10,13.4,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128073","20130320.Plate.2",7,10,"t",1,0.003,8.87,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128081","26Mar2014.Plate.6",2,11,"t",1,10,10.25,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"BF00128073","20130320.Plate.2",7,11,"t",1,0.003,12.98,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",6,10,"t",1,0.01,7.84,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",6,11,"t",1,0.01,9.5,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",5,10,"t",1,0.04,5.28,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",5,11,"t",1,0.04,7.22,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",4,10,"t",1,0.11,2.93,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",3,10,"t",1,0.33,1.3,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",4,11,"t",1,0.11,3.92,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",3,11,"t",1,0.33,1.76,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",2,10,"t",1,1,0.96,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128073","20130320.Plate.2",2,11,"t",1,1,0.91,"ToxCast_1 CR 20130320 Plate 2.csv","cort" +"BF00128072","20130320.Plate.11",7,11,"t",1,0.41,14.15,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",7,10,"t",1,0.41,15.38,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",6,10,"t",1,1.23,17.76,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",6,11,"t",1,1.23,14.53,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",5,10,"t",1,3.7,15.1,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",5,11,"t",1,3.7,15.35,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",4,10,"t",1,11.11,15.36,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",4,11,"t",1,11.11,15.19,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",3,10,"t",1,33.33,15.87,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",3,11,"t",1,33.33,14.95,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",2,10,"t",1,100,15.52,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"BF00128072","20130320.Plate.11",2,11,"t",1,100,14.98,"ToxCast_1 CR 20130320 Plate 11.csv","cort" +"PRO","03Sep2014.Plate.9",3,3,"m",1,NA,1.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.9",2,3,"m",1,NA,1.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.8",3,3,"m",1,NA,1.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.8",2,3,"m",1,NA,1.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.7",3,3,"m",1,NA,1.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.7",2,3,"m",1,NA,1.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.6",2,3,"m",1,NA,1.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.6",3,3,"m",1,NA,1.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.5",3,3,"m",1,NA,1.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.5",2,3,"m",1,NA,1.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.4",3,3,"m",1,NA,1.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.3",3,3,"m",1,NA,1.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.4",2,3,"m",1,NA,1.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.3",2,3,"m",1,NA,1.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.22",3,3,"m",1,NA,1.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.22",2,3,"m",1,NA,1.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.21",2,3,"m",1,NA,1.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.21",3,3,"m",1,NA,1.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.20",3,3,"m",1,NA,1.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.20",2,3,"m",1,NA,1.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.2",3,3,"m",1,NA,1.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.2",2,3,"m",1,NA,1.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.19",3,3,"m",1,NA,1.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.19",2,3,"m",1,NA,1.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.18",3,3,"m",1,NA,1.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.18",2,3,"m",1,NA,1.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.17",3,3,"m",1,NA,1.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.17",2,3,"m",1,NA,1.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.16",3,3,"m",1,NA,1.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.16",2,3,"m",1,NA,1.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.15",3,3,"m",1,NA,1.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.15",2,3,"m",1,NA,1.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.14",3,3,"m",1,NA,1.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.14",2,3,"m",1,NA,1.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.13",3,3,"m",1,NA,1.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.13",2,3,"m",1,NA,1.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.12",3,3,"m",1,NA,1.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.12",2,3,"m",1,NA,1.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.11",3,3,"m",1,NA,1.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.11",2,3,"m",1,NA,1.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.10",3,3,"m",1,NA,1.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.10",2,3,"m",1,NA,1.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.1",2,3,"m",1,NA,1.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"PRO","03Sep2014.Plate.1",3,3,"m",1,NA,1.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.9",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.9",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.8",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.8",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.7",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.7",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.6",3,3,"m",1,NA,0.54,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.6",2,3,"m",1,NA,0.62,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.5",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.4",3,3,"m",1,NA,0.51,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.5",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.4",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.3",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.3",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.21",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.21",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.20",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.20",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.2",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.2",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.19",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.19",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.18",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.18",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.17",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.17",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.16",3,3,"m",1,NA,0.54,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.16",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.15",3,3,"m",1,NA,0.61,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.15",2,3,"m",1,NA,0.6,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.14",3,3,"m",1,NA,0.6,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.14",2,3,"m",1,NA,0.79,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.13",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.13",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.12",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.12",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.11",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.11",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.10",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.10",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.1",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"PRO","26Mar2014.Plate.1",2,3,"m",1,NA,0.51,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.9",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.9",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.8",3,3,"m",1,NA,0.78,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.8",2,3,"m",1,NA,0.59,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.7",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.7",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.6",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.6",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.5",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.5",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.4",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.4",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.34",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.34",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.33",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.33",2,3,"m",1,NA,0.5,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.32",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.32",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.31",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.31",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.30",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.30",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.3",3,3,"m",1,NA,0.52,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.3",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.29",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.29",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.28",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.28",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.27",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.27",2,3,"m",1,NA,0.53,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.26",3,3,"m",1,NA,0.75,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.26",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.25",3,3,"m",1,NA,0.53,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.25",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.24",3,3,"m",1,NA,0.51,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.24",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.23",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.23",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.22",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.22",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.21",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.21",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.20",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.20",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.2",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.2",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.19",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.19",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.18",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.18",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.17",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.17",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.16",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.16",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.15",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.15",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.14",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.13",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.14",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.13",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.12",3,3,"m",1,NA,0.5,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.12",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.11",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.11",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.10",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.10",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.1",3,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"PRO","09Apr2014.Plate.1",2,3,"m",0,NA,NA,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.9",3,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.9",2,3,"m",1,NA,0.62,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.8",3,3,"m",1,NA,0.57,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.8",2,3,"m",1,NA,0.55,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.7",3,3,"m",1,NA,0.68,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.7",2,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.6",3,3,"m",1,NA,0.61,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.5",3,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.6",2,3,"m",1,NA,0.73,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.5",2,3,"m",1,NA,0.65,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.4",3,3,"m",1,NA,1.78,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.4",2,3,"m",1,NA,0.54,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.32",3,3,"m",1,NA,0.78,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.32",2,3,"m",1,NA,0.8,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.31",3,3,"m",1,NA,0.65,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.31",2,3,"m",1,NA,0.71,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.30",3,3,"m",1,NA,0.65,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.30",2,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.3",3,3,"m",1,NA,0.63,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.3",2,3,"m",1,NA,1.74,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.29",3,3,"m",1,NA,0.67,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.29",2,3,"m",1,NA,0.73,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.28",3,3,"m",1,NA,0.83,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.28",2,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.27",3,3,"m",1,NA,0.75,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.27",2,3,"m",1,NA,0.66,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.26",3,3,"m",1,NA,0.74,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.26",2,3,"m",1,NA,0.78,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.25",3,3,"m",1,NA,0.8,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.25",2,3,"m",1,NA,0.78,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.24",3,3,"m",1,NA,0.57,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.24",2,3,"m",1,NA,0.56,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.23",3,3,"m",1,NA,0.53,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.23",2,3,"m",1,NA,0.65,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.22",3,3,"m",1,NA,0.61,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.22",2,3,"m",1,NA,0.61,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.21",3,3,"m",1,NA,0.57,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.21",2,3,"m",1,NA,0.58,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.20",3,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.20",2,3,"m",1,NA,0.62,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"PRO","02Apr14.Plate.2",3,3,"m",1,NA,0.77,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"PRO","02Apr14.Plate.2",2,3,"m",1,NA,0.79,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.19",3,3,"m",1,NA,0.66,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.18",3,3,"m",1,NA,0.6,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.19",2,3,"m",1,NA,0.71,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.18",2,3,"m",1,NA,0.63,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.17",3,3,"m",1,NA,0.61,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.17",2,3,"m",1,NA,0.6,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.16",2,3,"m",1,NA,0.66,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.16",3,3,"m",1,NA,0.52,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.15",3,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.15",2,3,"m",1,NA,0.72,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.14",3,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.14",2,3,"m",1,NA,0.67,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.13",3,3,"m",1,NA,0.68,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.13",2,3,"m",1,NA,0.62,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.12",3,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.12",2,3,"m",1,NA,0.72,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.11",3,3,"m",1,NA,0.54,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.11",2,3,"m",1,NA,0.63,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.10",3,3,"m",1,NA,0.59,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.10",2,3,"m",1,NA,0.64,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.1",3,2,"m",1,NA,0.66,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"PRO","02Apr2014.Plate.1",2,2,"m",1,NA,0.52,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",7,4,"t",1,0.412,42.42,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",7,5,"t",1,0.412,36.6,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",6,4,"t",1,1.235,47.99,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",6,5,"t",1,1.235,42.27,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",5,4,"t",1,3.704,48.29,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",5,5,"t",1,3.704,43.39,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",4,4,"t",1,11.111,55.66,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",4,5,"t",1,11.111,46.93,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",3,4,"t",1,33.333,42.91,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",3,5,"t",1,33.333,33.53,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",2,4,"t",1,100,17.2,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141126A","02Apr2014.Plate.21",2,5,"t",1,100,12.97,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",7,8,"t",1,0.412,37.79,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",7,9,"t",1,0.412,40.6,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",6,8,"t",1,1.235,26.11,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",6,9,"t",1,1.235,25.56,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",5,8,"t",1,3.704,17.43,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",5,9,"t",1,3.704,19.66,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",4,8,"t",1,11.111,10.33,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",4,9,"t",1,11.111,9.88,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",3,8,"t",1,33.333,4.84,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",3,9,"t",1,33.333,4.66,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",2,8,"t",1,100,1.39,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141124A","02Apr2014.Plate.17",2,9,"t",1,100,1.3,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",7,10,"t",1,0.041,9.31,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",7,11,"t",1,0.041,5.71,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",6,10,"t",1,0.123,8.89,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",6,11,"t",1,0.123,7.91,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",5,10,"t",1,0.37,10.18,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",5,11,"t",1,0.37,8.86,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",4,10,"t",1,1.111,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",4,11,"t",1,1.111,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",3,10,"t",1,3.333,7.6,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",3,11,"t",1,3.333,7.9,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",2,10,"t",1,10,8.28,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21141106A","26Mar2014.Plate.20",2,11,"t",1,10,8.48,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",7,7,"t",1,0.206,14.33,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",7,6,"t",1,0.206,13.42,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",6,6,"t",1,0.617,13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",6,7,"t",1,0.617,12.91,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",5,6,"t",1,1.852,11.34,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",5,7,"t",1,1.852,12.59,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",4,6,"t",1,5.556,11.95,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",4,7,"t",1,5.556,11.1,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",3,6,"t",1,16.667,9.41,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",3,7,"t",1,16.667,9.53,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",2,6,"t",1,50,9.94,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"21140704A","09Apr2014.Plate.3",2,7,"t",1,50,9.71,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",7,6,"t",1,0.206,9.79,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",7,7,"t",1,0.206,9.56,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",6,6,"t",1,0.617,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",6,7,"t",1,0.617,7.97,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",5,6,"t",1,1.852,7.76,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",5,7,"t",1,1.852,8.02,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",4,6,"t",1,5.556,8.06,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",4,7,"t",1,5.556,6.85,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",3,6,"t",1,16.667,6.96,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",3,7,"t",1,16.667,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",2,6,"t",1,50,4.3,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141130A","26Mar2014.Plate.21",2,7,"t",1,50,4.27,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",7,6,"t",1,0.412,40.57,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",7,7,"t",1,0.412,37.33,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",6,6,"t",1,1.235,37.36,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",6,7,"t",1,1.235,28.2,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",5,6,"t",1,3.704,23.48,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",5,7,"t",1,3.704,18.45,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",4,6,"t",1,11.111,11.04,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",4,7,"t",1,11.111,9.22,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",3,6,"t",1,33.333,4.35,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",3,7,"t",1,33.333,4.03,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",2,6,"t",1,100,1.31,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141124A","02Apr2014.Plate.12",2,7,"t",1,100,1.57,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",7,4,"t",1,0.041,7.94,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",7,5,"t",1,0.041,6.77,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",6,4,"t",1,0.123,9.58,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",6,5,"t",1,0.123,8.35,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",5,4,"t",1,0.37,10.07,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",5,5,"t",1,0.37,8.78,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",4,4,"t",1,1.111,10.27,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",4,5,"t",1,1.111,8.91,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",3,4,"t",0,3.333,NA,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",3,5,"t",1,3.333,9.67,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",2,4,"t",1,10,7.98,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11141106A","26Mar2014.Plate.20",2,5,"t",1,10,7.89,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",7,9,"t",1,0.206,46.18,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",7,8,"t",1,0.206,45.48,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",6,8,"t",1,0.617,42.59,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",6,9,"t",1,0.617,45.57,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",5,9,"t",1,1.852,38.44,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",5,8,"t",1,1.852,40.05,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",4,8,"t",1,5.556,34.44,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",4,9,"t",1,5.556,40.39,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",3,8,"t",1,16.667,31.01,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",3,9,"t",1,16.667,30.39,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",2,8,"t",1,50,35.91,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"11140704A","02Apr2014.Plate.14",2,9,"t",1,50,33.47,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.9",5,3,"p",1,NA,170.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.9",4,3,"p",1,NA,218.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.8",5,3,"p",1,NA,193.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.8",4,3,"p",1,NA,201.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.7",5,3,"p",1,NA,195.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.7",4,3,"p",1,NA,190.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.6",5,3,"p",1,NA,190.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.5",5,3,"p",1,NA,192.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.6",4,3,"p",1,NA,201.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.5",4,3,"p",1,NA,203.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.4",5,3,"p",1,NA,199.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.4",4,3,"p",1,NA,226.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.3",4,3,"p",1,NA,203.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.3",5,3,"p",1,NA,195.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.22",5,3,"p",1,NA,195.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.22",4,3,"p",1,NA,183.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.21",5,3,"p",1,NA,188.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.21",4,3,"p",1,NA,189.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.20",5,3,"p",1,NA,194.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.20",4,3,"p",1,NA,186.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.2",5,3,"p",1,NA,180.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.2",4,3,"p",1,NA,188.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.19",5,3,"p",1,NA,206.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.19",4,3,"p",1,NA,189.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.18",5,3,"p",1,NA,161.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.18",4,3,"p",1,NA,179.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.17",5,3,"p",1,NA,171.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.17",4,3,"p",1,NA,172.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.16",5,3,"p",1,NA,198.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.16",4,3,"p",1,NA,202.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.15",5,3,"p",1,NA,183.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.15",4,3,"p",1,NA,190.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.14",5,3,"p",1,NA,171.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.14",4,3,"p",1,NA,175.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.13",5,3,"p",1,NA,198.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.13",4,3,"p",1,NA,191.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.12",5,3,"p",1,NA,178.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.12",4,3,"p",1,NA,203.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.11",5,3,"p",1,NA,184.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.11",4,3,"p",1,NA,180.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.10",5,3,"p",1,NA,204.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.10",4,3,"p",1,NA,183.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.1",5,3,"p",1,NA,207.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"FOR","03Sep2014.Plate.1",4,3,"p",1,NA,194.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.9",5,3,"p",1,NA,21.89,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.9",4,3,"p",1,NA,37.29,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.8",4,3,"p",1,NA,23.71,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.8",5,3,"p",1,NA,21.45,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.7",5,3,"p",1,NA,36.59,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.7",4,3,"p",1,NA,30.27,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.6",5,3,"p",1,NA,32.99,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.6",4,3,"p",1,NA,33.13,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.5",5,3,"p",1,NA,31.24,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.5",4,3,"p",1,NA,43.77,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.4",5,3,"p",1,NA,25.96,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.4",4,3,"p",1,NA,35.04,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.3",5,3,"p",1,NA,26.6,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.3",4,3,"p",1,NA,23.67,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.21",5,3,"p",1,NA,28.37,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.21",4,3,"p",1,NA,34.59,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.20",5,3,"p",1,NA,34.07,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.20",4,3,"p",1,NA,32.43,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.2",5,3,"p",1,NA,26.59,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.2",4,3,"p",1,NA,31.43,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.19",5,3,"p",1,NA,26.3,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.19",4,3,"p",1,NA,28.74,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.18",5,3,"p",1,NA,35.11,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.18",4,3,"p",1,NA,34.16,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.17",5,3,"p",1,NA,36.5,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.17",4,3,"p",1,NA,33.87,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.16",5,3,"p",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.16",4,3,"p",1,NA,38.05,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.15",5,3,"p",1,NA,31.53,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.15",4,3,"p",1,NA,42.45,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.14",5,3,"p",1,NA,37.27,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.14",4,3,"p",1,NA,36.82,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.13",5,3,"p",1,NA,37.64,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.13",4,3,"p",1,NA,42.2,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.12",5,3,"p",1,NA,32.16,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.12",4,3,"p",1,NA,29.36,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.11",5,3,"p",1,NA,21.85,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.11",4,3,"p",1,NA,36.46,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.10",5,3,"p",1,NA,36.14,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.10",4,3,"p",1,NA,32.6,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.1",5,3,"p",1,NA,32.91,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"FOR","26Mar2014.Plate.1",4,3,"p",1,NA,39.29,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.9",5,3,"p",1,NA,67.11,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.9",4,3,"p",1,NA,65.56,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.8",5,3,"p",1,NA,56.96,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.8",4,3,"p",1,NA,59.59,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.7",5,3,"p",1,NA,55.14,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.7",4,3,"p",1,NA,53.17,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.6",5,3,"p",1,NA,52.2,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.6",4,3,"p",1,NA,50.74,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.5",5,3,"p",1,NA,47.84,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.5",4,3,"p",1,NA,48.67,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.4",5,3,"p",1,NA,55.43,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.4",4,3,"p",1,NA,49.6,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.34",5,3,"p",1,NA,52.1,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.33",5,3,"p",1,NA,43.15,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.34",4,3,"p",1,NA,53.25,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.33",4,3,"p",1,NA,45.81,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.32",5,3,"p",1,NA,44.08,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.32",4,3,"p",1,NA,39.07,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.31",4,3,"p",1,NA,45.62,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.31",5,3,"p",1,NA,51.96,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.30",5,3,"p",1,NA,48.22,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.30",4,3,"p",1,NA,56.04,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.3",5,3,"p",1,NA,56.76,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.29",5,3,"p",1,NA,57.14,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.3",4,3,"p",1,NA,66.53,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.29",4,3,"p",1,NA,50.43,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.28",5,3,"p",1,NA,49.01,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.28",4,3,"p",1,NA,52.11,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.27",4,3,"p",1,NA,73.25,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.27",5,3,"p",1,NA,56.2,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.26",5,3,"p",1,NA,49.99,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.26",4,3,"p",1,NA,52.06,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.25",5,3,"p",1,NA,45.06,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.24",5,3,"p",1,NA,34.87,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.25",4,3,"p",1,NA,40.65,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.24",4,3,"p",1,NA,36.42,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.23",5,3,"p",1,NA,45.23,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.23",4,3,"p",1,NA,48.79,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.22",4,3,"p",1,NA,49.97,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.22",5,3,"p",1,NA,44.57,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.21",5,3,"p",1,NA,30.96,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.21",4,3,"p",1,NA,34.12,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.20",5,3,"p",1,NA,55.49,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.2",5,3,"p",1,NA,54.94,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.20",4,3,"p",1,NA,50.39,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.2",4,3,"p",1,NA,62.43,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.19",5,3,"p",1,NA,65.42,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.19",4,3,"p",1,NA,72.97,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.18",4,3,"p",1,NA,58.96,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.18",5,3,"p",1,NA,64.24,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.17",5,3,"p",1,NA,62.08,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.17",4,3,"p",1,NA,49.54,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.16",5,3,"p",1,NA,48.4,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.15",5,3,"p",1,NA,67,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.16",4,3,"p",1,NA,62.14,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.15",4,3,"p",1,NA,80.85,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.14",5,3,"p",1,NA,65.7,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.14",4,3,"p",1,NA,59.09,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.13",4,3,"p",1,NA,68.35,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.13",5,3,"p",1,NA,51.33,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.12",5,3,"p",1,NA,65.15,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.12",4,3,"p",1,NA,57.03,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.11",5,3,"p",1,NA,67.94,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.10",5,3,"p",1,NA,53.47,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.11",4,3,"p",1,NA,65.12,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.10",4,3,"p",1,NA,46.13,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.1",5,3,"p",1,NA,59.93,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"FOR","09Apr2014.Plate.1",4,3,"p",1,NA,56.17,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.9",4,3,"p",1,NA,134.59,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.9",5,3,"p",1,NA,135.21,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.8",5,3,"p",1,NA,142.39,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.8",4,3,"p",1,NA,151.82,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.7",5,3,"p",1,NA,142.35,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.7",4,3,"p",1,NA,165.51,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.6",5,3,"p",1,NA,133.67,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.6",4,3,"p",1,NA,140.24,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.5",4,3,"p",1,NA,144.19,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.5",5,3,"p",1,NA,136.68,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.4",5,3,"p",1,NA,161.1,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.4",4,3,"p",1,NA,127.99,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.32",5,3,"p",0,NA,NA,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.31",5,3,"p",1,NA,144.39,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.32",4,3,"p",1,NA,138.72,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.31",4,3,"p",1,NA,141.03,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.30",5,3,"p",1,NA,140.95,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.30",4,3,"p",1,NA,167.92,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.3",4,3,"p",1,NA,137.95,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.3",5,3,"p",1,NA,143.47,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.29",5,3,"p",1,NA,155.35,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.29",4,3,"p",1,NA,159.63,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.28",5,3,"p",1,NA,146.26,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.28",4,3,"p",1,NA,147.01,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.27",5,3,"p",1,NA,153.59,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.27",4,3,"p",1,NA,142.93,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.26",5,3,"p",1,NA,150.21,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.26",4,3,"p",1,NA,152.51,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.25",5,3,"p",1,NA,159.61,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.25",4,3,"p",1,NA,150.41,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.24",5,3,"p",1,NA,145.7,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.24",4,3,"p",1,NA,150.43,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.23",5,3,"p",1,NA,131.18,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.23",4,3,"p",1,NA,154.96,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.22",5,3,"p",1,NA,149.8,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.22",4,3,"p",1,NA,143.32,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.21",5,3,"p",1,NA,131.54,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.21",4,3,"p",1,NA,139.56,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.20",5,3,"p",1,NA,150.04,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.20",4,3,"p",1,NA,135.32,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"FOR","02Apr14.Plate.2",5,3,"p",1,NA,157.1,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"FOR","02Apr14.Plate.2",4,3,"p",1,NA,161.84,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.19",5,3,"p",1,NA,151.21,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.19",4,3,"p",1,NA,151.95,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.18",5,3,"p",0,NA,NA,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.18",4,3,"p",1,NA,126.15,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.17",5,3,"p",1,NA,149.12,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.17",4,3,"p",1,NA,151.5,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.16",5,3,"p",1,NA,154.62,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.15",5,3,"p",1,NA,168.36,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.16",4,3,"p",1,NA,163.09,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.15",4,3,"p",1,NA,152.75,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.14",5,3,"p",1,NA,161.44,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.14",4,3,"p",1,NA,167.32,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.13",4,3,"p",1,NA,180.24,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.13",5,3,"p",1,NA,155.39,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.12",5,3,"p",1,NA,143.59,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.12",4,3,"p",1,NA,165,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.11",5,3,"p",1,NA,138.16,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.11",4,3,"p",1,NA,132.15,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.10",4,3,"p",1,NA,147.51,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.10",5,3,"p",1,NA,132.61,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.1",5,2,"p",1,NA,142.24,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"FOR","02Apr2014.Plate.1",4,2,"p",1,NA,129.02,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",7,4,"t",1,0.082,15.77,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",7,5,"t",1,0.082,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",6,4,"t",1,0.247,12.72,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",6,5,"t",1,0.247,14.52,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",5,4,"t",1,0.741,14.59,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",5,5,"t",1,0.741,14.21,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",4,5,"t",1,2.222,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",4,4,"t",1,2.222,11.75,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",3,4,"t",1,6.667,9.3,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",3,5,"t",1,6.667,8.52,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",2,4,"t",1,20,4.47,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141240A","09Apr2014.Plate.7",2,5,"t",1,20,4.59,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",7,4,"t",1,0.412,41.17,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",7,5,"t",1,0.412,36.79,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",6,4,"t",1,1.236,42.94,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",6,5,"t",1,1.236,33.6,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",5,4,"t",1,3.707,41.12,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",5,5,"t",1,3.707,39.15,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",4,4,"t",1,11.122,49.49,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",4,5,"t",1,11.122,47.23,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",3,4,"t",1,33.367,42.32,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",3,5,"t",1,33.367,38.33,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",2,4,"t",1,100.1,32.4,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141228A","02Apr2014.Plate.23",2,5,"t",1,100.1,26.69,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",7,10,"t",1,0.411,46.38,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",7,11,"t",1,0.411,37.49,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",6,10,"t",1,1.233,42.49,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",6,11,"t",1,1.233,35.91,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",5,10,"t",1,3.7,38.74,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",5,11,"t",1,3.7,38.01,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",4,10,"t",1,11.1,39.6,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",4,11,"t",1,11.1,36.09,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",3,10,"t",1,33.3,29.78,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",2,10,"t",1,99.9,15.61,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",3,11,"t",1,33.3,30.73,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141210A","02Apr2014.Plate.17",2,11,"t",1,99.9,17.21,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",7,6,"t",0,0.411,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",7,7,"t",0,0.411,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",6,6,"t",1,1.233,26.61,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",6,7,"t",1,1.233,22.3,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",5,6,"t",1,3.7,16.93,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",5,7,"t",1,3.7,16.51,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",4,7,"t",1,11.1,6.9,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",4,6,"t",1,11.1,6.48,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",3,6,"t",1,33.3,4.51,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",3,7,"t",1,33.3,4.71,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",2,6,"t",1,99.9,3.83,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141208A","02Apr2014.Plate.26",2,7,"t",1,99.9,3.52,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",7,4,"t",1,0.412,13.43,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",7,5,"t",1,0.412,12.72,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",6,4,"t",1,1.235,11.78,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",6,5,"t",1,1.235,10.36,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",5,4,"t",1,3.704,6.86,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",5,5,"t",1,3.704,6.38,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",4,4,"t",1,11.111,2.56,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",4,5,"t",1,11.111,2.27,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",3,4,"t",1,33.333,1.23,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",3,5,"t",1,33.333,1.26,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",2,4,"t",1,100,0.57,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",7,6,"t",1,0.206,35.61,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141206A","09Apr2014.Plate.6",2,5,"t",1,100,0.6,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",7,7,"t",1,0.206,39.96,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",6,6,"t",1,0.617,46.34,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",6,7,"t",1,0.617,45.4,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",5,7,"t",1,1.852,44.28,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",5,6,"t",1,1.852,48.21,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",4,6,"t",1,5.556,60.44,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",4,7,"t",1,5.556,52.78,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",3,6,"t",1,16.667,75.35,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",2,6,"t",1,50,74.11,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",3,7,"t",1,16.667,67.23,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141196A","02Apr2014.Plate.19",2,7,"t",1,50,71.09,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",7,10,"t",1,0.206,29.52,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",7,11,"t",1,0.206,19.75,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",6,10,"t",1,0.617,15.36,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",6,11,"t",1,0.617,15.06,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",5,10,"t",1,1.852,26.64,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",5,11,"t",1,1.852,24.38,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",4,10,"t",1,5.556,36.84,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",4,11,"t",1,5.556,36.39,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",3,10,"t",1,16.667,45.86,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",3,11,"t",1,16.667,47.38,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",2,10,"t",1,50,46.16,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141194A","26Mar2014.Plate.10",2,11,"t",1,50,40.63,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",7,8,"t",1,0.206,15.85,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",7,9,"t",1,0.206,13.84,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",6,8,"t",1,0.617,17.44,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",6,9,"t",1,0.617,16.2,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",5,8,"t",1,1.852,24.87,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",5,9,"t",1,1.852,21.35,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",4,8,"t",1,5.556,20.54,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",4,9,"t",1,5.556,18.22,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",3,8,"t",1,16.667,18.51,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",2,8,"t",1,50,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",3,9,"t",1,16.667,18.09,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141190A","09Apr2014.Plate.7",2,9,"t",1,50,12.3,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",7,8,"t",1,0.412,41.69,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",7,9,"t",1,0.412,35.02,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",6,8,"t",1,1.236,30.64,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",6,9,"t",1,1.236,32.62,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",5,8,"t",1,3.707,34.83,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",5,9,"t",1,3.707,34.43,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",4,8,"t",1,11.122,34.61,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",4,9,"t",1,11.122,23.91,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",3,8,"t",1,33.367,18.29,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",3,9,"t",1,33.367,13.77,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",2,8,"t",1,100.1,3.43,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141184A","02Apr2014.Plate.24",2,9,"t",1,100.1,3.4,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",7,4,"t",1,0.412,17.27,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",7,5,"t",1,0.412,15.38,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",6,4,"t",1,1.235,17.56,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",6,5,"t",1,1.235,18.7,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",5,4,"t",1,3.704,17.37,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",5,5,"t",1,3.704,16.32,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",4,4,"t",1,11.111,23.75,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",4,5,"t",1,11.111,22.17,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",3,4,"t",1,33.333,26.74,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",3,5,"t",1,33.333,24.52,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",2,4,"t",1,100,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141180A","09Apr2014.Plate.10",2,5,"t",1,100,15.61,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",7,4,"t",1,0.411,11.03,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",7,5,"t",1,0.411,11.62,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",6,4,"t",1,1.233,10.9,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",6,5,"t",1,1.233,9.51,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",5,4,"t",1,3.7,9.47,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",5,5,"t",1,3.7,8.5,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",4,4,"t",1,11.1,6.34,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",4,5,"t",1,11.1,5.95,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",3,4,"t",1,33.3,5.66,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",3,5,"t",1,33.3,4.19,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",2,4,"t",1,99.9,3.71,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141178A","26Mar2014.Plate.19",2,5,"t",1,99.9,3.22,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",7,10,"t",1,0.041,17.12,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",6,10,"t",1,0.123,40.46,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",7,11,"t",1,0.041,37.27,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",6,11,"t",1,0.123,39.25,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",5,10,"t",1,0.37,36.7,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",5,11,"t",1,0.37,40.18,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",4,10,"t",1,1.111,43.65,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",4,11,"t",1,1.111,39.61,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",3,10,"t",1,3.333,30.67,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",3,11,"t",1,3.333,29.67,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",2,10,"t",1,10,21.03,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141172A","02Apr2014.Plate.18",2,11,"t",1,10,22.4,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",7,10,"t",1,0.412,14.43,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",7,11,"t",1,0.412,15.26,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",6,11,"t",1,1.235,12.07,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",6,10,"t",1,1.235,11.95,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",5,10,"t",1,3.704,16.93,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",5,11,"t",1,3.704,14.28,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",4,10,"t",1,11.111,14.42,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",4,11,"t",1,11.111,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",3,10,"t",1,33.333,14.23,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",3,11,"t",1,33.333,13.94,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",2,10,"t",1,100,13.61,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141170A","09Apr2014.Plate.1",2,11,"t",1,100,12.16,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",7,6,"t",1,0.412,48.85,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",7,7,"t",1,0.412,53.6,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",6,6,"t",1,1.235,54.51,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",6,7,"t",1,1.235,53.6,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",5,6,"t",1,3.704,49.31,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",5,7,"t",1,3.704,49.65,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",4,6,"t",1,11.111,48.86,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",4,7,"t",1,11.111,41.82,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",3,6,"t",1,33.333,45.49,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",3,7,"t",1,33.333,45.78,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",2,6,"t",1,100,32.52,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141168A","02Apr2014.Plate.28",2,7,"t",1,100,37.26,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",7,10,"t",1,0.411,13.94,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",7,11,"t",1,0.411,14.13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",6,10,"t",1,1.233,14.82,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",6,11,"t",1,1.233,16.38,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",5,10,"t",1,3.7,16.75,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",5,11,"t",1,3.7,16.88,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",4,10,"t",1,11.1,16.48,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",4,11,"t",1,11.1,20.25,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",3,10,"t",1,33.3,19.45,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",3,11,"t",1,33.3,26.63,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",2,10,"t",1,99.9,10.61,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141154A","09Apr2014.Plate.3",2,11,"t",1,99.9,15.44,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",7,8,"t",1,0.412,41.07,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",7,9,"t",1,0.412,33.37,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",6,8,"t",1,1.236,39.72,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",6,9,"t",1,1.236,42.43,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",5,8,"t",1,3.707,45.93,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",5,9,"t",1,3.707,36.83,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",4,8,"t",1,11.122,60.91,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",4,9,"t",1,11.122,43.3,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",3,8,"t",1,33.367,53.94,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",3,9,"t",1,33.367,43.04,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",2,8,"t",1,100.1,9.76,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141146A","02Apr2014.Plate.3",2,9,"t",1,100.1,8.13,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",7,8,"t",1,0.411,17.21,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",7,9,"t",1,0.411,14.45,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",6,8,"t",1,1.233,13.6,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",6,9,"t",1,1.233,10.59,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",5,8,"t",1,3.7,11.85,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",5,9,"t",1,3.7,8.28,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",4,9,"t",1,11.1,5.51,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",4,8,"t",1,11.1,5.47,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",3,8,"t",1,33.3,1.53,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",3,9,"t",1,33.3,1.58,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",2,8,"t",1,99.9,0.69,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141144A","09Apr2014.Plate.8",2,9,"t",0,99.9,NA,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",7,4,"t",1,0.412,10.03,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",7,5,"t",1,0.412,8.68,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",6,4,"t",1,1.236,5.75,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",6,5,"t",1,1.236,9.62,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",5,4,"t",1,3.707,5.84,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",5,5,"t",1,3.707,4.53,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",4,4,"t",1,11.122,3.48,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",4,5,"t",1,11.122,3.87,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",3,4,"t",1,33.367,2.73,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",3,5,"t",1,33.367,3.27,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",2,4,"t",1,100.1,8.4,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141142A","26Mar2014.Plate.14",2,5,"t",1,100.1,7.95,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",7,4,"t",1,0.004,53.93,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",7,5,"t",1,0.004,43.93,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",6,4,"t",1,0.012,60.61,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",6,5,"t",1,0.012,47.46,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",5,4,"t",1,0.037,51.68,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",5,5,"t",1,0.037,50.77,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",4,4,"t",1,0.111,53.22,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",4,5,"t",1,0.111,55.37,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",3,4,"t",1,0.333,44.29,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",3,5,"t",1,0.333,42.33,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",2,4,"t",1,0.999,35.86,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141140A","02Apr2014.Plate.16",2,5,"t",1,0.999,34.29,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",7,6,"t",1,0.004,48.4,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",7,7,"t",1,0.004,40.22,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",6,6,"t",1,0.012,40.76,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",6,7,"t",1,0.012,40.23,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",5,6,"t",1,0.037,46.01,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",5,7,"t",1,0.037,36.55,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",4,6,"t",1,0.111,45.29,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",4,7,"t",1,0.111,43.53,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",3,6,"t",1,0.333,43.19,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",3,7,"t",1,0.333,37.13,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",2,6,"t",1,1,44.34,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141132A","02Apr2014.Plate.3",2,7,"t",1,1,42.75,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",7,4,"t",1,0.412,45.59,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",7,5,"t",1,0.412,42.29,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",6,4,"t",1,1.235,40.94,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",6,5,"t",1,1.235,42,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",5,4,"t",1,3.704,43.42,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",5,5,"t",1,3.704,46.12,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",4,5,"t",1,11.111,36.67,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",4,4,"t",1,11.111,43.43,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",3,4,"t",1,33.333,34.11,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",3,5,"t",1,33.333,33.09,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",2,5,"t",1,100,20.58,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141128A","02Apr2014.Plate.25",2,4,"t",1,100,19.35,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",7,6,"t",1,0.412,12.15,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",7,7,"t",1,0.412,11.62,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",6,6,"t",1,1.235,9.44,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",6,7,"t",1,1.235,7.81,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",5,6,"t",1,3.704,4.21,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",5,7,"t",1,3.704,6.38,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",4,6,"t",1,11.111,2.61,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",4,7,"t",1,11.111,3.06,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",3,6,"t",1,33.333,1.19,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",3,7,"t",1,33.333,1.28,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",2,6,"t",1,100,0.59,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141124A","26Mar2014.Plate.15",2,7,"t",1,100,0.65,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",7,10,"t",1,0.411,7.06,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",7,11,"t",1,0.411,8.54,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",6,10,"t",1,1.233,8.35,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",6,11,"t",1,1.233,8.18,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",5,10,"t",1,3.7,9.64,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",5,11,"t",1,3.7,8.75,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",4,10,"t",1,11.1,8.81,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",4,11,"t",1,11.1,6.8,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",3,10,"t",1,33.3,11.02,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",3,11,"t",1,33.3,7.31,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",2,10,"t",1,99.9,6.98,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141102A","26Mar2014.Plate.21",2,11,"t",1,99.9,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",7,4,"t",1,0.411,44.57,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",7,5,"t",1,0.411,50.76,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",6,4,"t",1,1.233,47.16,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",6,5,"t",1,1.233,48.54,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",5,4,"t",1,3.7,44.91,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",5,5,"t",1,3.7,39.68,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",4,4,"t",1,11.1,48.61,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",4,5,"t",1,11.1,42.45,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",3,4,"t",1,33.3,45.66,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",3,5,"t",1,33.3,44.67,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",2,4,"t",1,99.9,42.01,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141100A","02Apr2014.Plate.31",2,5,"t",1,99.9,40.45,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",7,4,"t",1,0.412,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",7,5,"t",1,0.412,12.16,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",6,4,"t",1,1.236,14.49,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",6,5,"t",1,1.236,15.64,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",5,4,"t",1,3.707,12.45,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",5,5,"t",1,3.707,11.85,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",4,4,"t",1,11.122,11.33,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",4,5,"t",1,11.122,9.51,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",3,4,"t",1,33.367,12.04,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",3,5,"t",1,33.367,11.34,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",2,5,"t",1,100.1,19.96,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141098A","09Apr2014.Plate.4",2,4,"t",1,100.1,22.74,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",7,6,"t",1,0.412,12.02,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",7,7,"t",1,0.412,8.89,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",6,7,"t",1,1.236,7.97,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",6,6,"t",1,1.236,8.66,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",5,6,"t",1,3.707,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",5,7,"t",1,3.707,10.42,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",4,6,"t",1,11.122,9.72,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",4,7,"t",1,11.122,9.7,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",3,6,"t",1,33.367,8.4,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",3,7,"t",1,33.367,9.34,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",2,6,"t",1,100.1,7.02,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141092A","26Mar2014.Plate.14",2,7,"t",1,100.1,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",7,4,"t",1,0.412,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",7,5,"t",1,0.412,10.42,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",6,4,"t",1,1.236,10.06,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",6,5,"t",1,1.236,10.26,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",5,4,"t",1,3.707,10.7,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",5,5,"t",1,3.707,8.39,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",4,4,"t",1,11.122,9.79,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",4,5,"t",1,11.122,9.52,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",3,4,"t",1,33.367,9.37,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",3,5,"t",1,33.367,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",2,4,"t",1,100.1,2.72,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141088A","26Mar2014.Plate.10",2,5,"t",1,100.1,2.79,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",7,8,"t",1,0.412,54.49,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",7,9,"t",1,0.412,40.02,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",6,8,"t",1,1.236,54.03,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",6,9,"t",1,1.236,48.82,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",5,8,"t",1,3.707,55.54,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",5,9,"t",1,3.707,49.04,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",4,8,"t",1,11.122,68.7,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",4,9,"t",1,11.122,68.47,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",3,8,"t",1,33.367,68.71,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",3,9,"t",1,33.367,63.71,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",2,8,"t",1,100.1,47.02,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141084A","02Apr2014.Plate.13",2,9,"t",1,100.1,43.8,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",7,10,"t",1,0.206,32.25,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",7,11,"t",1,0.206,34.36,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",6,10,"t",1,0.617,37,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",6,11,"t",1,0.617,37.88,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",5,10,"t",1,1.852,34.77,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",5,11,"t",1,1.852,33.7,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",4,10,"t",1,5.556,32.31,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",4,11,"t",1,5.556,30.5,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",3,10,"t",1,16.667,29.75,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",3,11,"t",1,16.667,30.08,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",2,10,"t",1,50,31.29,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141074A","02Apr2014.Plate.22",2,11,"t",1,50,25.17,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",7,6,"t",1,0.412,48.97,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",7,7,"t",1,0.412,45.07,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",6,6,"t",1,1.235,47.65,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",6,7,"t",1,1.235,39.7,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",5,6,"t",1,3.704,41.53,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",5,7,"t",1,3.704,36.92,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",4,6,"t",1,11.111,38.7,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",3,6,"t",1,33.333,32.83,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",4,7,"t",1,11.111,40.07,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",3,7,"t",1,33.333,40.74,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",2,6,"t",1,100,27.35,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141072A","02Apr2014.Plate.11",2,7,"t",1,100,19.73,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",7,5,"t",1,0.041,46.77,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",7,4,"t",1,0.041,41.04,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",6,4,"t",1,0.124,42.87,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",6,5,"t",1,0.124,36.55,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",5,4,"t",1,0.371,42.25,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",5,5,"t",1,0.371,40.58,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",4,4,"t",1,1.112,49.5,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",4,5,"t",1,1.112,41.54,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",3,4,"t",1,3.337,37.41,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",3,5,"t",1,3.337,36.26,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",2,4,"t",1,10.01,13.52,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141068A","02Apr14.Plate.2",2,5,"t",1,10.01,14.59,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",7,8,"t",1,0.411,47.83,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",7,9,"t",1,0.411,46.16,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",6,8,"t",1,1.233,48.19,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",6,9,"t",1,1.233,48.6,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",5,8,"t",1,3.7,47.5,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",5,9,"t",1,3.7,48.54,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",4,8,"t",1,11.1,57.07,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",4,9,"t",1,11.1,52.63,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",3,8,"t",1,33.3,50.01,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",3,9,"t",1,33.3,43.35,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",2,8,"t",1,99.9,30.06,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141066A","02Apr2014.Plate.32",2,9,"t",1,99.9,27.29,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",7,10,"t",1,0.004,13.34,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",7,11,"t",1,0.004,10.56,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",6,10,"t",1,0.012,14.13,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",6,11,"t",1,0.012,11.4,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",5,10,"t",1,0.037,11.56,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",5,11,"t",1,0.037,8.73,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",4,10,"t",1,0.111,9.15,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",4,11,"t",1,0.111,9.05,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",3,10,"t",1,0.333,9.56,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",3,11,"t",1,0.333,10.32,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",2,10,"t",1,0.999,10.11,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141050A","09Apr2014.Plate.4",2,11,"t",1,0.999,10.05,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",7,10,"t",1,0.041,27.87,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",7,11,"t",1,0.041,33.09,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",6,10,"t",1,0.124,32.45,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",6,11,"t",1,0.124,32.96,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",5,10,"t",1,0.371,29.87,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",4,10,"t",1,1.112,31.89,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",5,11,"t",1,0.371,30.26,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",4,11,"t",1,1.112,31.09,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",3,10,"t",1,3.337,35.83,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",2,10,"t",1,10.01,32.48,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",3,11,"t",1,3.337,31.77,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141046A","02Apr2014.Plate.31",2,11,"t",1,10.01,28.81,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",7,4,"t",1,0.411,49.69,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",7,5,"t",1,0.411,47.8,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",6,5,"t",1,1.233,44.27,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",6,4,"t",1,1.233,51.6,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",5,4,"t",1,3.7,36.84,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",5,5,"t",1,3.7,49.96,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",4,4,"t",1,11.1,44.1,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",4,5,"t",1,11.1,51.28,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",3,4,"t",1,33.3,26.35,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",3,5,"t",1,33.3,29.19,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",2,4,"t",1,99.9,10,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141038A","02Apr2014.Plate.20",2,5,"t",1,99.9,9.85,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",7,4,"t",1,0.041,52.99,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",7,5,"t",1,0.041,45.25,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",6,4,"t",1,0.123,42.88,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",6,5,"t",1,0.123,43.55,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",5,4,"t",1,0.37,39.38,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",5,5,"t",1,0.37,34.91,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",4,4,"t",1,1.11,29.61,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",4,5,"t",1,1.11,31.8,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",3,4,"t",1,3.33,23.03,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",3,5,"t",1,3.33,22.91,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",2,4,"t",1,9.99,13.07,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141034A","02Apr2014.Plate.17",2,5,"t",1,9.99,13.71,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",7,4,"t",1,0.411,51.5,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",7,5,"t",1,0.411,49.67,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",6,4,"t",1,1.233,40.04,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",6,5,"t",1,1.233,42.75,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",5,4,"t",1,3.7,36.37,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",5,5,"t",1,3.7,36.71,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",4,4,"t",1,11.1,30.69,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",4,5,"t",1,11.1,31.63,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",3,4,"t",1,33.3,18.55,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",3,5,"t",1,33.3,17.17,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",2,4,"t",1,99.9,10.87,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141010A","02Apr2014.Plate.14",2,5,"t",1,99.9,9.53,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",7,8,"t",1,0.412,11.05,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",7,9,"t",1,0.412,11.82,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",6,8,"t",1,1.236,11.28,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",6,9,"t",1,1.236,10.23,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",5,8,"t",1,3.707,15.27,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",5,9,"t",1,3.707,11.13,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",4,8,"t",1,11.122,12.65,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",4,9,"t",1,11.122,11.11,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",3,8,"t",1,33.367,12.35,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",3,9,"t",1,33.367,10.8,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",2,8,"t",1,100.1,16.98,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01141008A","26Mar2014.Plate.19",2,9,"t",1,100.1,15.12,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",7,6,"t",1,0.041,31.81,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",7,7,"t",1,0.041,33.98,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",6,6,"t",1,0.124,32.17,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",6,7,"t",1,0.124,27.41,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",5,6,"t",1,0.371,27.27,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",5,7,"t",1,0.371,25.89,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",4,6,"t",1,1.112,27.8,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",4,7,"t",1,1.112,23.95,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",3,6,"t",1,3.337,25.34,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",3,7,"t",1,3.337,23.85,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",2,6,"t",1,10.01,23.08,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140996A","02Apr2014.Plate.21",2,7,"t",1,10.01,19.08,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",7,6,"t",1,0.412,17.51,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",6,6,"t",1,1.236,12.04,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",7,7,"t",1,0.412,14.38,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",6,7,"t",1,1.236,12.24,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",5,6,"t",1,3.707,14.05,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",5,7,"t",1,3.707,13.74,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",4,6,"t",1,11.122,11.96,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",4,7,"t",1,11.122,11.18,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",3,6,"t",1,33.367,14.46,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",3,7,"t",1,33.367,11.49,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",2,6,"t",1,100.1,10.64,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140990A","09Apr2014.Plate.1",2,7,"t",1,100.1,8.82,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",7,6,"t",1,0.412,5.82,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",7,7,"t",1,0.412,5.17,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",6,6,"t",1,1.235,3.8,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",6,7,"t",1,1.235,3.09,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",5,6,"t",1,3.704,1.48,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",5,7,"t",1,3.704,1.54,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",4,6,"t",1,11.111,0.88,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",4,7,"t",1,11.111,0.67,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",3,6,"t",1,33.333,0.54,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",3,7,"t",1,33.333,0.54,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",2,6,"t",0,100,NA,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140986A","26Mar2014.Plate.17",2,7,"t",0,100,NA,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",7,8,"t",1,0.412,43.67,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",7,9,"t",1,0.412,29.6,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",6,8,"t",1,1.235,40.69,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",6,9,"t",1,1.235,28.47,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",5,9,"t",1,3.704,25.79,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",5,8,"t",1,3.704,35.82,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",4,8,"t",1,11.111,7.34,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",4,9,"t",1,11.111,6.09,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",3,8,"t",1,33.333,3.2,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",2,8,"t",1,100,1.39,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",3,9,"t",1,33.333,2.94,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140982A","02Apr2014.Plate.19",2,9,"t",1,100,1.49,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",7,4,"t",1,0.041,17.3,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",6,4,"t",1,0.124,17.48,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",7,5,"t",1,0.041,18.05,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",6,5,"t",1,0.124,15.56,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",5,4,"t",1,0.371,17.43,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",5,5,"t",1,0.371,16.92,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",4,4,"t",1,1.112,18.25,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",4,5,"t",1,1.112,15.55,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",3,4,"t",1,3.337,24.06,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",3,5,"t",1,3.337,17.44,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",2,4,"t",1,10.01,23.25,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140978A","09Apr2014.Plate.8",2,5,"t",1,10.01,16.48,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",7,10,"t",1,0.412,45.82,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",7,11,"t",1,0.412,38.82,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",6,10,"t",1,1.236,45.98,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",6,11,"t",1,1.236,45.59,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",5,10,"t",1,3.707,44.82,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",5,11,"t",1,3.707,43.34,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",4,10,"t",1,11.122,46.08,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",4,11,"t",1,11.122,41.68,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",3,10,"t",1,33.367,45.98,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",3,11,"t",1,33.367,41.27,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",2,10,"t",1,100.1,43.93,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140972A","02Apr2014.Plate.16",2,11,"t",1,100.1,39.94,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",7,4,"t",1,0.412,35.53,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",7,5,"t",1,0.412,39.99,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",6,4,"t",1,1.236,40.14,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",6,5,"t",1,1.236,40.38,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",5,4,"t",1,3.707,36.17,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",5,5,"t",1,3.707,42.35,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",4,4,"t",1,11.122,40.33,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",4,5,"t",1,11.122,41.36,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",3,4,"t",1,33.367,41.61,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",3,5,"t",1,33.367,41.8,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",2,4,"t",1,100.1,41.16,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140966A","02Apr2014.Plate.7",2,5,"t",1,100.1,39.43,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",7,6,"t",1,0.082,12.97,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",7,7,"t",1,0.082,12.35,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",6,6,"t",1,0.247,13.16,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",6,7,"t",1,0.247,13.15,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",5,6,"t",1,0.741,10.57,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",5,7,"t",1,0.741,12.8,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",4,6,"t",1,2.222,12.31,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",4,7,"t",1,2.222,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",3,6,"t",1,6.667,14.63,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",3,7,"t",1,6.667,11.66,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",2,6,"t",1,20,10.98,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140956A","09Apr2014.Plate.8",2,7,"t",1,20,8.42,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",7,10,"t",1,0.412,13.22,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",7,11,"t",1,0.412,14.93,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",6,10,"t",1,1.236,10.88,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",6,11,"t",1,1.236,10.42,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",5,10,"t",1,3.707,12.59,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",5,11,"t",1,3.707,14.29,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",4,10,"t",1,11.122,13.69,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",4,11,"t",1,11.122,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",3,10,"t",1,33.367,19.9,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",3,11,"t",1,33.367,18.19,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",2,10,"t",1,100.1,4.83,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140950A","09Apr2014.Plate.7",2,11,"t",1,100.1,4.64,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",7,8,"t",1,0.412,42.29,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",7,9,"t",1,0.412,50.41,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",6,8,"t",1,1.235,34.06,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",6,9,"t",1,1.235,38.33,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",5,8,"t",1,3.704,51.29,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",5,9,"t",1,3.704,52.66,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",4,8,"t",1,11.111,57.31,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",4,9,"t",1,11.111,72.07,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",3,8,"t",1,33.333,34.68,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",3,9,"t",1,33.333,35.36,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",2,8,"t",1,100,27.78,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140948A","02Apr2014.Plate.9",2,9,"t",1,100,23,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",7,4,"t",1,0.412,36.49,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",7,5,"t",1,0.412,39.49,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",6,4,"t",1,1.235,43.2,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",6,5,"t",1,1.235,42.19,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",5,4,"t",1,3.704,43.15,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",5,5,"t",1,3.704,49.89,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",4,4,"t",1,11.111,47.2,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",4,5,"t",1,11.111,49.56,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",3,4,"t",1,33.333,55.83,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",3,5,"t",1,33.333,50.88,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",2,4,"t",1,100,48.05,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140944A","02Apr2014.Plate.4",2,5,"t",1,100,43.89,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",7,8,"t",1,0.412,13.15,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",7,9,"t",1,0.412,11.35,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",6,8,"t",1,1.235,10.71,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",6,9,"t",1,1.235,9.45,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",5,8,"t",1,3.704,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",5,9,"t",1,3.704,7.07,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",4,8,"t",1,11.111,10.34,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",4,9,"t",1,11.111,10.08,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",3,8,"t",1,33.333,10.99,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",3,9,"t",1,33.333,10.56,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",2,8,"t",1,100,8.64,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140942A","26Mar2014.Plate.15",2,9,"t",1,100,9.04,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",7,10,"t",1,0.412,45.61,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",7,11,"t",1,0.412,49.28,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",6,10,"t",1,1.236,40.49,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",6,11,"t",1,1.236,42.12,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",5,10,"t",1,3.707,38.69,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",5,11,"t",1,3.707,43.95,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",4,10,"t",1,11.122,79.41,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",4,11,"t",1,11.122,52.28,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",3,10,"t",1,33.367,45.76,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",3,11,"t",1,33.367,42.42,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",2,10,"t",1,100.1,35.81,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140924A","02Apr2014.Plate.14",2,11,"t",1,100.1,28.25,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",7,8,"t",0,0.041,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",7,9,"t",0,0.041,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",6,8,"t",1,0.123,49.54,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",6,9,"t",1,0.123,47.36,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",5,8,"t",1,0.37,46.86,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",5,9,"t",1,0.37,45.89,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",4,8,"t",1,1.11,45.78,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",4,9,"t",1,1.11,43.66,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",3,8,"t",1,3.33,43.15,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",3,9,"t",1,3.33,39.15,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",2,8,"t",1,9.99,29.86,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140922A","02Apr2014.Plate.26",2,9,"t",1,9.99,28.87,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",7,10,"t",1,0.412,7.23,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",7,11,"t",1,0.412,7.21,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",6,10,"t",1,1.236,6.62,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",6,11,"t",1,1.236,6.38,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",5,10,"t",1,3.707,7.46,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",5,11,"t",1,3.707,5.52,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",4,10,"t",1,11.122,10.58,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",4,11,"t",1,11.122,9.88,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",3,10,"t",1,33.367,11.36,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",3,11,"t",1,33.367,10.53,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",2,10,"t",1,100.1,9.91,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140914A","26Mar2014.Plate.9",2,11,"t",1,100.1,7.39,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",7,8,"t",1,0.411,52.92,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",7,9,"t",1,0.411,50.6,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",6,8,"t",1,1.233,43.9,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",6,9,"t",1,1.233,56.35,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",5,8,"t",1,3.7,38.31,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",5,9,"t",1,3.7,37.08,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",4,8,"t",1,11.1,24.27,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",4,9,"t",1,11.1,16.9,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",3,8,"t",1,33.3,7.67,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",3,9,"t",1,33.3,8.42,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",2,8,"t",1,99.9,2.13,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140906A","02Apr2014.Plate.11",2,9,"t",1,99.9,2.89,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",7,6,"t",1,0.021,7.62,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",7,7,"t",1,0.021,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",6,6,"t",1,0.062,8.18,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",6,7,"t",1,0.062,6.55,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",5,6,"t",1,0.185,10.11,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",5,7,"t",1,0.185,7.62,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",4,6,"t",1,0.556,9.13,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",4,7,"t",1,0.556,9.7,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",3,6,"t",1,1.667,12.11,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",3,7,"t",1,1.667,11.78,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",2,6,"t",1,5,11.59,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140880A","26Mar2014.Plate.9",2,7,"t",1,5,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",7,10,"t",1,0.412,9.12,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",7,11,"t",1,0.412,8.87,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",6,10,"t",1,1.235,8.05,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",6,11,"t",1,1.235,7.23,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",5,11,"t",1,3.704,6.88,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",5,10,"t",1,3.704,10.4,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",4,10,"t",1,11.111,9.03,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",3,10,"t",1,33.333,9.44,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",4,11,"t",1,11.111,9.27,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",3,11,"t",1,33.333,9.98,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",2,11,"t",1,100,8.13,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140872A","26Mar2014.Plate.11",2,10,"t",1,100,7.64,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",7,10,"t",1,0.206,14.06,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",6,10,"t",1,0.617,11.38,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",7,11,"t",1,0.206,11.93,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",6,11,"t",1,0.617,10.3,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",5,11,"t",1,1.852,8.42,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",5,10,"t",1,1.852,8.46,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",4,10,"t",1,5.556,8.51,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",3,10,"t",1,16.667,3.9,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",4,11,"t",1,5.556,5.47,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",3,11,"t",1,16.667,2.98,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",2,11,"t",1,50,2.34,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140866A","09Apr2014.Plate.5",2,10,"t",1,50,3.04,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",7,8,"t",1,0.411,36.52,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",6,8,"t",1,1.233,43.44,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",7,9,"t",1,0.411,30.46,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",6,9,"t",1,1.233,40.28,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",5,8,"t",1,3.7,43.53,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",4,8,"t",1,11.1,41.11,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",5,9,"t",1,3.7,43.1,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",4,9,"t",1,11.1,44.54,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",3,9,"t",1,33.3,49.59,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",3,8,"t",1,33.3,41.19,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",2,8,"t",1,99.9,33.19,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",7,4,"t",1,0.041,8.56,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140856A","02Apr2014.Plate.21",2,9,"t",1,99.9,33.32,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",7,5,"t",1,0.041,7.24,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",6,5,"t",1,0.123,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",6,4,"t",1,0.123,10.87,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",5,4,"t",1,0.37,9.62,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",4,4,"t",1,1.11,8.09,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",5,5,"t",1,0.37,6.89,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",4,5,"t",1,1.11,7.05,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",3,5,"t",1,3.33,6.82,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",3,4,"t",1,3.33,11.63,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",2,4,"t",1,9.99,9.32,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",7,8,"t",1,0.041,12.59,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140852A","26Mar2014.Plate.12",2,5,"t",1,9.99,8.77,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",7,9,"t",1,0.041,10.78,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",6,9,"t",1,0.124,13.83,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",6,8,"t",1,0.124,12.65,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",5,8,"t",1,0.371,14.27,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",5,9,"t",1,0.371,14.13,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",4,8,"t",1,1.112,11.95,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",4,9,"t",1,1.112,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",3,8,"t",1,3.337,13.82,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",3,9,"t",1,3.337,13.94,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",2,8,"t",1,10.01,13.07,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140850A","09Apr2014.Plate.4",2,9,"t",1,10.01,11.54,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",7,11,"t",1,0.412,37.21,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",7,10,"t",1,0.412,39.51,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",6,10,"t",1,1.236,35.85,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",6,11,"t",1,1.236,35.93,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",5,11,"t",1,3.707,39.27,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",5,10,"t",1,3.707,41.94,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",4,10,"t",1,11.122,42.39,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",3,10,"t",1,33.367,44.31,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",4,11,"t",1,11.122,44.79,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",3,11,"t",1,33.367,43.35,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",2,11,"t",1,100.1,31.84,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140830A","02Apr2014.Plate.19",2,10,"t",1,100.1,34.13,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",7,6,"t",1,0.411,60.94,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",6,6,"t",1,1.233,47.57,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",7,7,"t",1,0.411,47.09,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",6,7,"t",1,1.233,46.56,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",5,6,"t",1,3.7,52.46,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",5,7,"t",1,3.7,43.24,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",4,6,"t",1,11.1,59.91,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",4,7,"t",1,11.1,50.61,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",3,6,"t",1,33.3,56.08,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",3,7,"t",1,33.3,50.17,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",2,6,"t",1,99.9,39.45,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140826A","02Apr2014.Plate.30",2,7,"t",1,99.9,29.62,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",7,6,"t",1,0.041,41.61,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",6,6,"t",1,0.123,43.16,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",7,7,"t",1,0.041,47.2,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",6,7,"t",1,0.123,43.04,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",5,7,"t",1,0.37,36.38,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",5,6,"t",1,0.37,38.81,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",4,6,"t",1,1.111,43,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",3,6,"t",1,3.333,31.98,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",4,7,"t",1,1.111,39.24,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",3,7,"t",1,3.333,28.7,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",2,7,"t",1,10,11.51,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140824A","02Apr2014.Plate.13",2,6,"t",1,10,12.73,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",7,8,"t",1,0.412,31.26,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",7,9,"t",1,0.412,34.09,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",6,8,"t",1,1.236,42.04,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",6,9,"t",1,1.236,41.68,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",5,8,"t",1,3.707,39.58,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",5,9,"t",1,3.707,43.52,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",4,9,"t",1,11.122,38.11,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",4,8,"t",1,11.122,40.12,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",3,8,"t",1,33.367,38.41,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",3,9,"t",1,33.367,37.74,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",2,8,"t",1,100.1,42.24,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140822A","02Apr2014.Plate.30",2,9,"t",1,100.1,40.56,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",7,10,"t",1,0.041,39.42,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",7,11,"t",1,0.041,45.02,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",6,10,"t",1,0.123,39.1,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",6,11,"t",1,0.123,38.08,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",5,10,"t",1,0.37,42.01,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",5,11,"t",1,0.37,43.03,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",4,10,"t",1,1.111,40.08,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",4,11,"t",1,1.111,39.75,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",3,10,"t",1,3.333,38.6,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",3,11,"t",1,3.333,37.56,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",2,10,"t",1,10,22.03,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140802A","02Apr2014.Plate.3",2,11,"t",1,10,23.68,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",7,10,"t",1,0.411,39.95,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",7,11,"t",1,0.411,35.43,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",6,10,"t",1,1.233,41.69,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",6,11,"t",1,1.233,37.49,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",5,10,"t",1,3.7,33.09,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",5,11,"t",1,3.7,36.54,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",4,10,"t",1,11.1,42.64,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",4,11,"t",1,11.1,33.66,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",3,10,"t",1,33.3,30.99,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",3,11,"t",1,33.3,24.92,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",2,10,"t",1,99.9,20.88,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140798A","02Apr2014.Plate.24",2,11,"t",1,99.9,19.7,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",7,6,"t",1,0.412,39.93,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",7,7,"t",1,0.412,36.53,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",6,6,"t",1,1.235,38.29,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",6,7,"t",1,1.235,37.86,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",5,6,"t",1,3.704,42.8,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",5,7,"t",1,3.704,47.17,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",4,6,"t",1,11.111,38.35,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",4,7,"t",1,11.111,37.26,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",3,6,"t",1,33.333,31.04,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",3,7,"t",1,33.333,30.82,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",2,6,"t",1,100,19.58,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140794A","02Apr2014.Plate.1",2,7,"t",1,100,17.26,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",7,11,"t",1,0.041,41.98,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",7,10,"t",1,0.041,41.29,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",6,10,"t",1,0.124,42.53,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",6,11,"t",1,0.124,37.41,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",5,10,"t",1,0.371,37.53,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",5,11,"t",1,0.371,34.1,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",4,10,"t",1,1.112,29.77,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",4,11,"t",1,1.112,30.49,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",3,10,"t",1,3.337,19.75,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",3,11,"t",1,3.337,20.7,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",2,10,"t",1,10.01,10.55,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140786A","02Apr2014.Plate.21",2,11,"t",1,10.01,10.68,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",7,8,"t",1,0.412,16.4,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",7,9,"t",1,0.412,13.43,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",6,8,"t",1,1.235,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",6,9,"t",1,1.235,11.32,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",5,8,"t",1,3.704,15.35,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",5,9,"t",1,3.704,14.68,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",4,8,"t",1,11.111,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",4,9,"t",1,11.111,14.89,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",3,8,"t",1,33.333,20.99,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",3,9,"t",1,33.333,28.49,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",2,8,"t",1,100,17.04,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140784A","09Apr2014.Plate.1",2,9,"t",1,100,17.91,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",7,8,"t",1,0.412,15.29,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",7,9,"t",1,0.412,13.96,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",6,8,"t",1,1.235,15.39,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",6,9,"t",1,1.235,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",5,9,"t",1,3.704,9.76,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",5,8,"t",1,3.704,10.69,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",4,8,"t",1,11.111,6.18,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",3,8,"t",1,33.333,3.05,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",4,9,"t",1,11.111,5.43,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",3,9,"t",1,33.333,2.63,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",2,9,"t",1,100,0.63,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140782A","09Apr2014.Plate.9",2,8,"t",1,100,0.69,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",7,6,"t",1,0.412,38.38,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",6,6,"t",1,1.236,31.97,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",7,7,"t",1,0.412,34.79,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",6,7,"t",1,1.236,29.45,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",5,7,"t",1,3.707,14.12,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",5,6,"t",1,3.707,16.24,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",4,6,"t",1,11.122,6.21,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",3,6,"t",1,33.367,2.73,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",4,7,"t",1,11.122,5.05,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",3,7,"t",1,33.367,2.47,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",2,7,"t",1,100.1,1.47,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140780A","02Apr2014.Plate.22",2,6,"t",1,100.1,1.73,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",7,4,"t",1,0.004,44.7,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",6,4,"t",1,0.012,41.03,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",7,5,"t",1,0.004,34.78,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",6,5,"t",1,0.012,33.8,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",5,4,"t",1,0.037,45.14,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",5,5,"t",1,0.037,37.53,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",4,4,"t",1,0.111,39.15,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",4,5,"t",1,0.111,42.53,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",3,4,"t",1,0.333,34.32,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",3,5,"t",1,0.333,34.06,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",2,4,"t",1,1,36.49,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140768A","02Apr2014.Plate.6",2,5,"t",1,1,35.44,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",7,10,"t",1,0.412,12.16,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",6,10,"t",1,1.236,12.03,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",7,11,"t",1,0.412,10.5,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",6,11,"t",1,1.236,9.66,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",5,11,"t",1,3.707,11.81,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",5,10,"t",1,3.707,9.89,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",4,10,"t",1,11.122,12.64,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",3,10,"t",1,33.367,14.29,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",4,11,"t",1,11.122,11.41,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",3,11,"t",1,33.367,12.87,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",2,11,"t",1,100.1,8.24,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140762A","26Mar2014.Plate.15",2,10,"t",1,100.1,11.1,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",7,8,"t",1,0.041,9.77,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",7,9,"t",1,0.041,9.12,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",6,8,"t",1,0.124,7.76,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",6,9,"t",1,0.124,7.08,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",5,8,"t",1,0.371,7.25,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",5,9,"t",1,0.371,5.15,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",4,8,"t",1,1.112,5.98,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",4,9,"t",1,1.112,5.84,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",3,8,"t",1,3.337,2.99,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",3,9,"t",1,3.337,2.52,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",2,8,"t",1,10.01,2.24,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140756A","26Mar2014.Plate.10",2,9,"t",1,10.01,1.87,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",7,6,"t",1,0.412,16.38,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",7,7,"t",1,0.412,14.72,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",6,6,"t",1,1.236,15.21,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",6,7,"t",1,1.236,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",5,6,"t",1,3.707,13.66,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",5,7,"t",1,3.707,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",4,6,"t",1,11.122,16.81,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",4,7,"t",1,11.122,11.53,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",3,6,"t",1,33.367,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",3,7,"t",1,33.367,13.83,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",2,6,"t",1,100.1,8.89,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140750A","09Apr2014.Plate.7",2,7,"t",1,100.1,7.55,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",7,4,"t",1,0.041,21.3,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",7,5,"t",0,0.041,NA,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",6,4,"t",1,0.124,43.02,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",6,5,"t",1,0.124,38.4,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",5,4,"t",1,0.371,41.02,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",5,5,"t",1,0.371,39.58,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",4,4,"t",1,1.112,39.93,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",4,5,"t",1,1.112,32.22,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",3,4,"t",1,3.337,21.98,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",3,5,"t",1,3.337,21.76,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",2,4,"t",1,10.01,13.14,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140728A","02Apr2014.Plate.26",2,5,"t",1,10.01,12.86,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",7,4,"t",1,0.021,43.83,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",7,5,"t",1,0.021,39.24,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",6,4,"t",1,0.062,41.71,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",6,5,"t",1,0.062,35.94,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",5,4,"t",1,0.185,40.72,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",5,5,"t",1,0.185,38.58,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",4,4,"t",1,0.556,48.81,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",4,5,"t",1,0.556,40.97,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",3,4,"t",1,1.667,46.94,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",3,5,"t",1,1.667,43.95,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",2,4,"t",1,5,48.23,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140724A","02Apr2014.Plate.24",2,5,"t",1,5,39.57,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",7,10,"t",1,0.004,39.97,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",7,11,"t",1,0.004,40.45,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",6,10,"t",1,0.012,33.51,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",6,11,"t",1,0.012,38.33,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",5,10,"t",1,0.037,40.42,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",5,11,"t",1,0.037,39.4,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",4,10,"t",1,0.111,35.45,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",4,11,"t",1,0.111,37.03,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",3,10,"t",1,0.333,40.76,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",3,11,"t",1,0.333,34.55,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",2,10,"t",1,1,32.19,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140720A","02Apr2014.Plate.1",2,11,"t",1,1,32.36,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",7,4,"t",1,0.412,41.84,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",7,5,"t",1,0.412,35.17,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",6,4,"t",1,1.236,40.59,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",6,5,"t",1,1.236,36.2,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",5,4,"t",1,3.707,43.83,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",5,5,"t",1,3.707,43.19,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",4,4,"t",1,11.122,50.05,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",4,5,"t",1,11.122,42.16,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",3,4,"t",1,33.367,59.06,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",3,5,"t",1,33.367,51.14,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",2,4,"t",1,100.1,58.8,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140718A","02Apr2014.Plate.5",2,5,"t",1,100.1,51.9,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",7,10,"t",1,0.411,47.7,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",7,11,"t",1,0.411,43.39,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",6,10,"t",1,1.233,37.59,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",6,11,"t",1,1.233,38.11,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",5,10,"t",1,3.7,37.16,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",5,11,"t",1,3.7,38.49,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",4,10,"t",1,11.1,35.37,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",4,11,"t",1,11.1,37.67,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",3,10,"t",1,33.3,34.43,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",3,11,"t",1,33.3,32.96,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",2,10,"t",1,99.9,25.33,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140714A","02Apr2014.Plate.11",2,11,"t",1,99.9,25.02,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",7,6,"t",1,0.206,14.43,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",7,7,"t",1,0.206,15.26,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",6,6,"t",1,0.617,15.47,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",6,7,"t",1,0.617,14.97,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",5,6,"t",1,1.852,16.65,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",5,7,"t",1,1.852,14.01,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",4,6,"t",1,5.556,16.84,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",4,7,"t",1,5.556,15.68,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",3,7,"t",1,16.667,14.9,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",3,6,"t",1,16.667,18.22,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",2,6,"t",1,50,10.43,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",7,8,"t",1,0.411,46.19,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140708A","09Apr2014.Plate.9",2,7,"t",1,50,9.53,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",7,9,"t",1,0.411,37,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",6,9,"t",1,1.233,35.86,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",6,8,"t",1,1.233,43.7,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",5,8,"t",1,3.7,47.41,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",4,8,"t",1,11.1,47.59,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",5,9,"t",1,3.7,45.89,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",4,9,"t",1,11.1,48.34,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",3,9,"t",1,33.3,33.06,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",3,8,"t",1,33.3,36.46,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",2,8,"t",1,99.9,13.39,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",7,6,"t",1,0.206,9.61,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140706A","02Apr2014.Plate.31",2,9,"t",1,99.9,12.09,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",7,7,"t",1,0.206,10.51,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",6,7,"t",1,0.617,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",6,6,"t",1,0.617,9,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",5,6,"t",1,1.852,9.3,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",4,6,"t",1,5.556,6.51,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",5,7,"t",1,1.852,8.39,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",4,7,"t",1,5.556,7.16,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",3,7,"t",1,16.667,6.01,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",3,6,"t",1,16.667,6.43,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",2,6,"t",1,50,5.25,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140704A","26Mar2014.Plate.11",2,7,"t",1,50,5.58,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",7,6,"t",1,0.412,31.39,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",7,7,"t",1,0.412,41.71,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",6,6,"t",1,1.235,39.58,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",6,7,"t",1,1.235,28.06,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",5,6,"t",1,3.704,25.52,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",5,7,"t",1,3.704,28.96,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",4,6,"t",1,11.111,11.11,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",4,7,"t",1,11.111,9.49,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",3,6,"t",1,33.333,1.33,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",3,7,"t",1,33.333,1.36,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",2,6,"t",1,100,0.89,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140692A","02Apr2014.Plate.5",2,7,"t",1,100,1.34,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",7,8,"t",1,0.411,10.24,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",7,9,"t",1,0.411,8.58,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",6,8,"t",1,1.233,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",6,9,"t",1,1.233,7.96,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",5,8,"t",1,3.7,8.09,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",5,9,"t",1,3.7,8.8,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",4,8,"t",1,11.1,10.15,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",4,9,"t",1,11.1,9.58,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",3,8,"t",1,33.3,12.98,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",3,9,"t",1,33.3,10.62,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",2,8,"t",1,99.9,12.83,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140690A","26Mar2014.Plate.11",2,9,"t",1,99.9,9.55,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",7,4,"t",1,0.412,11.35,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",7,5,"t",1,0.412,10.55,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",6,4,"t",1,1.235,10.35,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",6,5,"t",1,1.235,8.85,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",5,4,"t",1,3.704,7.81,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",5,5,"t",1,3.704,6.89,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",4,4,"t",1,11.111,11.41,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",4,5,"t",1,11.111,11.52,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",3,4,"t",1,33.333,16.7,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",3,5,"t",1,33.333,13.46,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",2,4,"t",1,100,17.09,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140658A","26Mar2014.Plate.15",2,5,"t",1,100,14.71,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",7,4,"t",1,0.412,59.96,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",7,5,"t",1,0.412,52.51,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",6,5,"t",1,1.236,49.88,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",6,4,"t",1,1.236,54.88,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",5,4,"t",1,3.707,59.27,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",5,5,"t",1,3.707,57.14,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",4,4,"t",1,11.122,57.65,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",4,5,"t",1,11.122,61.25,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",3,4,"t",1,33.367,62.61,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",3,5,"t",1,33.367,63.89,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",2,4,"t",1,100.1,56.8,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140654A","02Apr2014.Plate.15",2,5,"t",1,100.1,53.84,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",7,8,"t",1,0.411,45.55,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",7,9,"t",1,0.411,45.54,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",6,8,"t",1,1.233,45.67,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",6,9,"t",1,1.233,43.71,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",5,8,"t",1,3.7,48.41,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",5,9,"t",1,3.7,46.04,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",4,8,"t",1,11.1,46.52,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",4,9,"t",1,11.1,43.25,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",3,8,"t",1,33.3,45.53,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",3,9,"t",1,33.3,46.94,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",2,9,"t",1,99.9,38.66,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140646A","02Apr2014.Plate.20",2,8,"t",1,99.9,45.21,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",7,5,"t",1,0.412,40.24,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",7,4,"t",1,0.412,39.64,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",6,4,"t",1,1.235,40.26,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",5,4,"t",1,3.704,31.49,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",6,5,"t",1,1.235,37.67,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",5,5,"t",1,3.704,41.24,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",4,5,"t",1,11.111,42.52,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",4,4,"t",1,11.111,43.7,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",3,4,"t",1,33.333,49.78,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",2,4,"t",1,100,42.87,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",3,5,"t",1,33.333,46.74,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140640A","02Apr2014.Plate.10",2,5,"t",1,100,35.73,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",7,11,"t",1,0.041,15.86,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",7,10,"t",1,0.041,17.7,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",6,10,"t",1,0.124,15.42,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",5,10,"t",1,0.371,13.52,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",6,11,"t",1,0.124,20.86,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",5,11,"t",1,0.371,13.69,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",4,11,"t",1,1.112,20.13,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",4,10,"t",1,1.112,20.29,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",3,10,"t",1,3.337,20.88,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",2,10,"t",1,10.01,23.51,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",3,11,"t",1,3.337,21.02,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140636A","09Apr2014.Plate.2",2,11,"t",1,10.01,17.79,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",7,5,"t",1,0.412,34.88,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",7,4,"t",1,0.412,47.51,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",6,4,"t",1,1.235,43.73,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",5,4,"t",1,3.704,40,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",6,5,"t",1,1.235,38.97,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",5,5,"t",1,3.704,34.06,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",4,5,"t",1,11.111,35.2,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",4,4,"t",1,11.111,46.58,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",3,4,"t",1,33.333,41.76,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",3,5,"t",1,33.333,39.84,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",2,4,"t",1,100,33.78,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140624A","02Apr2014.Plate.11",2,5,"t",1,100,25.33,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",7,8,"t",1,0.412,49.15,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",7,9,"t",1,0.412,40.22,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",6,8,"t",1,1.235,45.89,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",6,9,"t",1,1.235,43.18,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",5,8,"t",1,3.704,55.79,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",5,9,"t",1,3.704,57.92,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",4,9,"t",1,11.111,72.31,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",4,8,"t",1,11.111,78.25,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",3,8,"t",1,33.333,65.68,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",3,9,"t",1,33.333,67.47,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",2,8,"t",1,100,73.75,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140612A","02Apr2014.Plate.23",2,9,"t",1,100,93.45,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",7,4,"t",1,0.412,15.33,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",7,5,"t",1,0.412,14.27,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",6,4,"t",1,1.236,13.72,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",6,5,"t",1,1.236,11.42,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",5,4,"t",1,3.707,12.01,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",5,5,"t",1,3.707,15.67,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",4,4,"t",1,11.122,15.31,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",4,5,"t",1,11.122,14.25,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",3,4,"t",1,33.367,16.91,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",3,5,"t",1,33.367,19.87,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",2,4,"t",1,100.1,13.13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140600A","09Apr2014.Plate.3",2,5,"t",1,100.1,13.11,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",7,8,"t",1,0.411,38.99,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",7,9,"t",1,0.411,32.86,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",6,8,"t",1,1.233,38.93,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",6,9,"t",1,1.233,35.52,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",5,8,"t",1,3.7,39.35,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",5,9,"t",1,3.7,37.96,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",4,8,"t",1,11.1,43.64,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",4,9,"t",1,11.1,38.28,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",3,8,"t",1,33.3,46.02,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",3,9,"t",1,33.3,46.98,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",2,8,"t",1,99.9,24.09,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140598A","02Apr2014.Plate.22",2,9,"t",1,99.9,21.31,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",7,8,"t",1,0.412,11.94,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",7,9,"t",1,0.412,10.5,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",6,8,"t",1,1.235,14.21,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",6,9,"t",1,1.235,12.54,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",5,8,"t",1,3.704,13.04,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",5,9,"t",1,3.704,13.75,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",4,8,"t",1,11.111,14.2,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",4,9,"t",1,11.111,13.06,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",3,9,"t",1,33.333,12.75,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",3,8,"t",1,33.333,14.06,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",2,8,"t",1,100,15.74,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140594A","26Mar2014.Plate.12",2,9,"t",1,100,15.11,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",7,10,"t",1,0.082,40.98,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",7,11,"t",1,0.082,38.81,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",6,10,"t",1,0.247,35.12,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",6,11,"t",1,0.247,37.62,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",5,10,"t",1,0.741,32.19,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",5,11,"t",1,0.741,32.22,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",4,10,"t",1,2.222,25.26,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",4,11,"t",1,2.222,26.23,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",3,10,"t",1,6.667,16.92,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",3,11,"t",1,6.667,15.16,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",2,10,"t",1,20,6.04,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140592A","02Apr2014.Plate.32",2,11,"t",1,20,5.26,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",7,8,"t",1,0.041,15.43,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",7,9,"t",1,0.041,13.79,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",6,8,"t",1,0.123,17.78,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",6,9,"t",1,0.123,15.78,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",5,8,"t",1,0.37,20.19,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",5,9,"t",1,0.37,13.73,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",4,8,"t",1,1.111,19.56,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",4,9,"t",1,1.111,19.51,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",3,8,"t",1,3.333,25.04,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",3,9,"t",1,3.333,17.63,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",2,8,"t",1,10,19.04,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140590A","09Apr2014.Plate.5",2,9,"t",1,10,17.94,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",7,6,"t",1,0.412,44,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",7,7,"t",1,0.412,42.72,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",6,6,"t",1,1.235,48.25,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",6,7,"t",1,1.235,42.16,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",5,7,"t",1,3.704,48.55,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",5,6,"t",1,3.704,46.99,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",4,6,"t",1,11.111,51.75,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",3,6,"t",1,33.333,47.11,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",4,7,"t",1,11.111,38.35,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",3,7,"t",1,33.333,41.53,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",2,7,"t",1,100,30.72,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140588A","02Apr2014.Plate.25",2,6,"t",1,100,36.06,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",7,6,"t",0,0.412,NA,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",6,6,"t",1,1.235,64.83,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",7,7,"t",1,0.412,60.02,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",6,7,"t",1,1.235,59.94,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",5,6,"t",1,3.704,62.62,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",5,7,"t",1,3.704,51.41,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",4,6,"t",1,11.111,59.91,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",4,7,"t",1,11.111,54.76,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",3,6,"t",1,33.333,35.67,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",3,7,"t",1,33.333,29.49,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",2,7,"t",1,100,9.59,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140586A","02Apr2014.Plate.24",2,6,"t",1,100,10.98,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",7,10,"t",1,0.411,53.68,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",7,11,"t",1,0.411,53.39,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",6,11,"t",1,1.233,53.91,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",6,10,"t",1,1.233,53.73,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",5,10,"t",1,3.7,52.14,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",5,11,"t",1,3.7,50.26,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",4,11,"t",1,11.1,49.8,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",4,10,"t",1,11.1,51.07,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",3,10,"t",1,33.3,43.7,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",3,11,"t",1,33.3,40.79,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",2,11,"t",1,99.9,20.86,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140564A","02Apr2014.Plate.7",2,10,"t",1,99.9,26.26,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",7,6,"t",1,0.411,47.2,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",7,7,"t",1,0.411,35.17,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",6,7,"t",1,1.233,45.95,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",6,6,"t",1,1.233,46.27,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",5,6,"t",1,3.7,49.66,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",5,7,"t",1,3.7,40.43,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",4,7,"t",1,11.1,48.22,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",4,6,"t",1,11.1,49.78,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",3,6,"t",1,33.3,50.19,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",2,6,"t",1,99.9,42.95,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",3,7,"t",1,33.3,47.19,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140548A","02Apr2014.Plate.8",2,7,"t",1,99.9,46.83,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",7,8,"t",1,0.412,47.2,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",6,8,"t",1,1.235,44.96,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",7,9,"t",1,0.412,42.83,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",6,9,"t",1,1.235,46.5,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",5,8,"t",1,3.704,45.68,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",5,9,"t",1,3.704,40.48,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",4,8,"t",1,11.111,38.52,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",4,9,"t",1,11.111,35.89,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",3,8,"t",1,33.333,24.48,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",3,9,"t",1,33.333,27.48,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",2,8,"t",1,100,8.69,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140544A","02Apr2014.Plate.15",2,9,"t",1,100,13.33,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",7,8,"t",1,0.412,10.16,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",6,8,"t",1,1.236,8.08,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",7,9,"t",1,0.412,7.64,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",6,9,"t",1,1.236,7.9,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",5,8,"t",1,3.707,8.29,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",5,9,"t",1,3.707,8.22,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",4,8,"t",1,11.122,11.24,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",4,9,"t",1,11.122,8.51,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",3,8,"t",1,33.367,7.65,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",3,9,"t",1,33.367,8.65,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",2,8,"t",1,100.1,5.9,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140538A","26Mar2014.Plate.16",2,9,"t",1,100.1,5.55,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",7,8,"t",1,0.041,40.26,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",7,9,"t",1,0.041,39.38,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",6,8,"t",1,0.123,43.79,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",6,9,"t",1,0.123,39.59,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",5,8,"t",1,0.37,29.09,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",5,9,"t",1,0.37,30.39,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",4,8,"t",1,1.11,22.87,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",4,9,"t",1,1.11,20.07,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",3,8,"t",1,3.33,10.33,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",3,9,"t",1,3.33,10.23,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",2,8,"t",1,9.99,4.65,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140534A","02Apr2014.Plate.16",2,9,"t",1,9.99,4.43,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",7,10,"t",1,0.411,43.61,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",7,11,"t",1,0.411,42.33,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",6,10,"t",1,1.233,41.24,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",6,11,"t",1,1.233,38.67,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",5,10,"t",1,3.7,39.44,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",5,11,"t",1,3.7,33.6,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",4,10,"t",1,11.1,36.5,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",4,11,"t",1,11.1,33.24,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",3,10,"t",1,33.3,29.94,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",3,11,"t",1,33.3,25.16,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",2,10,"t",1,99.9,17.39,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140532A","02Apr14.Plate.2",2,11,"t",1,99.9,15.49,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",7,6,"t",1,0.411,9.76,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",7,7,"t",1,0.411,10.37,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",6,6,"t",1,1.233,10.03,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",6,7,"t",1,1.233,8.88,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",5,6,"t",1,3.7,8.95,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",5,7,"t",1,3.7,7.25,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",4,6,"t",1,11.1,8.42,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",3,6,"t",1,33.3,8.78,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",4,7,"t",1,11.1,7.53,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",3,7,"t",1,33.3,7.73,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",2,6,"t",1,99.9,12.43,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140530A","09Apr2014.Plate.5",2,7,"t",1,99.9,8.8,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",7,4,"t",1,0.041,43.75,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",7,5,"t",1,0.041,38.49,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",6,4,"t",1,0.123,39.97,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",6,5,"t",1,0.123,39.99,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",5,4,"t",1,0.37,36.53,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",5,5,"t",1,0.37,33.52,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",4,4,"t",1,1.111,30.75,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",4,5,"t",1,1.111,30.36,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",3,4,"t",1,3.333,18.13,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",3,5,"t",1,3.333,17.6,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",2,4,"t",1,10,5.76,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140528A","02Apr2014.Plate.19",2,5,"t",1,10,4.49,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",7,8,"t",1,0.412,36.91,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",7,9,"t",1,0.412,36.77,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",6,8,"t",1,1.236,33.62,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",6,9,"t",1,1.236,28.96,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",5,8,"t",1,3.707,27.11,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",5,9,"t",1,3.707,26.22,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",4,8,"t",1,11.122,27.25,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",4,9,"t",1,11.122,26.72,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",3,8,"t",1,33.367,23.3,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",3,9,"t",1,33.367,23.66,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",2,8,"t",1,100.1,18.65,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140526A","02Apr2014.Plate.10",2,9,"t",1,100.1,12.92,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",7,10,"t",1,0.041,40.6,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",7,11,"t",1,0.041,40.99,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",6,10,"t",1,0.123,47.62,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",6,11,"t",1,0.123,37.51,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",5,10,"t",1,0.37,45.49,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",5,11,"t",1,0.37,39.06,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",4,10,"t",1,1.111,43.86,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",4,11,"t",1,1.111,36.25,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",3,10,"t",1,3.333,28.51,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",3,11,"t",1,3.333,29.35,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",2,11,"t",1,10,14.28,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140512A","02Apr2014.Plate.27",2,10,"t",1,10,15.75,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",7,10,"t",1,0.206,45.39,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",6,10,"t",1,0.617,36.59,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",7,11,"t",1,0.206,42.78,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",6,11,"t",1,0.617,42.33,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",5,10,"t",1,1.852,42.73,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",4,10,"t",1,5.556,35.44,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",5,11,"t",1,1.852,35.42,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",4,11,"t",1,5.556,36.98,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",3,11,"t",1,16.667,28.02,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",3,10,"t",1,16.667,23.26,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",2,10,"t",1,50,7.54,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",7,8,"t",1,0.412,16.58,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140510A","02Apr2014.Plate.30",2,11,"t",1,50,8.82,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",7,9,"t",1,0.412,15.41,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",6,8,"t",1,1.236,19.65,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",6,9,"t",1,1.236,12.96,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",5,8,"t",1,3.707,18.5,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",5,9,"t",1,3.707,15.73,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",4,8,"t",1,11.122,13.32,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",4,9,"t",1,11.122,11.12,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",3,8,"t",1,33.367,11.77,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",3,9,"t",1,33.367,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",2,8,"t",1,100.1,14.15,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140508A","09Apr2014.Plate.6",2,9,"t",1,100.1,11.75,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",7,8,"t",1,0.004,40.64,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",7,9,"t",1,0.004,32.27,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",6,8,"t",1,0.012,45.34,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",6,9,"t",1,0.012,34.47,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",5,8,"t",1,0.037,38.31,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",5,9,"t",1,0.037,39.88,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",4,8,"t",1,0.111,37.59,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",4,9,"t",1,0.111,40.73,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",3,8,"t",1,0.334,44.58,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",3,9,"t",1,0.334,43.52,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",2,8,"t",1,1.001,47.02,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140506A","02Apr2014.Plate.8",2,9,"t",1,1.001,41.21,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",7,8,"t",1,0.411,41.73,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",7,9,"t",1,0.411,42.68,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",6,8,"t",1,1.233,42.14,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",6,9,"t",1,1.233,42.73,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",5,8,"t",1,3.7,42.97,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",5,9,"t",1,3.7,36.09,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",4,8,"t",1,11.1,36.16,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",4,9,"t",1,11.1,35.03,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",3,8,"t",1,33.3,26.38,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",3,9,"t",1,33.3,26.23,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",2,8,"t",1,99.9,18.82,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140500A","02Apr2014.Plate.28",2,9,"t",1,99.9,17.64,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",7,10,"t",1,0.412,34.68,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",7,11,"t",1,0.412,30.61,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",6,10,"t",1,1.235,32.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",6,11,"t",1,1.235,31.11,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",5,10,"t",1,3.704,32.28,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",5,11,"t",1,3.704,32.11,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",4,10,"t",1,11.111,34.98,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",4,11,"t",1,11.111,41.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",3,10,"t",1,33.333,35.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",3,11,"t",1,33.333,30.68,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",2,10,"t",1,100,36.05,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140490A","02Apr2014.Plate.29",2,11,"t",1,100,27.88,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",7,8,"t",1,0.041,43.99,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",7,9,"t",1,0.041,40.86,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",6,8,"t",1,0.124,50.67,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",6,9,"t",1,0.124,43.84,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",5,8,"t",1,0.371,44.44,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",5,9,"t",1,0.371,47.14,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",4,8,"t",1,1.112,46.46,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",4,9,"t",1,1.112,39.73,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",3,8,"t",1,3.337,41.9,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",3,9,"t",1,3.337,35.04,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",2,8,"t",1,10.01,37.97,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140482A","02Apr2014.Plate.25",2,9,"t",1,10.01,33.33,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",7,4,"t",1,0.412,41.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",7,5,"t",1,0.412,35.62,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",6,4,"t",1,1.235,38.79,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",6,5,"t",1,1.235,37.64,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",5,4,"t",1,3.704,37.83,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",5,5,"t",1,3.704,41.84,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",4,4,"t",1,11.111,33.25,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",4,5,"t",1,11.111,33.05,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",3,4,"t",1,33.333,24.01,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",3,5,"t",1,33.333,22.48,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",2,4,"t",1,100,14.23,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140478A","02Apr2014.Plate.29",2,5,"t",1,100,12.22,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",7,10,"t",1,0.412,19.77,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",6,10,"t",1,1.235,19.39,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",7,11,"t",1,0.412,13.55,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",6,11,"t",1,1.235,15.29,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",5,10,"t",1,3.704,16.48,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",5,11,"t",1,3.704,12.06,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",4,10,"t",1,11.111,15.18,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",4,11,"t",1,11.111,11.78,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",3,10,"t",1,33.333,19.95,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",3,11,"t",1,33.333,17.65,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",2,10,"t",1,100,25.95,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140476A","09Apr2014.Plate.6",2,11,"t",1,100,17.84,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",7,4,"t",1,0.001,46.75,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",7,5,"t",1,0.001,45.47,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",6,4,"t",1,0.002,47.3,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",6,5,"t",1,0.002,39.34,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",5,4,"t",1,0.007,44.85,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",5,5,"t",1,0.007,41.33,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",4,4,"t",1,0.022,49.33,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",4,5,"t",1,0.022,44.48,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",3,4,"t",1,0.067,41.08,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",3,5,"t",1,0.067,34.72,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",2,4,"t",1,0.2,27.72,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140474A","02Apr2014.Plate.30",2,5,"t",1,0.2,24.94,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",7,8,"t",1,0.412,39.56,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",7,9,"t",1,0.412,34.87,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",6,8,"t",1,1.236,38.17,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",6,9,"t",1,1.236,36.87,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",5,8,"t",1,3.707,42.41,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",5,9,"t",1,3.707,37.12,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",4,8,"t",1,11.122,38.5,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",4,9,"t",1,11.122,38.3,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",3,8,"t",1,33.367,36.3,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",3,9,"t",1,33.367,37.46,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",2,8,"t",1,100.1,27.36,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140468A","02Apr2014.Plate.7",2,9,"t",1,100.1,31.55,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",7,10,"t",1,0.206,5.66,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",7,11,"t",1,0.206,7.63,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",6,10,"t",1,0.617,7.32,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",6,11,"t",1,0.617,7.6,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",5,10,"t",1,1.852,8.14,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",5,11,"t",1,1.852,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",4,10,"t",1,5.556,10.58,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",3,10,"t",1,16.667,13.01,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",4,11,"t",1,5.556,11.41,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",3,11,"t",1,16.667,10.07,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",2,10,"t",1,50,11.87,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140464A","26Mar2014.Plate.16",2,11,"t",1,50,10.33,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",7,10,"t",1,0.041,11.79,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",7,11,"t",1,0.041,9.38,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",6,10,"t",1,0.123,6.32,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",6,11,"t",1,0.123,6.16,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",5,10,"t",1,0.37,8.58,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",5,11,"t",1,0.37,7.69,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",4,10,"t",1,1.11,8.1,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",4,11,"t",1,1.11,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",3,10,"t",1,3.33,9.63,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",3,11,"t",1,3.33,6.92,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",2,10,"t",1,9.99,9.42,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140452A","26Mar2014.Plate.13",2,11,"t",1,9.99,8.7,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",7,10,"t",1,0.206,39.25,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",7,11,"t",1,0.206,36.46,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",6,10,"t",1,0.617,37.31,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",6,11,"t",1,0.617,35.43,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",5,10,"t",1,1.852,35.94,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",5,11,"t",1,1.852,41.62,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",4,10,"t",1,5.556,36.46,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",4,11,"t",1,5.556,37.72,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",3,10,"t",1,16.667,55.97,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",3,11,"t",1,16.667,37.82,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",2,10,"t",1,50,48.38,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140450A","02Apr2014.Plate.4",2,11,"t",1,50,52.53,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",7,6,"t",1,0.041,8.63,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",7,7,"t",1,0.041,10.04,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",6,6,"t",1,0.124,9.56,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",6,7,"t",1,0.124,9.33,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",5,6,"t",1,0.371,7.63,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",5,7,"t",1,0.371,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",4,6,"t",1,1.112,7.95,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",4,7,"t",1,1.112,8.45,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",3,7,"t",1,3.337,8.09,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",3,6,"t",1,3.337,8.49,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",2,6,"t",1,10.01,9.81,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",7,6,"t",1,0.411,47.18,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140444A","26Mar2014.Plate.13",2,7,"t",1,10.01,7.84,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",7,7,"t",1,0.411,40.7,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",6,7,"t",1,1.233,40.01,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",6,6,"t",1,1.233,48.66,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",5,6,"t",1,3.7,43.16,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",4,6,"t",1,11.1,44.78,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",5,7,"t",1,3.7,42.68,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",4,7,"t",1,11.1,39.45,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",3,7,"t",1,33.3,36.12,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",3,6,"t",1,33.3,42.04,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",2,6,"t",1,99.9,32.52,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140436A","02Apr14.Plate.2",2,7,"t",1,99.9,36.31,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",7,8,"t",1,0.002,33.33,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",7,9,"t",1,0.002,30.38,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",6,8,"t",1,0.006,22.98,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",6,9,"t",1,0.006,21.36,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",5,8,"t",1,0.018,11.71,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",5,9,"t",1,0.018,10.41,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",4,8,"t",1,0.055,2.55,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",3,8,"t",1,0.166,0.71,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",4,9,"t",1,0.055,2.57,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",3,9,"t",1,0.166,0.78,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",2,8,"t",0,0.499,NA,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140418A","02Apr2014.Plate.27",2,9,"t",0,0.499,NA,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",7,4,"t",1,0.206,6.4,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",7,5,"t",1,0.206,5.78,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",6,4,"t",1,0.617,6.91,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",6,5,"t",1,0.617,5.34,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",5,4,"t",1,1.852,6.79,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",5,5,"t",1,1.852,5.43,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",4,4,"t",1,5.556,7.11,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",4,5,"t",1,5.556,5.6,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",3,4,"t",1,16.667,7.05,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",3,5,"t",1,16.667,7,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",2,4,"t",1,50,7.53,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140394A","26Mar2014.Plate.9",2,5,"t",1,50,7.06,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",7,10,"t",1,0.412,17.85,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",7,11,"t",1,0.412,17.04,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",6,10,"t",1,1.236,17.12,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",6,11,"t",1,1.236,14.8,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",5,10,"t",1,3.707,16.66,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",5,11,"t",1,3.707,15.06,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",4,10,"t",1,11.122,20.52,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",4,11,"t",1,11.122,15.41,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",3,10,"t",1,33.367,23.44,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",3,11,"t",1,33.367,19.11,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",2,10,"t",1,100.1,16.93,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140392A","09Apr2014.Plate.9",2,11,"t",1,100.1,15.65,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",7,6,"t",1,0.412,44.51,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",7,7,"t",1,0.412,44.29,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",6,6,"t",1,1.235,47.42,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",6,7,"t",1,1.235,41.75,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",5,6,"t",1,3.704,42.73,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",5,7,"t",1,3.704,41.27,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",4,6,"t",1,11.111,42.29,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",4,7,"t",1,11.111,33.14,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",3,6,"t",1,33.333,33.72,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",4,4,"t",1,11.122,48.96,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",5,5,"t",1,3.707,42.55,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",5,4,"t",1,3.707,37.37,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",6,5,"t",1,1.236,35.15,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",6,4,"t",1,1.236,40.05,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",7,5,"t",1,0.412,42.04,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",7,4,"t",1,0.412,41.01,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",2,7,"t",1,100,24.18,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",2,6,"t",1,100,30.29,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"01140388A","02Apr2014.Plate.27",3,7,"t",1,33.333,33.25,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.20",7,3,"n",1,NA,64.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.19",7,3,"n",1,NA,63.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.20",6,3,"n",1,NA,58.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.19",6,3,"n",1,NA,66.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.9",6,3,"n",1,NA,59.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.9",7,3,"n",1,NA,58.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.8",6,3,"n",1,NA,67.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.8",7,3,"n",1,NA,72.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.7",7,3,"n",1,NA,71.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.6",7,3,"n",1,NA,65.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.7",6,3,"n",1,NA,57.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.5",7,3,"n",1,NA,66.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.6",6,3,"n",1,NA,67.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.4",7,3,"n",1,NA,55.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.5",6,3,"n",1,NA,67.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.4",6,3,"n",1,NA,74.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.3",6,3,"n",1,NA,75.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.3",7,3,"n",1,NA,69.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.22",7,3,"n",1,NA,67.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.21",7,3,"n",1,NA,68.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.22",6,3,"n",1,NA,69.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.21",6,3,"n",1,NA,66.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.2",6,3,"n",1,NA,60.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.2",7,3,"n",1,NA,65.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.18",7,3,"n",1,NA,63.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.17",7,3,"n",1,NA,59.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.18",6,3,"n",1,NA,62.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.16",7,3,"n",1,NA,61.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.17",6,3,"n",1,NA,58.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.15",7,3,"n",1,NA,56.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.16",6,3,"n",1,NA,63.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.15",6,3,"n",1,NA,63.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.14",6,3,"n",1,NA,63.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.14",7,3,"n",1,NA,62.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.13",7,3,"n",1,NA,64.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.13",6,3,"n",1,NA,61.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.12",6,3,"n",1,NA,63.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.12",7,3,"n",1,NA,56.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.11",7,3,"n",1,NA,63.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.10",7,3,"n",1,NA,69.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.11",6,3,"n",1,NA,62.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.1",7,3,"n",1,NA,68.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.10",6,3,"n",1,NA,56.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"DMSO","03Sep2014.Plate.1",6,3,"n",1,NA,61.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.9",7,3,"n",1,NA,8.14,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.9",6,3,"n",1,NA,6.36,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.8",7,3,"n",1,NA,4.41,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.8",6,3,"n",1,NA,4.34,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.7",6,3,"n",1,NA,7.38,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.7",7,3,"n",1,NA,7.29,"2900-100644 TO3 DR 26Mar2014 Plate 7_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.6",7,3,"n",1,NA,8.01,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.5",7,3,"n",1,NA,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.6",6,3,"n",1,NA,8.34,"2900-100644 TO3 DR 26Mar2014 Plate 6_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.5",6,3,"n",1,NA,8.43,"2900-100644 TO3 DR 26Mar2014 Plate 5_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.4",6,3,"n",1,NA,6.3,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.4",7,3,"n",1,NA,7.66,"2900-100644 TO3 DR 26Mar2014 Plate 4_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.3",7,3,"n",1,NA,8.62,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.3",6,3,"n",1,NA,6.57,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.21",7,3,"n",1,NA,8.81,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.21",6,3,"n",1,NA,6.38,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.20",7,3,"n",1,NA,7.28,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.20",6,3,"n",1,NA,7.5,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.2",7,3,"n",1,NA,6.95,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.19",7,3,"n",1,NA,4.91,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.2",6,3,"n",1,NA,8.03,"2900-100644 TO3 DR 26Mar2014 Plate 2_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.19",6,3,"n",1,NA,5.47,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.18",6,3,"n",1,NA,6.08,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.18",7,3,"n",1,NA,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.17",6,3,"n",1,NA,8.52,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.17",7,3,"n",1,NA,9.94,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.16",7,3,"n",1,NA,10.3,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.16",6,3,"n",0,NA,NA,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.15",7,3,"n",1,NA,10.16,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.15",6,3,"n",1,NA,9.6,"2900-100644 TO3 DR 26Mar2014 Plate 15_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.14",7,3,"n",1,NA,10.15,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.14",6,3,"n",1,NA,5.88,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.13",7,3,"n",1,NA,11.89,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.13",6,3,"n",1,NA,10.57,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.12",7,3,"n",1,NA,7.73,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.11",7,3,"n",1,NA,10.14,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.12",6,3,"n",1,NA,8,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.10",7,3,"n",1,NA,8.98,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.11",6,3,"n",1,NA,7.74,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.10",6,3,"n",1,NA,8.38,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.1",7,3,"n",1,NA,8.74,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.9",7,3,"n",1,NA,16.68,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"DMSO","26Mar2014.Plate.1",6,3,"n",1,NA,7.41,"2900-100644 TO3 DR 26Mar2014 Plate 1_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.9",6,3,"n",1,NA,21.28,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.8",7,3,"n",1,NA,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.8",6,3,"n",1,NA,14.36,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.7",7,3,"n",1,NA,15.76,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.7",6,3,"n",1,NA,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 7_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.6",6,3,"n",1,NA,16.16,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.6",7,3,"n",1,NA,17.73,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.5",7,3,"n",1,NA,14.28,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.5",6,3,"n",1,NA,13.76,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.4",7,3,"n",1,NA,13.19,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.4",6,3,"n",1,NA,14.43,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.34",7,3,"n",1,NA,11.57,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.33",7,3,"n",1,NA,13.34,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.34",6,3,"n",1,NA,10.19,"2900-100644 TO3 DR 09Apr2014 Plate 34_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.33",6,3,"n",1,NA,11.9,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.32",6,3,"n",1,NA,11.02,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.32",7,3,"n",1,NA,10.92,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.31",7,3,"n",1,NA,13.07,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.31",6,3,"n",1,NA,10.61,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.30",7,3,"n",1,NA,12.12,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.30",6,3,"n",1,NA,9.2,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.3",7,3,"n",1,NA,12.55,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.3",6,3,"n",1,NA,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.29",7,3,"n",1,NA,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.28",7,3,"n",1,NA,13.73,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.29",6,3,"n",1,NA,10.44,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.27",7,3,"n",1,NA,11.78,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.28",6,3,"n",1,NA,10.39,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.27",6,3,"n",1,NA,10.54,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.26",7,3,"n",1,NA,12.77,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.26",6,3,"n",1,NA,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.25",7,3,"n",1,NA,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.25",6,3,"n",1,NA,11.76,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.24",7,3,"n",1,NA,9.68,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.23",7,3,"n",1,NA,11.14,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.24",6,3,"n",1,NA,9.59,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.23",6,3,"n",1,NA,9.9,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.22",6,3,"n",1,NA,8.78,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.22",7,3,"n",1,NA,10.57,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.21",7,3,"n",1,NA,9.72,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.21",6,3,"n",1,NA,8.59,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.20",7,3,"n",1,NA,15.15,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.20",6,3,"n",1,NA,12.45,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.2",7,3,"n",1,NA,11.84,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.2",6,3,"n",1,NA,11.93,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.19",7,3,"n",1,NA,12.14,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.19",6,3,"n",1,NA,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.18",6,3,"n",1,NA,14.85,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.18",7,3,"n",1,NA,12.65,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.17",7,3,"n",1,NA,12.51,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.16",7,3,"n",1,NA,14.67,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.17",6,3,"n",1,NA,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.16",6,3,"n",1,NA,13.79,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.15",6,3,"n",1,NA,11.07,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.15",7,3,"n",1,NA,11.62,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.14",7,3,"n",1,NA,14.94,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.14",6,3,"n",1,NA,12.1,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.13",7,3,"n",1,NA,14.72,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.13",6,3,"n",1,NA,11.08,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.12",7,3,"n",1,NA,16.31,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.11",7,3,"n",1,NA,13.52,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.12",6,3,"n",1,NA,14.94,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.10",7,3,"n",1,NA,14.56,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.11",6,3,"n",1,NA,16.31,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.10",6,3,"n",1,NA,15.74,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.1",7,3,"n",1,NA,15.24,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"DMSO","09Apr2014.Plate.1",6,3,"n",1,NA,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.9",7,3,"n",1,NA,43.94,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.9",6,3,"n",1,NA,42.6,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.8",6,3,"n",1,NA,39.98,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.8",7,3,"n",1,NA,45.88,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.7",7,3,"n",1,NA,37.54,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.6",7,3,"n",1,NA,41.79,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.7",6,3,"n",1,NA,35.51,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.5",7,3,"n",1,NA,21.64,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.6",6,3,"n",1,NA,39.03,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.5",6,3,"n",1,NA,39.38,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.31",6,3,"n",1,NA,38.88,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.31",7,3,"n",1,NA,42.57,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.32",6,3,"n",1,NA,46.11,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.32",7,3,"n",1,NA,43.18,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.4",6,3,"n",1,NA,22.66,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.4",7,3,"n",1,NA,33.37,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",4,5,"t",1,11.122,42.75,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",3,4,"t",1,33.367,35.82,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",3,5,"t",1,33.367,38.85,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",2,4,"t",1,100.1,24.3,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140386A","02Apr2014.Plate.22",2,5,"t",1,100.1,22.59,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",7,8,"t",1,0.041,13.85,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",7,9,"t",1,0.041,16.12,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",6,8,"t",1,0.124,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",6,9,"t",1,0.124,12.4,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",5,8,"t",1,0.371,14.71,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",5,9,"t",1,0.371,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",4,8,"t",1,1.112,15.4,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",4,9,"t",1,1.112,13.85,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",3,8,"t",1,3.337,15.7,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",3,9,"t",1,3.337,14.14,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",2,8,"t",1,10.01,13.79,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140382A","09Apr2014.Plate.2",2,9,"t",1,10.01,15.46,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",7,10,"t",1,0.004,45.24,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",6,10,"t",1,0.012,42.28,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",7,11,"t",1,0.004,41.51,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",6,11,"t",1,0.012,44.54,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",5,10,"t",1,0.037,47.12,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",4,10,"t",1,0.111,43.47,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",5,11,"t",1,0.037,41.62,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",4,11,"t",1,0.111,46.48,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",3,10,"t",1,0.334,37.99,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",3,11,"t",1,0.334,41.27,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",2,10,"t",1,1.001,30.34,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140376A","02Apr2014.Plate.13",2,11,"t",1,1.001,31.4,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",7,10,"t",1,0.411,10.24,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",7,11,"t",1,0.411,7.93,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",6,10,"t",1,1.233,10.77,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",6,11,"t",1,1.233,7.45,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",5,10,"t",1,3.7,9.03,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",5,11,"t",1,3.7,11.54,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",4,10,"t",1,11.1,12.5,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",4,11,"t",1,11.1,10.74,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",3,10,"t",1,33.3,12.03,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",3,11,"t",1,33.3,12.58,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",2,10,"t",1,99.9,15.7,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140364A","26Mar2014.Plate.19",2,11,"t",1,99.9,15.41,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",7,6,"t",1,0.412,7.32,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",7,7,"t",1,0.412,7,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",6,6,"t",1,1.235,9.54,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",6,7,"t",1,1.235,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",5,6,"t",1,3.704,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",5,7,"t",1,3.704,10.8,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",4,6,"t",1,11.111,9.28,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",4,7,"t",1,11.111,9.98,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",3,6,"t",1,33.333,10.44,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",3,7,"t",1,33.333,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",2,6,"t",1,100,9.85,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140358A","26Mar2014.Plate.20",2,7,"t",1,100,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",7,10,"t",1,0.082,8.81,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",7,11,"t",1,0.082,8.33,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",6,10,"t",1,0.247,11.06,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",6,11,"t",1,0.247,9.53,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",5,10,"t",1,0.741,14.07,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",5,11,"t",1,0.741,8.61,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",4,10,"t",1,2.222,10.13,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",4,11,"t",1,2.222,8.46,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",3,10,"t",1,6.667,12.57,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",3,11,"t",1,6.667,12.23,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",2,10,"t",1,20,15.77,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140354A","26Mar2014.Plate.17",2,11,"t",1,20,14.23,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",7,4,"t",1,0.411,10.63,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",7,5,"t",1,0.411,7.98,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",6,4,"t",1,1.233,7.94,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",6,5,"t",1,1.233,8.34,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",5,4,"t",1,3.7,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",5,5,"t",1,3.7,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",4,4,"t",1,11.1,9.75,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",4,5,"t",1,11.1,12.2,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",3,4,"t",1,33.3,10.81,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",3,5,"t",1,33.3,11.14,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",2,4,"t",1,99.9,16.1,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140352A","26Mar2014.Plate.11",2,5,"t",1,99.9,12.5,"2900-100644 TO3 DR 26Mar2014 Plate 11_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",7,6,"t",1,0.412,45.33,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",7,7,"t",1,0.412,37.23,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",6,6,"t",1,1.235,37.68,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",6,7,"t",1,1.235,34.03,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",5,6,"t",1,3.704,42.55,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",5,7,"t",1,3.704,40.24,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",4,6,"t",1,11.111,50.51,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",4,7,"t",1,11.111,43.75,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",3,6,"t",1,33.333,54.75,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",3,7,"t",1,33.333,49.29,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",2,6,"t",1,100,62.32,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140350A","02Apr2014.Plate.23",2,7,"t",1,100,53.58,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",7,8,"t",1,0.004,42.28,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",7,9,"t",1,0.004,39.53,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",6,8,"t",1,0.012,41.6,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",6,9,"t",1,0.012,42.71,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",5,8,"t",1,0.037,40.07,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",5,9,"t",1,0.037,36.58,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",4,8,"t",1,0.111,31.09,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",4,9,"t",1,0.111,32.72,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",3,8,"t",1,0.333,26.22,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",3,9,"t",1,0.333,25.38,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",2,8,"t",1,1,17.9,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140342A","02Apr2014.Plate.5",2,9,"t",1,1,20.76,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",7,6,"t",1,0.411,14.49,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",7,7,"t",1,0.411,13.4,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",6,6,"t",1,1.233,15.48,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",6,7,"t",1,1.233,13.5,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",5,6,"t",1,3.7,16.32,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",5,7,"t",1,3.7,13.23,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",4,6,"t",1,11.1,11.63,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",4,7,"t",1,11.1,9.28,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",3,6,"t",1,33.3,15.71,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",3,7,"t",1,33.3,13.5,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",2,6,"t",1,99.9,11.33,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140340A","09Apr2014.Plate.6",2,7,"t",1,99.9,9.57,"2900-100644 TO3 DR 09Apr2014 Plate 6_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",7,4,"t",1,0.411,45.14,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",7,5,"t",1,0.411,43.42,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",6,4,"t",1,1.233,39.16,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",6,5,"t",1,1.233,42.02,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",5,4,"t",1,3.7,49.29,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",5,5,"t",1,3.7,46.98,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",4,4,"t",1,11.1,51.16,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",4,5,"t",1,11.1,44.75,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",3,4,"t",1,33.3,51.83,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",3,5,"t",1,33.3,44.68,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",2,4,"t",1,99.9,45.52,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140336A","02Apr2014.Plate.13",2,5,"t",1,99.9,44.93,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",7,8,"t",1,0.411,7.63,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",7,9,"t",1,0.411,7.58,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",6,8,"t",1,1.233,11.05,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",6,9,"t",1,1.233,8.19,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",5,8,"t",1,3.7,9,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",5,9,"t",1,3.7,10.11,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",4,8,"t",1,11.1,10.29,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",4,9,"t",1,11.1,9.91,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",3,8,"t",1,33.3,11.27,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",3,9,"t",1,33.3,12.27,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",2,8,"t",1,99.9,12.07,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140332A","26Mar2014.Plate.17",2,9,"t",1,99.9,10.79,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",7,4,"t",1,0.411,42.61,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",7,5,"t",1,0.411,41.12,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",6,4,"t",1,1.233,38.56,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",6,5,"t",1,1.233,37.66,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",5,4,"t",1,3.7,46.75,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",5,5,"t",1,3.7,42.66,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",4,4,"t",1,11.1,41.31,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",4,5,"t",1,11.1,44.18,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",3,4,"t",1,33.3,40.39,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",3,5,"t",1,33.3,39.23,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",2,4,"t",1,99.9,14.55,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140322A","02Apr2014.Plate.9",2,5,"t",1,99.9,18.79,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",7,6,"t",1,0.004,38.46,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",7,7,"t",1,0.004,37.56,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",6,6,"t",1,0.012,32.62,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",6,7,"t",1,0.012,40.72,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",5,6,"t",1,0.037,43.07,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",5,7,"t",1,0.037,37.67,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",4,6,"t",1,0.111,34.28,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",4,7,"t",1,0.111,32.66,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",3,6,"t",1,0.333,37.18,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",3,7,"t",1,0.333,36.49,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",2,6,"t",1,0.999,34.91,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140314A","02Apr2014.Plate.4",2,7,"t",1,0.999,30.63,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",7,8,"t",1,0.041,40.65,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",7,9,"t",1,0.041,32.78,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",6,8,"t",1,0.123,40.15,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",6,9,"t",1,0.123,35.42,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",5,8,"t",1,0.37,48.24,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",5,9,"t",1,0.37,46.79,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",4,8,"t",1,1.111,46.06,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",4,9,"t",1,1.111,49.39,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",3,8,"t",1,3.333,52.98,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",3,9,"t",1,3.333,55.75,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",2,8,"t",1,10,41.29,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140310A","02Apr2014.Plate.4",2,9,"t",1,10,41.68,"2900-100644 TO3 DR 02Apr2014 Plate 4_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",7,4,"t",1,0.041,44.81,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",7,5,"t",1,0.041,49,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",6,4,"t",1,0.124,45.55,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",6,5,"t",1,0.124,50.6,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",5,4,"t",1,0.371,40.94,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",5,5,"t",1,0.371,45.6,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",4,4,"t",1,1.112,42.33,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",4,5,"t",1,1.112,41.89,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",3,4,"t",1,3.337,46.63,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",3,5,"t",1,3.337,45.02,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",2,4,"t",1,10.01,41.37,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140302A","02Apr2014.Plate.12",2,5,"t",1,10.01,41.89,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",7,4,"t",1,0.041,10.67,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",7,5,"t",1,0.041,8.95,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",6,4,"t",1,0.123,8.94,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",6,5,"t",1,0.123,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",5,4,"t",1,0.37,7.77,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",5,5,"t",1,0.37,5.72,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",4,4,"t",1,1.111,7.21,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",4,5,"t",1,1.111,7.14,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",3,4,"t",1,3.333,6.37,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",3,5,"t",1,3.333,6.25,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",2,4,"t",1,10,3.62,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140300A","26Mar2014.Plate.13",2,5,"t",1,10,3.18,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",7,8,"t",1,0.411,7.54,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",7,9,"t",1,0.411,8.09,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",6,8,"t",1,1.233,9.53,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",6,9,"t",1,1.233,10.11,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",5,8,"t",1,3.7,8.74,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",5,9,"t",1,3.7,8.41,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",4,8,"t",1,11.1,9.58,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",4,9,"t",1,11.1,9.23,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",3,8,"t",1,33.3,12.84,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",3,9,"t",1,33.3,13.24,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",2,8,"t",1,99.9,12.95,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140298A","26Mar2014.Plate.18",2,9,"t",1,99.9,11.84,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",7,6,"t",1,0.412,39.77,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",7,7,"t",1,0.412,38.7,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",6,6,"t",1,1.235,41.05,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",6,7,"t",1,1.235,41.17,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",5,6,"t",1,3.704,37.27,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",5,7,"t",1,3.704,42.8,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",4,6,"t",1,11.111,35.01,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",4,7,"t",1,11.111,36.38,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",3,6,"t",1,33.333,21.49,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",3,7,"t",1,33.333,22.83,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",2,6,"t",1,100,8.91,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140296A","02Apr2014.Plate.32",2,7,"t",1,100,8.64,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",7,10,"t",1,0.412,8.68,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",7,11,"t",1,0.412,9.11,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",6,10,"t",1,1.235,7.79,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",6,11,"t",1,1.235,7.58,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",5,10,"t",1,3.704,5.67,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",5,11,"t",1,3.704,4.23,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",4,10,"t",1,11.111,3.59,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",4,11,"t",1,11.111,2.59,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",3,10,"t",1,33.333,1.56,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",3,11,"t",1,33.333,1.45,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",2,10,"t",1,100,0.73,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140292A","26Mar2014.Plate.8",2,11,"t",1,100,0.66,"2900-100644 TO3 DR 26Mar2014 Plate 8_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",7,8,"t",1,0.411,41.19,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",7,9,"t",1,0.411,41.53,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",6,8,"t",1,1.233,42.09,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",6,9,"t",1,1.233,37.77,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",5,8,"t",1,3.7,41.31,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",5,9,"t",1,3.7,44.76,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",4,8,"t",1,11.1,43.55,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",4,9,"t",1,11.1,38.67,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",3,8,"t",1,33.3,40.83,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",3,9,"t",1,33.3,37.69,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",2,8,"t",1,99.9,40.08,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140274A","02Apr2014.Plate.1",2,9,"t",1,99.9,36.32,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",7,4,"t",1,0.412,9.64,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",7,5,"t",1,0.412,8.15,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",6,4,"t",1,1.236,10.38,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",6,5,"t",1,1.236,9.16,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",5,4,"t",1,3.707,8.85,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",5,5,"t",1,3.707,10.09,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",4,4,"t",1,11.122,12.62,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",4,5,"t",1,11.122,8.74,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",3,4,"t",1,33.367,9.75,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",3,5,"t",1,33.367,7.25,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",2,4,"t",1,100.1,3.36,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140270A","26Mar2014.Plate.17",2,5,"t",1,100.1,1.94,"2900-100644 TO3 DR 26Mar2014 Plate 17_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",7,4,"t",1,0.082,17.93,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",7,5,"t",1,0.082,14.47,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",6,4,"t",1,0.247,17.32,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",6,5,"t",1,0.247,15.47,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",5,4,"t",1,0.741,12.35,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",5,5,"t",1,0.741,11.61,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",4,4,"t",1,2.222,12.46,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",4,5,"t",1,2.222,15.38,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",3,4,"t",1,6.667,13.76,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",3,5,"t",1,6.667,17.35,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",2,4,"t",1,20,10.26,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140248A","09Apr2014.Plate.5",2,5,"t",1,20,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 5_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",7,6,"t",1,0.041,43.82,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",7,7,"t",1,0.041,38.2,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",6,6,"t",1,0.123,43.74,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",6,7,"t",1,0.123,39.83,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",5,6,"t",1,0.37,42.03,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",5,7,"t",1,0.37,40.56,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",4,6,"t",1,1.111,43.9,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",4,7,"t",1,1.111,36.22,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",3,6,"t",1,3.333,41.16,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",3,7,"t",1,3.333,44.91,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",2,6,"t",1,10,40.81,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140220A","02Apr2014.Plate.10",2,7,"t",1,10,45.88,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",7,6,"t",1,0.411,44.21,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",7,7,"t",1,0.411,31.4,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",6,6,"t",1,1.233,34.67,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",6,7,"t",1,1.233,37.63,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",5,6,"t",1,3.7,42.84,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",5,7,"t",1,3.7,34.8,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",4,6,"t",1,11.1,40.46,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",4,7,"t",1,11.1,37.58,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",3,6,"t",1,33.3,42.9,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",3,7,"t",1,33.3,34.3,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",2,6,"t",1,99.9,33.96,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140214A","02Apr2014.Plate.7",2,7,"t",1,99.9,30.13,"2900-100644 TO3 DR 02Apr2014 Plate 7_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",7,10,"t",1,0.412,32.65,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",7,11,"t",1,0.412,25.93,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",6,10,"t",1,1.235,26.52,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",6,11,"t",1,1.235,24.37,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",5,10,"t",1,3.704,16.83,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",5,11,"t",1,3.704,16.76,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",4,10,"t",1,11.111,7.78,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",4,11,"t",1,11.111,9.55,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",3,10,"t",1,33.333,3.2,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",3,11,"t",1,33.333,2.81,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",2,10,"t",1,100,1,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140202A","02Apr2014.Plate.10",2,11,"t",1,100,1.03,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",7,10,"t",1,0.412,53.82,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",7,11,"t",1,0.412,41.23,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",6,10,"t",1,1.235,41.14,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",6,11,"t",1,1.235,38.95,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",5,10,"t",1,3.704,40.6,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",5,11,"t",1,3.704,41.42,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",4,10,"t",1,11.111,42.86,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",4,11,"t",1,11.111,47.9,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",3,10,"t",1,33.333,50.2,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",3,11,"t",1,33.333,44.51,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",2,10,"t",1,100,56.65,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140190A","02Apr2014.Plate.8",2,11,"t",1,100,53.62,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",7,8,"t",1,0.041,14.02,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",7,9,"t",1,0.041,10.04,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",6,8,"t",1,0.123,13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",6,9,"t",1,0.123,10.35,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",5,8,"t",1,0.37,14.4,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",5,9,"t",1,0.37,13.18,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",4,8,"t",1,1.11,14.13,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",4,9,"t",1,1.11,11.74,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",3,8,"t",1,3.33,13.09,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",3,9,"t",1,3.33,10.37,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",2,8,"t",1,9.99,5.57,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140186A","09Apr2014.Plate.3",2,9,"t",1,9.99,5.7,"2900-100644 TO3 DR 09Apr2014 Plate 3_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",7,6,"t",1,0.411,8.86,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",7,7,"t",1,0.411,9.05,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",6,6,"t",1,1.233,7.82,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",6,7,"t",1,1.233,9.05,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",5,6,"t",1,3.7,8.31,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",5,7,"t",1,3.7,7.7,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",4,6,"t",1,11.1,6.67,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",4,7,"t",1,11.1,9.11,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",3,6,"t",1,33.3,6.98,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",3,7,"t",1,33.3,9.75,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",2,6,"t",1,99.9,6.66,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140180A","26Mar2014.Plate.10",2,7,"t",1,99.9,9.32,"2900-100644 TO3 DR 26Mar2014 Plate 10_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",7,8,"t",1,0.004,39.42,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",7,9,"t",1,0.004,37.45,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",6,9,"t",1,0.012,37.81,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",6,8,"t",1,0.012,42.02,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",5,8,"t",1,0.037,38.22,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",5,9,"t",1,0.037,32.47,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",4,9,"t",1,0.111,30.9,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",4,8,"t",1,0.111,32.81,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",3,8,"t",1,0.333,30.75,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",3,9,"t",1,0.333,28.01,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",2,8,"t",1,1,26.27,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140170A","02Apr2014.Plate.29",2,9,"t",1,1,22.9,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",7,10,"t",1,0.206,15.76,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",7,11,"t",1,0.206,14,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",6,10,"t",1,0.617,14.11,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",6,11,"t",1,0.617,12.44,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",5,10,"t",1,1.852,13.61,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",5,11,"t",1,1.852,14.74,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",4,10,"t",1,5.556,16.64,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",4,11,"t",1,5.556,17.65,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",3,10,"t",1,16.667,22.17,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",3,11,"t",1,16.667,19.36,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",2,10,"t",1,50,27.4,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140164A","09Apr2014.Plate.10",2,11,"t",1,50,29.44,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",7,6,"t",1,0.412,43.99,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",7,7,"t",1,0.412,41.82,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",6,6,"t",1,1.235,42.02,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",6,7,"t",1,1.235,38.67,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",5,6,"t",1,3.704,40.28,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",5,7,"t",1,3.704,33.43,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",4,6,"t",1,11.111,24.24,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",4,7,"t",1,11.111,20.16,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",3,6,"t",1,33.333,10.12,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",3,7,"t",1,33.333,8.93,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",2,6,"t",1,100,3.16,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140150A","02Apr2014.Plate.9",2,7,"t",1,100,2.74,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",7,6,"t",1,0.412,42.66,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",7,7,"t",1,0.412,36.26,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",6,6,"t",1,1.235,48.31,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",6,7,"t",1,1.235,40.31,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",5,6,"t",1,3.704,52.1,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",5,7,"t",1,3.704,60.62,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",4,6,"t",1,11.111,62.15,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",4,7,"t",1,11.111,52.44,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",3,6,"t",1,33.333,27.03,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",3,7,"t",1,33.333,25.26,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",2,6,"t",1,100,7.06,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140142A","02Apr2014.Plate.29",2,7,"t",1,100,5.96,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",7,6,"t",1,0.411,17.17,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",7,7,"t",1,0.411,14.82,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",6,6,"t",1,1.233,15.69,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",6,7,"t",1,1.233,15.5,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",5,6,"t",1,3.7,19.28,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",5,7,"t",1,3.7,17.21,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",4,6,"t",1,11.1,19.3,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",4,7,"t",1,11.1,21.76,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",3,6,"t",1,33.3,20.83,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",3,7,"t",1,33.3,18.1,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",2,6,"t",1,99.9,9.99,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140138A","09Apr2014.Plate.2",2,7,"t",1,99.9,8.15,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",7,8,"t",1,0.411,8.96,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",7,9,"t",1,0.411,8.66,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",6,8,"t",1,1.233,8.7,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",6,9,"t",1,1.233,8.04,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",5,8,"t",1,3.7,7.95,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",5,9,"t",1,3.7,7.15,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",4,8,"t",1,11.1,7.85,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",3,8,"t",1,33.3,11.61,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",4,9,"t",1,11.1,8.96,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",3,9,"t",1,33.3,9,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",2,8,"t",1,99.9,9.4,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140136A","26Mar2014.Plate.21",2,9,"t",1,99.9,9.07,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",7,10,"t",1,0.411,9.79,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",7,11,"t",1,0.411,8.89,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",6,10,"t",1,1.233,10.14,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",6,11,"t",1,1.233,9.28,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",5,10,"t",1,3.7,10.22,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",5,11,"t",1,3.7,7.46,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",4,10,"t",1,11.1,10.62,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",4,11,"t",1,11.1,11.05,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",3,10,"t",1,33.3,13.09,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",3,11,"t",1,33.3,14.76,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",2,10,"t",1,99.9,10.39,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140132A","26Mar2014.Plate.18",2,11,"t",1,99.9,12.12,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",7,4,"t",1,0.412,10.52,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",7,5,"t",1,0.412,7.58,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",6,4,"t",1,1.235,8.4,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",6,5,"t",1,1.235,6.48,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",5,4,"t",1,3.704,5.39,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",5,5,"t",1,3.704,6.02,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",4,4,"t",1,11.111,6.59,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",4,5,"t",1,11.111,6.81,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",3,4,"t",1,33.333,14,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",3,5,"t",1,33.333,12.28,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",2,4,"t",1,100,9.76,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140128A","26Mar2014.Plate.21",2,5,"t",1,100,10.54,"2900-100644 TO3 DR 26Mar2014 Plate 21_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",7,10,"t",1,0.411,52.16,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",7,11,"t",1,0.411,44,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",6,10,"t",1,1.233,45.62,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",6,11,"t",1,1.233,42.9,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",5,10,"t",1,3.7,47.21,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",5,11,"t",1,3.7,47.47,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",4,10,"t",1,11.1,48.08,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",4,11,"t",1,11.1,54.46,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",3,10,"t",1,33.3,49.6,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",3,11,"t",1,33.3,45.87,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",2,10,"t",1,99.9,33.85,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140126A","02Apr2014.Plate.25",2,11,"t",1,99.9,27.91,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",7,4,"t",1,0.412,48.98,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",7,5,"t",1,0.412,37.71,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",6,4,"t",1,1.235,46.86,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",6,5,"t",1,1.235,39.19,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",5,4,"t",0,3.704,NA,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",5,5,"t",0,3.704,NA,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",4,4,"t",1,11.111,48.79,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",4,5,"t",1,11.111,40.41,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",3,4,"t",1,33.333,45.24,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",3,5,"t",1,33.333,37.7,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",2,4,"t",1,100,38.29,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140110A","02Apr2014.Plate.18",2,5,"t",1,100,35.23,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",7,8,"t",1,0.411,10.57,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",7,9,"t",1,0.411,9.01,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",6,8,"t",1,1.233,8.99,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",6,9,"t",1,1.233,7.19,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",5,8,"t",1,3.7,9.25,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",5,9,"t",1,3.7,9.02,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",4,8,"t",1,11.1,9.39,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",4,9,"t",1,11.1,8.1,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",3,8,"t",1,33.3,11.9,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",3,9,"t",1,33.3,10.88,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",2,8,"t",1,99.9,12.99,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140094A","26Mar2014.Plate.13",2,9,"t",1,99.9,11.61,"2900-100644 TO3 DR 26Mar2014 Plate 13_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",7,10,"t",1,0.412,11.61,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",7,11,"t",1,0.412,6.51,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",6,10,"t",1,1.235,8.03,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",6,11,"t",1,1.235,7.89,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",5,10,"t",1,3.704,9.55,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",5,11,"t",1,3.704,9.04,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",4,10,"t",1,11.111,10.15,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",4,11,"t",1,11.111,9.48,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",3,10,"t",1,33.333,10.97,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",3,11,"t",1,33.333,9.46,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",2,10,"t",1,100,10.52,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140088A","26Mar2014.Plate.14",2,11,"t",1,100,9.29,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",7,10,"t",1,0.041,41.57,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",7,11,"t",1,0.041,41.79,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",6,10,"t",1,0.124,40.63,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",6,11,"t",1,0.124,40.47,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",5,10,"t",1,0.371,41.1,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",5,11,"t",1,0.371,38.79,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",4,10,"t",1,1.112,44.28,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",4,11,"t",1,1.112,44.7,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",3,10,"t",1,3.337,45.49,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",3,11,"t",1,3.337,43.04,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",2,10,"t",1,10.01,48.89,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140082A","02Apr2014.Plate.5",2,11,"t",1,10.01,47.58,"2900-100644 TO3 DR 02Apr2014 Plate 5_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",7,6,"t",1,0.412,52.66,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",7,7,"t",1,0.412,42.75,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",6,6,"t",1,1.236,52.61,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",6,7,"t",1,1.236,42.66,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",5,6,"t",1,3.707,49.38,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",5,7,"t",1,3.707,43.32,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",4,6,"t",1,11.122,48.98,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",4,7,"t",1,11.122,40.01,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",3,6,"t",1,33.367,51.66,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",3,7,"t",1,33.367,45.06,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",2,6,"t",1,100.1,49.4,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140076A","02Apr2014.Plate.16",2,7,"t",1,100.1,44.62,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",7,10,"t",1,0.411,50.71,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",7,11,"t",1,0.411,46.69,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",6,10,"t",1,1.233,45.46,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",6,11,"t",1,1.233,41.18,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",5,10,"t",1,3.7,48.36,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",5,11,"t",1,3.7,44.71,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",4,10,"t",1,11.1,43.83,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",4,11,"t",1,11.1,44.65,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",3,10,"t",1,33.3,30.11,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",3,11,"t",1,33.3,27.24,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",2,10,"t",1,99.9,8.49,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140072A","02Apr2014.Plate.15",2,11,"t",1,99.9,8.43,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",7,4,"t",1,0.412,8.05,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",7,5,"t",1,0.412,9.32,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",6,4,"t",1,1.235,6.82,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",6,5,"t",1,1.235,6.31,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",5,4,"t",1,3.704,7.31,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",5,5,"t",1,3.704,5.83,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",4,4,"t",1,11.111,7.14,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",4,5,"t",1,11.111,5.8,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",3,4,"t",1,33.333,5.5,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",3,5,"t",1,33.333,4.09,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",2,4,"t",1,100,2.55,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140064A","26Mar2014.Plate.16",2,5,"t",1,100,2.24,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",7,10,"t",1,0.412,43.5,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",7,11,"t",1,0.412,38.85,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",6,10,"t",1,1.235,37.64,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",6,11,"t",1,1.235,40.11,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",5,10,"t",1,3.704,41.93,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",5,11,"t",1,3.704,39.13,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",4,10,"t",1,11.111,45.43,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",4,11,"t",1,11.111,45.35,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",3,10,"t",1,33.333,45.43,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",3,11,"t",1,33.333,42.54,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",2,10,"t",1,100,37.67,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140060A","02Apr2014.Plate.28",2,11,"t",1,100,35.74,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",7,10,"t",1,0.412,67.72,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",7,11,"t",1,0.412,46.16,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",6,10,"t",1,1.235,46.04,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",6,11,"t",1,1.235,44.5,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",5,10,"t",1,3.704,56.52,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",5,11,"t",1,3.704,50.01,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",4,10,"t",1,11.111,49.95,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",4,11,"t",1,11.111,49.06,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",3,10,"t",1,33.333,34,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",3,11,"t",1,33.333,31.37,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",2,10,"t",1,100,12.15,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140058A","02Apr2014.Plate.26",2,11,"t",1,100,10.69,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",7,6,"t",1,0.412,10.14,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",7,7,"t",1,0.412,8.52,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",6,6,"t",1,1.235,6.24,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",6,7,"t",1,1.235,8.5,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",5,6,"t",1,3.704,8.61,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",5,7,"t",1,3.704,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",4,6,"t",1,11.111,7.85,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",4,7,"t",1,11.111,7.11,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",3,6,"t",1,33.333,8.38,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",3,7,"t",1,33.333,7.42,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",2,6,"t",1,100,6.87,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140044A","26Mar2014.Plate.18",2,7,"t",1,100,6.35,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",7,6,"t",1,0.412,44.71,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",7,7,"t",1,0.412,45.26,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",6,6,"t",1,1.236,51.83,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",6,7,"t",1,1.236,52,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",5,6,"t",0,3.707,NA,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",5,7,"t",1,3.707,53.2,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",4,6,"t",1,11.122,60.97,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",4,7,"t",1,11.122,61.24,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",3,6,"t",1,33.367,62.12,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",3,7,"t",1,33.367,60.14,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",2,6,"t",1,100.1,69.53,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140036A","02Apr2014.Plate.18",2,7,"t",1,100.1,81.65,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",7,10,"t",1,0.411,47.07,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",7,11,"t",1,0.411,45.54,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",6,10,"t",1,1.233,41.19,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",6,11,"t",1,1.233,41.93,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",5,10,"t",1,3.7,44.29,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",5,11,"t",1,3.7,39.22,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",4,10,"t",1,11.1,40.61,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",4,11,"t",1,11.1,40.12,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",3,10,"t",1,33.3,38.5,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",3,11,"t",1,33.3,39.47,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",2,10,"t",1,99.9,29.12,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140026A","02Apr2014.Plate.20",2,11,"t",1,99.9,23.71,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",7,8,"t",1,0.412,42.44,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",7,9,"t",1,0.412,38.45,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",6,8,"t",1,1.235,40.77,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",6,9,"t",1,1.235,42.17,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",5,8,"t",1,3.704,47.31,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",5,9,"t",1,3.704,42.57,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",4,8,"t",1,11.111,50.45,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",4,9,"t",1,11.111,42.88,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",3,8,"t",1,33.333,45.66,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",3,9,"t",1,33.333,39.41,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",2,8,"t",1,100,40.81,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"01140012A","02Apr14.Plate.2",2,9,"t",1,100,29.16,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.30",7,3,"n",1,NA,38.45,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.30",6,3,"n",1,NA,36.99,"2900-100644 TO3 DR 02Apr2014 Plate 30_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.3",7,3,"n",1,NA,39.26,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.3",6,3,"n",1,NA,36.15,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.29",7,3,"n",1,NA,44.57,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.29",6,3,"n",1,NA,41.94,"2900-100644 TO3 DR 02Apr2014 Plate 29_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.28",7,3,"n",1,NA,42.63,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.28",6,3,"n",1,NA,45.64,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.27",7,3,"n",1,NA,39.89,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.27",6,3,"n",1,NA,44.02,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.26",7,3,"n",1,NA,19.25,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.26",6,3,"n",1,NA,42.84,"2900-100644 TO3 DR 02Apr2014 Plate 26_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.25",7,3,"n",1,NA,42.15,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.25",6,3,"n",1,NA,38.14,"2900-100644 TO3 DR 02Apr2014 Plate 25_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.24",7,3,"n",1,NA,39.04,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.24",6,3,"n",1,NA,37.66,"2900-100644 TO3 DR 02Apr2014 Plate 24_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.23",7,3,"n",1,NA,42.08,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.23",6,3,"n",1,NA,34.81,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.22",7,3,"n",1,NA,34.27,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.22",6,3,"n",1,NA,33.76,"2900-100644 TO3 DR 02Apr2014 Plate 22_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.21",7,3,"n",1,NA,30.01,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.21",6,3,"n",1,NA,33.61,"2900-100644 TO3 DR 02Apr2014 Plate 21_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.20",7,3,"n",1,NA,44.4,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.20",6,3,"n",1,NA,47.78,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"DMSO","02Apr14.Plate.2",7,3,"n",1,NA,45.49,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"DMSO","02Apr14.Plate.2",6,3,"n",1,NA,42.2,"2900-100644 TO3 DR 02Apr2014 Plate 2_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.19",7,3,"n",1,NA,41.33,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.19",6,3,"n",1,NA,38.76,"2900-100644 TO3 DR 02Apr2014 Plate 19_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.18",6,3,"n",1,NA,39.14,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.18",7,3,"n",1,NA,38.96,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.17",7,3,"n",1,NA,48.38,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.17",6,3,"n",1,NA,41.3,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.16",7,3,"n",1,NA,40.42,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.16",6,3,"n",1,NA,46.55,"2900-100644 TO3 DR 02Apr2014 Plate 16_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.15",7,3,"n",1,NA,41.13,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.15",6,3,"n",1,NA,40.84,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.14",7,3,"n",1,NA,46.55,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.14",6,3,"n",1,NA,40.08,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.13",7,3,"n",1,NA,43.1,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.13",6,3,"n",1,NA,43.19,"2900-100644 TO3 DR 02Apr2014 Plate 13_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.12",7,3,"n",1,NA,42.31,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.12",6,3,"n",1,NA,41.71,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.11",7,3,"n",1,NA,44.82,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.11",6,3,"n",1,NA,41.04,"2900-100644 TO3 DR 02Apr2014 Plate 11_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.10",7,3,"n",1,NA,42.45,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.10",6,3,"n",1,NA,40.1,"2900-100644 TO3 DR 02Apr2014 Plate 10_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.1",7,2,"n",1,NA,38.87,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"DMSO","02Apr2014.Plate.1",6,2,"n",1,NA,34.2,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",7,8,"t",1,0.082,50.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",7,9,"t",1,0.082,57.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",6,8,"t",1,0.247,66.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",6,9,"t",1,0.247,56.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",5,8,"t",1,0.741,67.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",5,9,"t",1,0.741,64.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",4,8,"t",1,2.222,65.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",4,9,"t",1,2.222,64.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",3,8,"t",1,6.667,61.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",3,9,"t",1,6.667,70.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",2,8,"t",1,20,59.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015384","03Sep2014.Plate.16",2,9,"t",1,20,56.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",7,4,"t",1,0.008,55.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",7,5,"t",1,0.008,52.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",6,4,"t",1,0.025,53.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",6,5,"t",1,0.025,54.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",5,4,"t",1,0.074,42.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",5,5,"t",1,0.074,38.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",4,4,"t",1,0.222,27.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",4,5,"t",1,0.222,26.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",3,4,"t",1,0.667,16.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",3,5,"t",1,0.667,16.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",2,4,"t",1,2,5.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015383","03Sep2014.Plate.16",2,5,"t",1,2,5.17,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",7,10,"t",1,0.082,72.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",7,11,"t",1,0.082,70.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",6,10,"t",1,0.247,70.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",6,11,"t",1,0.247,68.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",5,10,"t",1,0.741,72.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",5,11,"t",1,0.741,73.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",4,10,"t",1,2.222,62.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",4,11,"t",1,2.222,65.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",3,10,"t",1,6.667,60.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",3,11,"t",1,6.667,55.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",2,10,"t",1,20,42.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015224","03Sep2014.Plate.5",2,11,"t",1,20,45.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",7,8,"t",1,0.412,55.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",7,9,"t",1,0.412,59.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",6,8,"t",1,1.235,77.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",6,9,"t",1,1.235,74.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",5,8,"t",1,3.704,99.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",5,9,"t",1,3.704,98.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",4,8,"t",1,11.111,85.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",4,9,"t",1,11.111,86.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",3,8,"t",1,33.333,54.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",3,9,"t",1,33.333,48.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",2,8,"t",1,100,59.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX015217","03Sep2014.Plate.18",2,9,"t",1,100,65.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",7,6,"t",1,0.412,63.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",7,7,"t",1,0.412,61.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",6,6,"t",1,1.235,59.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",6,7,"t",1,1.235,63.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",5,6,"t",1,3.704,61.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",5,7,"t",1,3.704,61.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",4,6,"t",1,11.111,127.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",4,7,"t",1,11.111,66.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",3,6,"t",1,33.333,53.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",3,7,"t",1,33.333,49.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",2,6,"t",1,100,32.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014971","03Sep2014.Plate.17",2,7,"t",1,100,33.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",7,8,"t",1,0.004,69.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",7,9,"t",1,0.004,65.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",6,8,"t",1,0.012,71.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",6,9,"t",1,0.012,72.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",5,8,"t",1,0.037,77.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",5,9,"t",1,0.037,74.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",4,8,"t",1,0.111,60.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",4,9,"t",1,0.111,60.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",3,8,"t",1,0.333,31.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",3,9,"t",1,0.333,40.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",2,8,"t",1,1,12.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014920","03Sep2014.Plate.5",2,9,"t",1,1,13.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",7,8,"t",1,0.412,64.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",7,9,"t",1,0.412,68.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",6,8,"t",1,1.235,73.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",6,9,"t",1,1.235,73.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",5,8,"t",1,3.704,60.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",5,9,"t",1,3.704,61.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",4,8,"t",1,11.111,45.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",4,9,"t",1,11.111,46.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",3,8,"t",1,33.333,33.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",3,9,"t",1,33.333,35.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",2,8,"t",1,100,31.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014918","03Sep2014.Plate.4",2,9,"t",1,100,30.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",7,6,"t",1,0.412,57.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",7,7,"t",1,0.412,60.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",6,6,"t",1,1.235,71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",6,7,"t",1,1.235,60.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",5,6,"t",1,3.704,72.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",5,7,"t",1,3.704,73.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",4,6,"t",1,11.111,68.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",4,7,"t",1,11.111,62.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",3,6,"t",1,33.333,57.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",3,7,"t",1,33.333,53.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",2,6,"t",1,100,42.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014914","03Sep2014.Plate.2",2,7,"t",1,100,43.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",7,10,"t",1,0.206,55.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",7,11,"t",1,0.206,57.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",6,10,"t",1,0.617,66.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",6,11,"t",1,0.617,64.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",5,10,"t",1,1.852,62.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",5,11,"t",1,1.852,70.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",4,10,"t",1,5.556,79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",4,11,"t",1,5.556,70.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",3,10,"t",1,16.667,75.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",3,11,"t",1,16.667,76.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",2,10,"t",1,50,76.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014913","03Sep2014.Plate.1",2,11,"t",1,50,72.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",7,10,"t",1,0.412,67.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",7,11,"t",1,0.412,68.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",6,10,"t",1,1.235,71.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",6,11,"t",1,1.235,69.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",5,10,"t",1,3.704,76.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",5,11,"t",1,3.704,67.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",4,10,"t",1,11.111,70.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",4,11,"t",1,11.111,77.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",3,10,"t",1,33.333,79.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",3,11,"t",1,33.333,87.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",2,10,"t",1,100,81.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014906","03Sep2014.Plate.4",2,11,"t",1,100,77.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",7,10,"t",1,0.412,68.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",7,11,"t",1,0.412,64.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",6,10,"t",1,1.235,71.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",6,11,"t",1,1.235,68.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",5,10,"t",1,3.704,66.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",5,11,"t",1,3.704,66.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",4,10,"t",1,11.111,71.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",4,11,"t",1,11.111,72.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",3,10,"t",1,33.333,68.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",3,11,"t",1,33.333,76.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",2,10,"t",1,100,74.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014891","03Sep2014.Plate.8",2,11,"t",1,100,65.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",7,10,"t",1,0.412,65.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",7,11,"t",1,0.412,61.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",6,10,"t",1,1.235,65.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",6,11,"t",1,1.235,63.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",5,10,"t",1,3.704,63.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",5,11,"t",1,3.704,72.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",4,10,"t",1,11.111,71.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",4,11,"t",1,11.111,69.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",3,10,"t",1,33.333,63.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",3,11,"t",1,33.333,68.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",2,10,"t",1,100,50.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014889","03Sep2014.Plate.6",2,11,"t",1,100,58.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",7,10,"t",1,0.041,65.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",7,11,"t",1,0.041,65.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",6,10,"t",1,0.123,65.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",6,11,"t",1,0.123,58.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",5,10,"t",1,0.37,66.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",5,11,"t",1,0.37,63.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",4,10,"t",1,1.111,73.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",4,11,"t",1,1.111,67.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",3,10,"t",1,3.333,76.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",3,11,"t",1,3.333,66.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",2,10,"t",1,10,37.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014885","03Sep2014.Plate.10",2,11,"t",1,10,42.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",7,8,"t",1,0.412,57.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",7,9,"t",1,0.412,58.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",6,8,"t",1,1.235,63.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",6,9,"t",1,1.235,61.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",5,8,"t",1,3.704,66.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",5,9,"t",1,3.704,65.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",4,8,"t",1,11.111,67.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",4,9,"t",1,11.111,66.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",3,8,"t",1,33.333,66.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",3,9,"t",1,33.333,57.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",2,8,"t",1,100,54.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014880","03Sep2014.Plate.12",2,9,"t",1,100,63.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",7,8,"t",1,0.412,51.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",7,9,"t",1,0.412,53.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",6,8,"t",1,1.235,69.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",6,9,"t",1,1.235,74.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",5,8,"t",1,3.704,65.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",5,9,"t",1,3.704,70.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",4,8,"t",1,11.111,61.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",4,9,"t",1,11.111,57.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",3,8,"t",1,33.333,55.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",3,9,"t",1,33.333,54.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",2,8,"t",1,100,51.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014879","03Sep2014.Plate.13",2,9,"t",1,100,54.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",7,8,"t",1,0.412,57.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",7,9,"t",1,0.412,59.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",6,8,"t",1,1.235,59.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",6,9,"t",1,1.235,62.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",5,8,"t",1,3.704,63.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",5,9,"t",1,3.704,63.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",4,8,"t",1,11.111,67.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",4,9,"t",1,11.111,67.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",3,8,"t",1,33.333,66.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",2,8,"t",1,100,50.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",3,9,"t",1,33.333,64.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014878","03Sep2014.Plate.11",2,9,"t",1,100,54.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",7,4,"t",1,0.412,64.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",6,4,"t",1,1.235,65.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",7,5,"t",1,0.412,63.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",6,5,"t",1,1.235,63.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",5,4,"t",1,3.704,62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",4,4,"t",1,11.111,71.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",5,5,"t",1,3.704,71.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",4,5,"t",1,11.111,64.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",3,4,"t",1,33.333,63.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",2,4,"t",1,100,55.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",3,5,"t",1,33.333,62.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014877","03Sep2014.Plate.10",2,5,"t",1,100,56.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",7,6,"t",1,0.412,62.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",6,6,"t",1,1.235,67.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",7,7,"t",1,0.412,65.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",6,7,"t",1,1.235,67.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",5,6,"t",1,3.704,69.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",4,6,"t",1,11.111,76.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",5,7,"t",1,3.704,66.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",4,7,"t",1,11.111,72.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",3,6,"t",1,33.333,79.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",2,6,"t",1,100,58.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",3,7,"t",1,33.333,80.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014876","03Sep2014.Plate.12",2,7,"t",1,100,56.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",7,4,"t",1,0.041,53.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",6,4,"t",1,0.123,50.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",7,5,"t",1,0.041,46.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",6,5,"t",1,0.123,58.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",5,4,"t",1,0.37,50.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",4,4,"t",1,1.111,37.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",5,5,"t",1,0.37,50.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",4,5,"t",1,1.111,43.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",3,4,"t",1,3.333,23.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",2,4,"t",1,10,10.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",3,5,"t",1,3.333,25.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014866","03Sep2014.Plate.9",2,5,"t",1,10,11.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",7,6,"t",1,0.412,69.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",6,6,"t",1,1.235,69.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",7,7,"t",1,0.412,71.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",6,7,"t",1,1.235,77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",5,6,"t",1,3.704,75.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",4,6,"t",1,11.111,76.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",5,7,"t",1,3.704,74.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",4,7,"t",1,11.111,83.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",3,6,"t",1,33.333,71.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",2,6,"t",1,100,52.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",3,7,"t",1,33.333,75.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014864","03Sep2014.Plate.7",2,7,"t",1,100,53.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",7,6,"t",1,0.412,58.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",6,6,"t",1,1.235,60.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",7,7,"t",1,0.412,57.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",6,7,"t",1,1.235,65.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",5,6,"t",1,3.704,64.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",4,6,"t",1,11.111,63.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",5,7,"t",1,3.704,64.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",4,7,"t",1,11.111,62.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",3,6,"t",1,33.333,60.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",2,6,"t",1,100,58.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",3,7,"t",1,33.333,70.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014853","03Sep2014.Plate.14",2,7,"t",1,100,64.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",7,4,"t",1,0.412,71.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",6,4,"t",1,1.235,67.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",7,5,"t",1,0.412,63.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",6,5,"t",1,1.235,72.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",5,4,"t",1,3.704,69.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",4,4,"t",1,11.111,80.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",5,5,"t",1,3.704,76.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",4,5,"t",1,11.111,75.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",3,4,"t",1,33.333,76.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",2,4,"t",1,100,59.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",3,5,"t",1,33.333,80.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014847","03Sep2014.Plate.7",2,5,"t",1,100,55.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",7,10,"t",1,0.412,54.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",6,10,"t",1,1.235,54.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",7,11,"t",1,0.412,51.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",6,11,"t",1,1.235,57.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",5,10,"t",1,3.704,54.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",4,10,"t",1,11.111,58.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",5,11,"t",1,3.704,51.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",4,11,"t",1,11.111,56.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",3,10,"t",1,33.333,55.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",2,10,"t",1,100,34.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",3,11,"t",1,33.333,50.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014837","03Sep2014.Plate.9",2,11,"t",1,100,39.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",7,4,"t",1,0.412,62.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",6,4,"t",1,1.235,59.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",7,5,"t",1,0.412,60.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",6,5,"t",1,1.235,64.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",5,4,"t",1,3.704,66.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",4,4,"t",1,11.111,63.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",5,5,"t",1,3.704,68.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",4,5,"t",1,11.111,64.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",3,4,"t",1,33.333,86.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",2,4,"t",1,100,73.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",3,5,"t",1,33.333,80.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014833","03Sep2014.Plate.11",2,5,"t",1,100,68.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",7,9,"t",1,0.412,64.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",7,8,"t",1,0.412,59.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",6,8,"t",1,1.235,66.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",5,8,"t",1,3.704,69.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",6,9,"t",1,1.235,69.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",5,9,"t",1,3.704,73.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",4,8,"t",1,11.111,68.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",3,8,"t",1,33.333,65.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",4,9,"t",1,11.111,73.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",3,9,"t",1,33.333,63.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",2,8,"t",1,100,51.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",7,8,"t",1,0.041,67.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014830","03Sep2014.Plate.21",2,9,"t",1,100,48.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",7,9,"t",1,0.041,67.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",6,8,"t",1,0.123,64.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",5,8,"t",1,0.37,79.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",6,9,"t",1,0.123,67.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",5,9,"t",1,0.37,68.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",4,8,"t",1,1.111,65.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",3,8,"t",1,3.333,59.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",4,9,"t",1,1.111,63.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",3,9,"t",1,3.333,55.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",2,8,"t",1,10,23.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014824","03Sep2014.Plate.20",2,9,"t",1,10,19.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",7,10,"t",1,0.035,58.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",7,11,"t",1,0.035,62.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",6,10,"t",1,0.104,58.17,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",6,11,"t",1,0.104,59.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",5,10,"t",1,0.311,57.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",5,11,"t",1,0.311,59.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",4,10,"t",1,0.933,41.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",4,11,"t",1,0.933,44.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",3,10,"t",1,2.8,25.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",3,11,"t",1,2.8,25.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",2,10,"t",1,8.4,8.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014765","03Sep2014.Plate.19",2,11,"t",1,8.4,7.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",7,10,"t",1,0.412,58.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",7,11,"t",1,0.412,56.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",6,10,"t",1,1.235,61.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",6,11,"t",1,1.235,55.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",5,10,"t",1,3.704,61.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",5,11,"t",1,3.704,63.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",4,10,"t",1,11.111,59.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",4,11,"t",1,11.111,59.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",3,10,"t",1,33.333,49.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",3,11,"t",1,33.333,45.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",2,10,"t",1,100,30.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014752","03Sep2014.Plate.18",2,11,"t",1,100,28.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",7,4,"t",1,0.021,50.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",7,5,"t",1,0.021,54.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",6,4,"t",1,0.062,51.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",6,5,"t",1,0.062,61.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",5,4,"t",1,0.185,43.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",5,5,"t",1,0.185,58.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",4,4,"t",1,0.556,51.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",4,5,"t",1,0.556,119.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",3,4,"t",1,1.667,44.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",3,5,"t",1,1.667,49.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",2,4,"t",1,5,28.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014730","03Sep2014.Plate.17",2,5,"t",1,5,29.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",7,4,"t",1,0.412,59.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",7,5,"t",1,0.412,59.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",6,4,"t",1,1.235,57.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",6,5,"t",1,1.235,62.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",5,4,"t",1,3.704,66.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",5,5,"t",1,3.704,69.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",4,4,"t",1,11.111,66.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",4,5,"t",1,11.111,70.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",3,4,"t",1,33.333,55.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",3,5,"t",1,33.333,62.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",2,4,"t",1,100,58.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014716","03Sep2014.Plate.14",2,5,"t",1,100,61.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",7,8,"t",1,0.412,59.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",7,9,"t",1,0.412,56.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",6,8,"t",1,1.237,62.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",6,9,"t",1,1.237,75.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",5,8,"t",1,3.711,72.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",5,9,"t",1,3.711,76.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",4,8,"t",1,11.133,72.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",4,9,"t",1,11.133,81.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",3,8,"t",1,33.4,67.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",3,9,"t",1,33.4,79.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",2,8,"t",1,100.2,56.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014715","03Sep2014.Plate.6",2,9,"t",1,100.2,67.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 6_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",7,4,"t",1,0.412,68.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",7,5,"t",1,0.412,68.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",6,4,"t",1,1.235,69.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",6,5,"t",1,1.235,71.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",5,4,"t",1,3.704,69.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",5,5,"t",1,3.704,80.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",4,4,"t",1,11.111,69.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",4,5,"t",1,11.111,75.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",3,4,"t",1,33.333,71.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",3,5,"t",1,33.333,67.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",2,4,"t",1,100,61.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014714","03Sep2014.Plate.8",2,5,"t",1,100,65.17,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",7,4,"t",1,0.413,53.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",7,5,"t",1,0.413,61.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",6,4,"t",1,1.238,63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",6,5,"t",1,1.238,70.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",5,4,"t",1,3.715,67.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",5,5,"t",1,3.715,72.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",4,4,"t",1,11.144,60.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",4,5,"t",1,11.144,59.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",3,4,"t",1,33.433,62.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",3,5,"t",1,33.433,56.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",2,4,"t",1,100.3,51.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014713","03Sep2014.Plate.13",2,5,"t",1,100.3,62.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",7,10,"t",1,0.412,62.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",7,11,"t",1,0.412,58.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",6,10,"t",1,1.235,64.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",6,11,"t",1,1.235,60.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",5,10,"t",1,3.704,71.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",5,11,"t",1,3.704,61.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",4,10,"t",1,11.111,60.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",4,11,"t",1,11.111,67.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",3,10,"t",1,33.333,64.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",3,11,"t",1,33.333,60.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",2,10,"t",1,100,56.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014712","03Sep2014.Plate.11",2,11,"t",1,100,53.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",7,8,"t",1,0.412,63.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",7,9,"t",1,0.412,70.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",6,8,"t",1,1.235,72.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",6,9,"t",1,1.235,69.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",5,8,"t",1,3.704,75.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",5,9,"t",1,3.704,75.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",4,8,"t",1,11.111,58.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",4,9,"t",1,11.111,72.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",3,9,"t",1,33.333,67.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",3,8,"t",1,33.333,67.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",2,8,"t",1,100,60.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014681","03Sep2014.Plate.8",2,9,"t",1,100,60.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",7,9,"t",1,0.412,55.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",7,8,"t",1,0.412,57.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",6,8,"t",1,1.235,59.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",6,9,"t",1,1.235,59.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",5,9,"t",1,3.704,60.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",5,8,"t",1,3.704,60.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",4,8,"t",1,11.111,59.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",4,9,"t",1,11.111,60.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",3,9,"t",1,33.333,56.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",3,8,"t",1,33.333,63.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",2,8,"t",1,100,44.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014680","03Sep2014.Plate.9",2,9,"t",1,100,48.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",7,9,"t",1,0.411,62.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",7,8,"t",1,0.411,57.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",6,8,"t",1,1.233,58.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",6,9,"t",1,1.233,61.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",5,9,"t",1,3.7,73.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",5,8,"t",1,3.7,65.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",4,8,"t",1,11.1,60.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",4,9,"t",1,11.1,70.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",3,9,"t",1,33.3,63.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",3,8,"t",1,33.3,63.45,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",2,8,"t",1,99.9,57.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014679","03Sep2014.Plate.10",2,9,"t",1,99.9,60.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",7,7,"t",1,0.412,58.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",7,6,"t",1,0.412,56.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",6,6,"t",1,1.235,61.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",6,7,"t",1,1.235,64.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",5,7,"t",1,3.704,69.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",5,6,"t",1,3.704,74.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",4,6,"t",1,11.111,66.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",4,7,"t",1,11.111,70.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",3,7,"t",1,33.333,67.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",3,6,"t",1,33.333,66.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",2,6,"t",1,100,59.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014678","03Sep2014.Plate.10",2,7,"t",1,100,62.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 10_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",7,11,"t",1,0.412,55.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",7,10,"t",1,0.412,55.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",6,10,"t",1,1.235,64.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",5,10,"t",1,3.704,62.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",6,11,"t",1,1.235,61.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",5,11,"t",1,3.704,61.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",4,10,"t",1,11.111,63.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",3,10,"t",1,33.333,60.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",4,11,"t",1,11.111,60.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",3,11,"t",1,33.333,58.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",2,10,"t",1,100,55.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",7,4,"t",1,0.412,64.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014676","03Sep2014.Plate.13",2,11,"t",1,100,48.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",7,5,"t",1,0.412,64.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",6,4,"t",1,1.235,64.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",5,4,"t",1,3.704,63.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",6,5,"t",1,1.235,67.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",5,5,"t",1,3.704,74.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",4,4,"t",1,11.111,68.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",3,4,"t",1,33.333,68.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",4,5,"t",1,11.111,69.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",3,5,"t",1,33.333,64.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",2,4,"t",1,100,60.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",7,10,"t",1,0.412,51.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014675","03Sep2014.Plate.12",2,5,"t",1,100,60.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",7,11,"t",1,0.412,57.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",6,10,"t",1,1.235,57.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",5,10,"t",1,3.704,61.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",6,11,"t",1,1.235,56.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",5,11,"t",1,3.704,55.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",4,10,"t",1,11.111,67.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",3,10,"t",1,33.333,61.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",4,11,"t",1,11.111,55.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",3,11,"t",1,33.333,59.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",2,10,"t",1,100,53.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",7,6,"t",1,0.412,62.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014674","03Sep2014.Plate.12",2,11,"t",1,100,55.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 12_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",7,7,"t",1,0.412,47.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",6,6,"t",1,1.235,69.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",5,6,"t",1,3.704,77.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",6,7,"t",1,1.235,60.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",5,7,"t",1,3.704,71.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",4,6,"t",1,11.111,78.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",3,6,"t",1,33.333,82.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",4,7,"t",1,11.111,64.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",3,7,"t",1,33.333,62.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",2,6,"t",1,100,65.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",7,4,"t",1,0.412,59.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014415","03Sep2014.Plate.22",2,7,"t",1,100,68.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",7,5,"t",1,0.412,55.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",6,4,"t",1,1.235,60.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",5,4,"t",1,3.704,58.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",6,5,"t",1,1.235,58.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",5,5,"t",1,3.704,61.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",4,4,"t",1,11.111,47.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",3,4,"t",1,33.333,37.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",4,5,"t",1,11.111,52.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",3,5,"t",1,33.333,39.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",2,4,"t",1,100,38.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",7,10,"t",1,0.412,57.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014401","03Sep2014.Plate.22",2,5,"t",1,100,32.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 22_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",7,11,"t",1,0.412,59.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",6,10,"t",1,1.235,72.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",5,10,"t",1,3.704,72.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",6,11,"t",1,1.235,59.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",5,11,"t",1,3.704,74.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",4,10,"t",1,11.111,66.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",3,10,"t",1,33.333,64.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",4,11,"t",1,11.111,60.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",3,11,"t",1,33.333,64.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",2,10,"t",1,100,48.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",7,10,"t",1,0.004,55.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014392","03Sep2014.Plate.20",2,11,"t",1,100,62.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",7,11,"t",1,0.004,53.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",6,10,"t",1,0.012,50.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",5,10,"t",1,0.037,52.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",6,11,"t",1,0.012,53.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",5,11,"t",1,0.037,52.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",4,10,"t",1,0.111,46.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",3,10,"t",1,0.333,44.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",4,11,"t",1,0.111,44.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",3,11,"t",1,0.333,45.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",2,10,"t",1,1,41.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",7,4,"t",1,0.412,59.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014364","03Sep2014.Plate.15",2,11,"t",1,1,44.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",7,5,"t",1,0.412,66.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",6,4,"t",1,1.235,69.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",5,4,"t",1,3.704,64.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",6,5,"t",1,1.235,65.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",5,5,"t",1,3.704,65.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",4,4,"t",1,11.111,56.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",3,4,"t",1,33.333,46.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",4,5,"t",1,11.111,60.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",3,5,"t",1,33.333,45.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",2,4,"t",1,100,27.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",7,10,"t",1,0.412,72.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014360","03Sep2014.Plate.15",2,5,"t",1,100,25.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",7,11,"t",1,0.412,68.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",6,10,"t",1,1.235,70.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",5,10,"t",1,3.704,64.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",6,11,"t",1,1.235,65.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",5,11,"t",1,3.704,64.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",4,10,"t",1,11.111,71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",3,10,"t",1,33.333,68.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",4,11,"t",1,11.111,69.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",3,11,"t",1,33.333,65.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",2,10,"t",1,100,55.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",7,6,"t",1,0.411,72.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014280","03Sep2014.Plate.7",2,11,"t",1,100,53.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",7,7,"t",1,0.411,66.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",6,6,"t",1,1.232,68.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",5,6,"t",1,3.696,73.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",6,7,"t",1,1.232,70.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",5,7,"t",1,3.696,70.65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",4,6,"t",1,11.089,68.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",3,6,"t",1,33.267,76.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",4,7,"t",1,11.089,69.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",3,7,"t",1,33.267,69.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",2,6,"t",1,99.8,60.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",7,8,"t",1,0.004,51.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014279","03Sep2014.Plate.8",2,7,"t",1,99.8,63.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 8_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",7,9,"t",1,0.004,54.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",6,8,"t",1,0.011,30.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",5,8,"t",1,0.034,28.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",6,9,"t",1,0.011,38.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",5,9,"t",1,0.034,27.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",4,8,"t",1,0.102,24.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",3,8,"t",1,0.307,18.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",4,9,"t",1,0.102,20.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",3,9,"t",1,0.307,18.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",2,8,"t",1,0.92,17.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",7,4,"t",1,0.021,47.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014277","03Sep2014.Plate.17",2,9,"t",1,0.92,14.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",7,5,"t",1,0.021,50.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",6,5,"t",1,0.062,36.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",6,4,"t",1,0.062,35.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",5,4,"t",1,0.185,24.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",4,4,"t",1,0.556,21.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",5,5,"t",1,0.185,26.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",4,5,"t",1,0.556,16.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",3,5,"t",1,1.667,20.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",3,4,"t",1,1.667,19.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",2,4,"t",1,5,16.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",7,4,"t",1,0.021,65.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014272","03Sep2014.Plate.18",2,5,"t",1,5,21.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",7,5,"t",1,0.021,58.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",6,5,"t",1,0.062,62.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",6,4,"t",1,0.062,65.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",5,4,"t",1,0.185,67.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",4,4,"t",1,0.556,66.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",5,5,"t",1,0.185,66.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",4,5,"t",1,0.556,65.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",3,5,"t",1,1.667,37.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",3,4,"t",1,1.667,42.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",2,4,"t",1,5,24.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",7,6,"t",1,0.044,67.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX014271","03Sep2014.Plate.19",2,5,"t",1,5,20.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",7,7,"t",1,0.044,62.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",6,7,"t",1,0.132,73.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",6,6,"t",1,0.132,67.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",5,6,"t",1,0.396,71.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",4,6,"t",1,1.189,69.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",5,7,"t",1,0.396,71.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",4,7,"t",1,1.189,73.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",3,6,"t",1,3.567,62.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",3,7,"t",1,3.567,74.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",2,6,"t",1,10.7,59.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013756","03Sep2014.Plate.1",2,7,"t",1,10.7,57.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",7,4,"t",1,0.082,62.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",7,5,"t",1,0.082,62.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",6,4,"t",1,0.247,58.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",5,4,"t",1,0.741,52.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",6,5,"t",1,0.247,58.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",5,5,"t",1,0.741,55.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",4,5,"t",1,2.222,34.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",4,4,"t",1,2.222,28.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",3,4,"t",1,6.667,14.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",2,4,"t",1,20,3.14,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",3,5,"t",1,6.667,15.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013549","03Sep2014.Plate.1",2,5,"t",1,20,3.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",7,8,"t",1,0.412,44.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",6,8,"t",1,1.235,58.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",7,9,"t",1,0.412,64.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",6,9,"t",1,1.235,70.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",5,8,"t",1,3.704,61.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",4,8,"t",1,11.111,60.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",5,9,"t",1,3.704,65.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",4,9,"t",1,11.111,63.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",3,8,"t",1,33.333,59.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",2,8,"t",1,100,49.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",3,9,"t",1,33.333,72.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013541","03Sep2014.Plate.19",2,9,"t",1,100,59.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",7,4,"t",1,0.412,57.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",6,4,"t",1,1.235,66.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",7,5,"t",1,0.412,61.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",6,5,"t",1,1.235,68.86,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",5,4,"t",1,3.704,71.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",4,4,"t",1,11.111,58.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",5,5,"t",1,3.704,69.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",4,5,"t",1,11.111,59.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",3,4,"t",1,33.333,50.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",3,5,"t",1,33.333,47.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",2,5,"t",1,100,42.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013532","03Sep2014.Plate.20",2,4,"t",1,100,40.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",7,4,"t",1,0.412,82.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",7,5,"t",1,0.412,62.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",6,5,"t",1,1.235,78.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",6,4,"t",1,1.235,69.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",5,4,"t",1,3.704,79.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",5,5,"t",1,3.704,80.34,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",4,5,"t",1,11.111,87.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",4,4,"t",1,11.111,83.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",3,4,"t",1,33.333,85.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",3,5,"t",1,33.333,91.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",2,5,"t",1,100,70.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013527","03Sep2014.Plate.3",2,4,"t",1,100,65.62,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",7,10,"t",1,0.412,63.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",6,10,"t",1,1.235,61.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",7,11,"t",1,0.412,57.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",6,11,"t",1,1.235,59.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",5,11,"t",1,3.704,67.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",5,10,"t",1,3.704,64.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",4,10,"t",1,11.111,65.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",4,11,"t",1,11.111,63.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",3,11,"t",1,33.333,65.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",3,10,"t",1,33.333,66.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",2,10,"t",1,100,51.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX013434","03Sep2014.Plate.16",2,11,"t",1,100,53.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",7,11,"t",1,0.008,62.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",7,10,"t",1,0.008,57.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",6,10,"t",1,0.025,64.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",6,11,"t",1,0.025,60.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",5,11,"t",1,0.074,67.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",5,10,"t",1,0.074,63.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",4,10,"t",1,0.222,63.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",4,11,"t",1,0.222,63.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",3,11,"t",1,0.667,55.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",3,10,"t",1,0.667,66.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",2,10,"t",1,2,68.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012670","03Sep2014.Plate.21",2,11,"t",1,2,64.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",7,9,"t",1,0.412,59.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",7,8,"t",1,0.412,55.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",6,8,"t",1,1.235,71.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",6,9,"t",1,1.235,63.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",5,9,"t",1,3.704,76.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",5,8,"t",1,3.704,68.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",4,8,"t",1,11.111,72.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",4,9,"t",1,11.111,66.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",3,8,"t",1,33.333,62.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",2,8,"t",1,100,52.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",3,9,"t",1,33.333,71.58,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012659","03Sep2014.Plate.15",2,9,"t",1,100,59.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",7,6,"t",1,0.206,58.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",6,6,"t",1,0.617,73.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",7,7,"t",1,0.206,60.05,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",6,7,"t",1,0.617,65.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",5,6,"t",1,1.852,72.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",4,6,"t",1,5.556,66.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",5,7,"t",1,1.852,69.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",4,7,"t",1,5.556,70.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",3,7,"t",1,16.667,68.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",3,6,"t",1,16.667,66.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",2,6,"t",1,50,59.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012654","03Sep2014.Plate.11",2,7,"t",1,50,62.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 11_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",7,6,"t",1,0.041,79.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",7,7,"t",1,0.041,52.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",6,6,"t",1,0.123,66.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",6,7,"t",1,0.123,58.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",5,6,"t",1,0.37,65.37,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",5,7,"t",1,0.37,66.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",4,6,"t",1,1.111,57.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",4,7,"t",1,1.111,57.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",3,6,"t",1,3.333,66.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",3,7,"t",1,3.333,43.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",2,6,"t",1,10,23.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012641","03Sep2014.Plate.13",2,7,"t",1,10,30.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 13_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",7,6,"t",1,0.021,56.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",7,7,"t",1,0.021,62.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",6,6,"t",1,0.062,72.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",6,7,"t",1,0.062,66.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",5,6,"t",1,0.185,87.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",5,7,"t",1,0.185,86.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",4,6,"t",1,0.556,84.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",4,7,"t",1,0.556,91.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",3,7,"t",1,1.667,96.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",3,6,"t",1,1.667,89.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",2,6,"t",1,5,80.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012628","03Sep2014.Plate.15",2,7,"t",1,5,83.27,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 15_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",7,9,"t",1,0.021,59.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",7,8,"t",1,0.021,64.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",6,8,"t",1,0.062,58.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",6,9,"t",1,0.062,62.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",5,9,"t",1,0.185,73.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",5,8,"t",1,0.185,65.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",4,8,"t",1,0.556,61.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",4,9,"t",1,0.556,60.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",3,9,"t",1,1.667,52.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",3,8,"t",1,1.667,51.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",2,8,"t",1,5,41.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012623","03Sep2014.Plate.14",2,9,"t",1,5,37.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX012606","20130320.Plate.4",7,10,"t",1,0.08,10.56,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",6,10,"t",1,0.25,5.02,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",7,11,"t",1,0.08,11.97,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",6,11,"t",1,0.25,5.22,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",5,10,"t",1,0.74,1.17,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",5,11,"t",1,0.74,1.25,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",4,11,"t",1,2.22,0.43,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",4,10,"t",1,2.22,0.49,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",3,10,"t",1,6.67,0.43,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",3,11,"t",1,6.67,0.47,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",2,10,"t",1,20,0.56,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012606","20130320.Plate.4",2,11,"t",1,20,0.54,"ToxCast_1 CR 20130320 Plate 4.csv","cort" +"TX012337","03Sep2014.Plate.16",7,6,"t",1,0.041,57.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",7,7,"t",1,0.041,55.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",6,6,"t",1,0.123,63.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",6,7,"t",1,0.123,65.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",5,6,"t",1,0.37,68.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",5,7,"t",1,0.37,62.23,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",4,6,"t",1,1.111,59.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",4,7,"t",1,1.111,65.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",3,6,"t",1,3.333,50.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",3,7,"t",1,3.333,49.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",2,6,"t",1,10,25.2,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012325","26Mar2014.Plate.3",7,4,"t",1,0.04,11.21,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012337","03Sep2014.Plate.16",2,7,"t",1,10,30.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 16_Cyprotex.csv","cort" +"TX012325","26Mar2014.Plate.3",7,5,"t",1,0.04,9.47,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","20130320.Plate.1",7,6,"t",1,0.04,12.1,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","20130320.Plate.1",7,7,"t",1,0.04,13.21,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","26Mar2014.Plate.3",6,5,"t",1,0.12,7.35,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","26Mar2014.Plate.3",6,4,"t",1,0.12,7.8,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","20130320.Plate.1",6,6,"t",1,0.12,13.99,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","20130320.Plate.1",6,7,"t",1,0.12,14.48,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","26Mar2014.Plate.3",5,4,"t",1,0.37,8.35,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","20130320.Plate.1",5,6,"t",1,0.37,15.76,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","26Mar2014.Plate.3",5,5,"t",1,0.37,8.92,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","20130320.Plate.1",5,7,"t",1,0.37,16.01,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","26Mar2014.Plate.3",4,4,"t",1,1.11,9.13,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","26Mar2014.Plate.3",4,5,"t",1,1.11,10.07,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","20130320.Plate.1",4,7,"t",1,1.11,17.94,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","20130320.Plate.1",4,6,"t",1,1.11,15.86,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","26Mar2014.Plate.3",3,4,"t",1,3.33,10.56,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","26Mar2014.Plate.3",3,5,"t",1,3.33,9.75,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","20130320.Plate.1",3,6,"t",1,3.33,13.59,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","26Mar2014.Plate.3",2,4,"t",1,10,10.06,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","20130320.Plate.1",3,7,"t",1,3.33,14.95,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","26Mar2014.Plate.3",2,5,"t",1,10,11.43,"2900-100644 TO3 DR 26Mar2014 Plate 3_Cyprotex.csv","cort" +"TX012325","20130320.Plate.1",2,6,"t",1,10,9.69,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012325","20130320.Plate.1",2,7,"t",1,10,10.3,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX012291","03Sep2014.Plate.2",7,4,"t",1,0.082,55.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",7,5,"t",1,0.082,60.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",6,4,"t",1,0.247,65,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",6,5,"t",1,0.247,70.46,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",5,4,"t",1,0.741,66.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",5,5,"t",1,0.741,67.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",4,4,"t",1,2.222,63.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",4,5,"t",1,2.222,63.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",3,4,"t",1,6.667,48.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",3,5,"t",1,6.667,51.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",2,4,"t",1,20,36.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012291","03Sep2014.Plate.2",2,5,"t",1,20,37.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",7,6,"t",1,0.082,59.59,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",7,7,"t",1,0.082,59.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",6,6,"t",1,0.247,68.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",6,7,"t",1,0.247,63.89,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",5,6,"t",1,0.741,74.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",5,7,"t",1,0.741,66.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",4,6,"t",1,2.222,67.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",4,7,"t",1,2.222,59.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",3,6,"t",1,6.667,63.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",3,7,"t",1,6.667,68.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",2,6,"t",1,20,39.55,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012277","03Sep2014.Plate.3",2,7,"t",1,20,58.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",7,11,"t",1,0.082,39.59,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",7,10,"t",1,0.082,36.38,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",6,10,"t",1,0.247,34.47,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",6,11,"t",1,0.247,35.97,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",5,10,"t",1,0.741,34.26,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",4,10,"t",1,2.222,37.43,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",5,11,"t",1,0.741,37.84,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",4,11,"t",1,2.222,36.91,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",3,10,"t",1,6.667,33.76,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",3,11,"t",1,6.667,30.24,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",2,11,"t",1,20,28.8,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012275","02Apr2014.Plate.23",2,10,"t",1,20,32.2,"2900-100644 TO3 DR 02Apr2014 Plate 23_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",7,4,"t",1,0.082,46,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",7,5,"t",1,0.082,42.66,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",6,4,"t",1,0.247,46.11,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",5,4,"t",1,0.741,44.8,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",6,5,"t",1,0.247,40.48,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",5,5,"t",1,0.741,41.34,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",4,4,"t",1,2.222,54.04,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",4,5,"t",1,2.222,45.79,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",3,5,"t",1,6.667,47.06,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",3,4,"t",1,6.667,54.59,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",2,4,"t",1,20,44.54,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012274","02Apr2014.Plate.28",2,5,"t",1,20,45.23,"2900-100644 TO3 DR 02Apr2014 Plate 28_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",7,4,"t",1,0.008,16.03,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",6,4,"t",1,0.025,13.08,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",7,5,"t",1,0.008,16.55,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",6,5,"t",1,0.025,11.3,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",5,4,"t",1,0.074,13.8,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",5,5,"t",1,0.074,15.05,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",4,5,"t",1,0.222,11.43,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",4,4,"t",1,0.222,11.53,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",3,4,"t",1,0.667,12.28,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",3,5,"t",1,0.667,10.73,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",2,4,"t",1,2,6.18,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",7,10,"t",1,0.082,15.87,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012269","09Apr2014.Plate.1",2,5,"t",1,2,7.84,"2900-100644 TO3 DR 09Apr2014 Plate 1_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",7,11,"t",1,0.082,13.9,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",6,10,"t",1,0.247,16.05,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",6,11,"t",1,0.247,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",5,11,"t",1,0.741,10.72,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",5,10,"t",1,0.741,13.73,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",4,10,"t",1,2.222,18.22,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",4,11,"t",1,2.222,15.72,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",3,10,"t",1,6.667,17.7,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",2,10,"t",1,20,14.5,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",3,11,"t",1,6.667,15.78,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012263","09Apr2014.Plate.8",2,11,"t",1,20,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 8_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",7,6,"t",1,0.082,8.68,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",7,7,"t",1,0.082,7.61,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",6,7,"t",1,0.247,8.34,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",6,6,"t",1,0.247,8.48,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",5,6,"t",1,0.741,6.36,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",5,7,"t",1,0.741,6.8,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",4,6,"t",1,2.222,3.63,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",3,6,"t",1,6.667,2.25,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",4,7,"t",1,2.222,3.54,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",3,7,"t",1,6.667,2.05,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",2,6,"t",1,20,0.8,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012211","26Mar2014.Plate.16",2,7,"t",1,20,1.05,"2900-100644 TO3 DR 26Mar2014 Plate 16_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",7,7,"t",1,0.001,42.32,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",7,6,"t",1,0.001,44.43,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",6,6,"t",1,0.002,41.78,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",6,7,"t",1,0.002,40.8,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",5,6,"t",1,0.007,43.69,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",4,6,"t",1,0.022,48.09,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",5,7,"t",1,0.007,43.82,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",4,7,"t",1,0.022,41.8,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",3,6,"t",1,0.067,43.65,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",2,6,"t",1,0.2,32.57,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",3,7,"t",1,0.067,39.58,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX012209","02Apr2014.Plate.31",2,7,"t",1,0.2,31.34,"2900-100644 TO3 DR 02Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",7,10,"t",1,0.412,55.77,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",6,10,"t",1,1.235,64.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",7,11,"t",1,0.412,57.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",6,11,"t",1,1.235,55.87,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",5,10,"t",1,3.704,72.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",5,11,"t",1,3.704,62.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",4,10,"t",1,11.111,68.61,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",4,11,"t",1,11.111,60.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",3,10,"t",1,33.333,69.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",3,11,"t",1,33.333,75.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",2,10,"t",1,100,70.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011905","03Sep2014.Plate.14",2,11,"t",1,100,71.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 14_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",7,4,"t",1,0.082,41.13,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",7,5,"t",1,0.082,43.49,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",6,4,"t",1,0.247,46.53,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",6,5,"t",1,0.247,43.39,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",5,5,"t",1,0.741,49.34,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",5,4,"t",1,0.741,48.61,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",4,4,"t",1,2.222,54.14,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",4,5,"t",1,2.222,54.21,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",3,4,"t",1,6.667,51.74,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",2,4,"t",1,20,41.88,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",3,5,"t",1,6.667,50.57,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011664","02Apr2014.Plate.1",2,5,"t",1,20,44.47,"2900-100644 TO3 DR 02Apr2014 Plate 1_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",7,6,"t",1,0.041,50.95,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",7,7,"t",1,0.041,51.07,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",6,7,"t",1,0.123,51.03,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",6,6,"t",1,0.123,45.01,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",5,6,"t",1,0.37,46.78,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",5,7,"t",1,0.37,46.57,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",4,6,"t",1,1.111,42.72,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",4,7,"t",1,1.111,44.12,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",3,6,"t",1,3.333,33.73,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",3,7,"t",1,3.333,35.15,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",2,6,"t",1,10,20.2,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011638","02Apr2014.Plate.17",2,7,"t",1,10,22.57,"2900-100644 TO3 DR 02Apr2014 Plate 17_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",7,6,"t",1,0.082,14.71,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",7,7,"t",1,0.082,11.98,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",6,6,"t",1,0.247,8.66,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",6,7,"t",1,0.247,10.5,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",5,6,"t",1,0.741,8.65,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",5,7,"t",1,0.741,8.95,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",4,6,"t",1,2.222,4.7,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",4,7,"t",1,2.222,5.5,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",3,6,"t",1,6.667,2.72,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",3,7,"t",1,6.667,2.58,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",2,6,"t",1,20,0.97,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011630","26Mar2014.Plate.19",2,7,"t",1,20,1.09,"2900-100644 TO3 DR 26Mar2014 Plate 19_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",7,8,"t",1,0.052,15.35,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",7,9,"t",1,0.052,14.55,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",6,8,"t",1,0.157,13.94,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",6,9,"t",1,0.157,14.49,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",5,8,"t",1,0.47,17.97,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",5,9,"t",1,0.47,16.09,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",4,8,"t",1,1.411,13.58,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",3,8,"t",1,4.233,17.12,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",4,9,"t",1,1.411,13.81,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",3,9,"t",1,4.233,18.31,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",2,8,"t",1,12.7,17.75,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011613","09Apr2014.Plate.10",2,9,"t",1,12.7,18.65,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",7,7,"t",1,0.412,13.91,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",7,6,"t",1,0.412,11.83,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",6,6,"t",1,1.235,10.66,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",6,7,"t",1,1.235,12.72,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",5,7,"t",1,3.704,13.99,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",5,6,"t",1,3.704,13.36,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",4,6,"t",1,11.111,12.17,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",4,7,"t",1,11.111,13.28,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",3,6,"t",1,33.333,13.6,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",2,6,"t",1,100,18.16,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",3,7,"t",1,33.333,18.9,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX011250","09Apr2014.Plate.31",2,7,"t",1,100,24.33,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",7,8,"t",1,0.041,12.88,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",7,9,"t",1,0.041,11.98,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",6,9,"t",1,0.123,9.73,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",6,8,"t",1,0.123,11.06,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",5,8,"t",1,0.37,8.79,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",5,9,"t",1,0.37,8.99,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",4,8,"t",1,1.111,7.81,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",3,8,"t",1,3.333,5.45,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",4,9,"t",1,1.111,8.85,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",3,9,"t",1,3.333,3.72,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",2,8,"t",1,10,1.98,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010299","09Apr2014.Plate.25",2,9,"t",1,10,1.2,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",7,8,"t",1,0.412,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",7,9,"t",1,0.412,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",6,8,"t",1,1.235,14.53,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",6,9,"t",1,1.235,11.33,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",5,8,"t",1,3.704,8.98,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",5,9,"t",1,3.704,6.37,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",4,8,"t",1,11.111,7.67,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",4,9,"t",1,11.111,6.29,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",3,8,"t",1,33.333,7.34,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",3,9,"t",1,33.333,6.08,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",2,8,"t",1,100,4.65,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010235","09Apr2014.Plate.11",2,9,"t",1,100,3.75,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",7,10,"t",1,0.412,15.71,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",7,11,"t",1,0.412,13.92,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",6,10,"t",1,1.235,13.9,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",6,11,"t",1,1.235,10.84,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",5,10,"t",1,3.704,13.04,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",5,11,"t",1,3.704,12.99,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",4,10,"t",1,11.111,9.37,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",4,11,"t",1,11.111,9.6,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",3,10,"t",1,33.333,9.79,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",3,11,"t",1,33.333,8.97,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",2,10,"t",1,100,8.32,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010217","09Apr2014.Plate.20",2,11,"t",1,100,7.97,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",7,10,"t",1,0.412,15.21,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",7,11,"t",1,0.412,13.83,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",6,10,"t",1,1.235,15.54,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",6,11,"t",1,1.235,18.05,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",5,10,"t",1,3.704,18.76,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",5,11,"t",1,3.704,16.07,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",4,10,"t",1,11.111,19.2,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",4,11,"t",1,11.111,18.67,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",3,10,"t",1,33.333,25.63,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",3,11,"t",1,33.333,26.41,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",2,10,"t",1,100,37.91,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010199","09Apr2014.Plate.16",2,11,"t",1,100,37.5,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",7,4,"t",1,0.412,13.64,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",7,5,"t",1,0.412,10.04,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",6,4,"t",1,1.235,10.65,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",6,5,"t",1,1.235,10.68,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",5,4,"t",1,3.704,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",5,5,"t",1,3.704,12.32,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",4,4,"t",1,11.111,9.34,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",4,5,"t",1,11.111,8.36,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",3,4,"t",1,33.333,7.99,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",3,5,"t",1,33.333,7.22,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",2,4,"t",1,100,4.48,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010183","09Apr2014.Plate.32",2,5,"t",1,100,4.23,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",7,10,"t",1,0.018,4.09,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",7,11,"t",1,0.018,7.68,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",6,10,"t",1,0.054,4,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",6,11,"t",1,0.054,6.81,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",5,10,"t",1,0.163,6.26,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",5,11,"t",1,0.163,6.04,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",4,10,"t",1,0.489,9.25,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",4,11,"t",1,0.489,5.43,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",3,10,"t",1,1.467,4.63,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",3,11,"t",1,1.467,9.76,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",2,10,"t",1,4.4,3.81,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010112","09Apr2014.Plate.21",2,11,"t",1,4.4,6.23,"2900-100644 TO3 DR 09Apr2014 Plate 21_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",7,8,"t",1,0.412,22.36,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",7,9,"t",1,0.412,21.85,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",6,8,"t",1,1.235,52.76,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",6,9,"t",1,1.235,46.6,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",5,8,"t",1,3.704,72.69,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",5,9,"t",1,3.704,60.91,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",4,8,"t",1,11.111,85.21,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",4,9,"t",1,11.111,63.85,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",3,8,"t",1,33.333,86.1,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",2,8,"t",1,100,83.21,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",3,9,"t",1,33.333,73.23,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010035","09Apr2014.Plate.17",2,9,"t",1,100,74.65,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",7,8,"t",1,0.039,27.75,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",7,9,"t",1,0.039,28.85,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",6,9,"t",1,0.116,46.43,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",6,8,"t",1,0.116,42.43,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",5,8,"t",1,0.348,44.07,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",5,9,"t",1,0.348,49.19,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",4,8,"t",1,1.044,52.12,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",3,8,"t",1,3.133,57.9,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",4,9,"t",1,1.044,55.64,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",3,9,"t",1,3.133,54.75,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",2,8,"t",1,9.4,63.58,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010009","02Apr2014.Plate.6",2,9,"t",1,9.4,54.11,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",7,4,"t",1,0.412,15.37,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",7,5,"t",1,0.412,9.81,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",6,4,"t",1,1.235,6.69,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",6,5,"t",1,1.235,6.36,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",5,4,"t",1,3.704,7.42,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",5,5,"t",1,3.704,5.89,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",4,4,"t",1,11.111,4.8,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",4,5,"t",1,11.111,4.6,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",3,4,"t",1,33.333,3.12,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",3,5,"t",1,33.333,2.39,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",2,4,"t",1,100,1.66,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX010001","09Apr2014.Plate.14",2,5,"t",1,100,1.31,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",7,8,"t",1,0.412,16.44,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",7,9,"t",1,0.412,16.07,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",6,8,"t",1,1.235,16.79,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",6,9,"t",1,1.235,16,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",5,8,"t",1,3.704,16.9,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",5,9,"t",1,3.704,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",4,8,"t",1,11.111,14.27,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",4,9,"t",1,11.111,12.53,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",3,8,"t",1,33.333,16.88,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",3,9,"t",1,33.333,12.21,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",2,8,"t",1,100,11.35,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009828","09Apr2014.Plate.20",2,9,"t",1,100,10.95,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",7,8,"t",1,0.091,43.31,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",7,9,"t",1,0.091,35.22,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",6,8,"t",1,0.272,35.9,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",6,9,"t",1,0.272,29.99,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",5,8,"t",1,0.815,34.73,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",5,9,"t",1,0.815,26.53,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",4,8,"t",1,2.444,22.29,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",4,9,"t",1,2.444,17.59,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",3,8,"t",1,7.333,9.83,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",3,9,"t",1,7.333,8.03,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",2,8,"t",1,22,2.81,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009792","02Apr2014.Plate.18",2,9,"t",1,22,2.26,"2900-100644 TO3 DR 02Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",7,6,"t",1,0.041,15.23,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",7,7,"t",1,0.041,14.12,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",6,6,"t",1,0.123,13.81,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",6,7,"t",1,0.123,13.8,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",5,6,"t",1,0.37,17.55,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",5,7,"t",1,0.37,13.13,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",4,6,"t",1,1.111,16.36,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",4,7,"t",1,1.111,15.31,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",3,6,"t",1,3.333,14.34,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",3,7,"t",1,3.333,14.99,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",2,6,"t",1,10,8.69,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009766","09Apr2014.Plate.14",2,7,"t",1,10,8.01,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",7,8,"t",1,0.082,7.66,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",7,9,"t",1,0.082,5.8,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",6,8,"t",1,0.247,7.83,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",5,8,"t",1,0.741,9.06,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",6,9,"t",1,0.247,4.88,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",5,9,"t",1,0.741,9.18,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",4,8,"t",1,2.222,11.42,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",4,9,"t",1,2.222,9.3,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",3,9,"t",1,6.667,10.27,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",3,8,"t",1,6.667,12.31,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",2,8,"t",1,20,12.13,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009742","26Mar2014.Plate.9",2,9,"t",1,20,11.19,"2900-100644 TO3 DR 26Mar2014 Plate 9_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",7,6,"t",1,0.412,12.91,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",7,7,"t",1,0.412,11.67,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",6,7,"t",1,1.235,10.77,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",6,6,"t",1,1.235,15.28,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",5,6,"t",1,3.704,11.17,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",5,7,"t",1,3.704,9.68,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",4,7,"t",1,11.111,8.98,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",4,6,"t",1,11.111,9.88,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",3,6,"t",1,33.333,8.93,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",3,7,"t",1,33.333,8.71,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",2,6,"t",1,100,3.19,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009720","09Apr2014.Plate.17",2,7,"t",1,100,2.42,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",7,8,"t",1,0.14,11.19,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",7,9,"t",1,0.14,12.07,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",6,8,"t",1,0.42,8.78,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",6,9,"t",1,0.42,8.52,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",5,8,"t",1,1.259,6.54,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",5,9,"t",1,1.259,6.23,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",4,8,"t",1,3.778,6.2,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",4,9,"t",1,3.778,5.71,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",3,8,"t",1,11.333,3.51,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",3,9,"t",1,11.333,3.82,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",2,8,"t",1,34,2.34,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009582","09Apr2014.Plate.13",2,9,"t",1,34,2.42,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",7,10,"t",1,0.082,11.45,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",7,11,"t",1,0.082,7.58,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",6,10,"t",1,0.247,10.48,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",6,11,"t",1,0.247,9.94,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",5,10,"t",1,0.741,8.57,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",5,11,"t",1,0.741,7.44,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",4,10,"t",1,2.222,11.42,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",4,11,"t",1,2.222,7.55,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",3,10,"t",1,6.667,8.64,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",3,11,"t",1,6.667,8.79,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",2,10,"t",1,20,8.01,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009478","09Apr2014.Plate.24",2,11,"t",1,20,7.53,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",7,6,"t",1,0.412,12.37,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",7,7,"t",1,0.412,8.98,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",6,6,"t",1,1.235,11.94,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",6,7,"t",1,1.235,12.14,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",5,6,"t",1,3.704,9.87,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",5,7,"t",1,3.704,6.83,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",4,6,"t",1,11.111,23.59,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",4,7,"t",1,11.111,7.43,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",3,6,"t",1,33.333,5.83,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",2,6,"t",1,100,2.22,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",3,7,"t",1,33.333,4.72,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009419","09Apr2014.Plate.24",2,7,"t",1,100,2.19,"2900-100644 TO3 DR 09Apr2014 Plate 24_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",7,7,"t",1,0.082,61.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",7,6,"t",1,0.082,59.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",6,6,"t",1,0.247,63.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",5,6,"t",1,0.741,65.76,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",6,7,"t",1,0.247,70.71,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",5,7,"t",1,0.741,64.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",4,7,"t",1,2.222,62.41,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",4,6,"t",1,2.222,60.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",3,6,"t",1,6.667,55.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",2,6,"t",1,20,34.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",3,7,"t",1,6.667,35.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009384","03Sep2014.Plate.19",2,7,"t",1,20,44.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",7,5,"t",1,0.412,15.98,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",7,4,"t",1,0.412,15.24,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",6,4,"t",1,1.235,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",5,4,"t",1,3.704,19.58,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",6,5,"t",1,1.235,11.47,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",5,5,"t",1,3.704,13.16,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",4,5,"t",1,11.111,12.58,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",4,4,"t",1,11.111,13.96,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",3,4,"t",1,33.333,13.33,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",2,4,"t",1,100,11.88,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",3,5,"t",1,33.333,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009285","09Apr2014.Plate.19",2,5,"t",1,100,11.04,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",7,11,"t",1,0.412,9.48,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",7,10,"t",1,0.412,11.96,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",6,10,"t",1,1.235,10.33,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",5,10,"t",1,3.704,11.59,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",6,11,"t",1,1.235,8.69,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",5,11,"t",1,3.704,10.92,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",4,11,"t",1,11.111,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",4,10,"t",1,11.111,12.12,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",3,10,"t",1,33.333,13.84,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",2,10,"t",1,100,13,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",3,11,"t",1,33.333,11.42,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009281","09Apr2014.Plate.22",2,11,"t",1,100,12.9,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",7,5,"t",1,0.412,15.57,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",7,4,"t",1,0.412,17.26,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",6,4,"t",1,1.235,17.22,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",5,4,"t",1,3.704,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",6,5,"t",1,1.235,16.33,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",5,5,"t",1,3.704,15.22,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",4,5,"t",1,11.111,14.69,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",4,4,"t",1,11.111,17.57,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",3,4,"t",1,33.333,16.05,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",2,4,"t",1,100,9.72,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",3,5,"t",1,33.333,19.56,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009193","09Apr2014.Plate.33",2,5,"t",1,100,9.87,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",7,9,"t",1,0.082,60.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",7,8,"t",1,0.082,54.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",6,8,"t",1,0.247,60.81,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",5,8,"t",1,0.741,73.19,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",6,9,"t",1,0.247,71.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",5,9,"t",1,0.741,70.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",4,9,"t",1,2.222,65.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",4,8,"t",1,2.222,69.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",3,8,"t",1,6.667,46.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",2,8,"t",1,20,28.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",3,9,"t",1,6.667,52.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009165","03Sep2014.Plate.3",2,9,"t",1,20,31.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 3_Cyprotex.csv","cort" +"TX009156","20130320.Plate.1",7,4,"t",1,0.07,14.27,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",6,4,"t",1,0.21,12.4,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",7,5,"t",1,0.07,9.62,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",6,5,"t",1,0.21,13.25,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",5,4,"t",1,0.64,15.66,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",4,4,"t",1,1.91,15.9,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",5,5,"t",1,0.64,14.28,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",4,5,"t",1,1.91,15.62,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",3,4,"t",1,5.73,13.89,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",3,5,"t",1,5.73,14.42,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",2,4,"t",1,17.2,13.3,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009156","20130320.Plate.1",2,5,"t",1,17.2,13.93,"ToxCast_1 CR 20130320 Plate 1.csv","cort" +"TX009070","02Apr2014.Plate.3",7,5,"t",1,0.051,40.72,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",7,4,"t",1,0.051,40.46,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",6,4,"t",1,0.154,43.58,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",5,4,"t",1,0.463,37.57,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",6,5,"t",1,0.154,36.69,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",5,5,"t",1,0.463,38.07,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",4,5,"t",1,1.389,37.19,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",4,4,"t",1,1.389,45.01,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",3,4,"t",1,4.167,46.75,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",2,4,"t",1,12.5,42.91,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",3,5,"t",1,4.167,39.47,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009070","02Apr2014.Plate.3",2,5,"t",1,12.5,44.43,"2900-100644 TO3 DR 02Apr2014 Plate 3_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",7,6,"t",1,0.206,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",7,7,"t",1,0.206,14.08,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",6,6,"t",1,0.617,15.14,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",6,7,"t",1,0.617,16.21,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",5,6,"t",1,1.852,15.54,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",5,7,"t",1,1.852,12.65,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",4,6,"t",1,5.556,17.71,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",4,7,"t",1,5.556,14.96,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",3,6,"t",1,16.667,21.18,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",3,7,"t",1,16.667,19.35,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",2,6,"t",1,50,20.35,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009065","09Apr2014.Plate.33",2,7,"t",1,50,16.67,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",7,10,"t",1,0.412,13.02,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",7,11,"t",1,0.412,11.55,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",6,10,"t",1,1.235,10.8,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",6,11,"t",1,1.235,10.56,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",5,10,"t",1,3.704,7.58,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",5,11,"t",1,3.704,7.34,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",4,10,"t",1,11.111,1.73,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",4,11,"t",1,11.111,1.47,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",3,10,"t",1,33.333,0.69,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",3,11,"t",1,33.333,0.63,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",2,10,"t",1,100,1.25,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009051","09Apr2014.Plate.12",2,11,"t",1,100,1.12,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",7,10,"t",1,0.412,12.03,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",7,11,"t",1,0.412,11.68,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",6,10,"t",1,1.235,18.54,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",6,11,"t",1,1.235,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",5,10,"t",1,3.704,14,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",5,11,"t",1,3.704,11.72,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",4,10,"t",1,11.111,16.18,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",4,11,"t",1,11.111,18.46,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",3,10,"t",1,33.333,8.34,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",3,11,"t",1,33.333,6.79,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",2,10,"t",1,100,1.05,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX009041","09Apr2014.Plate.18",2,11,"t",1,100,0.94,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",7,6,"t",1,0.412,17,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",7,7,"t",1,0.412,15.2,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",6,6,"t",1,1.235,17.53,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",6,7,"t",1,1.235,19.58,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",5,6,"t",1,3.704,14.25,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",5,7,"t",1,3.704,12.37,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",4,6,"t",1,11.111,14.39,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",4,7,"t",1,11.111,14.02,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",3,6,"t",1,33.333,17.55,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",3,7,"t",1,33.333,13.01,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",2,6,"t",1,100,15.44,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008849","09Apr2014.Plate.18",2,7,"t",1,100,13.33,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",7,6,"t",1,0.008,68.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",7,7,"t",1,0.008,60.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",6,6,"t",1,0.025,73.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",6,7,"t",1,0.025,71.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",5,6,"t",1,0.074,74.01,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",5,7,"t",1,0.074,67.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",4,6,"t",1,0.222,67.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",4,7,"t",1,0.222,67.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",3,6,"t",1,0.667,73.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",3,7,"t",1,0.667,73.17,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",2,6,"t",1,2,71.99,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008731","03Sep2014.Plate.5",2,7,"t",1,2,70.3,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",7,6,"t",1,0.082,66.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",7,7,"t",1,0.082,72.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",6,6,"t",1,0.247,74.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",6,7,"t",1,0.247,70.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",5,6,"t",1,0.741,80.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",5,7,"t",1,0.741,82.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",4,6,"t",1,2.222,80.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",4,7,"t",1,2.222,87.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",3,6,"t",1,6.667,74.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",3,7,"t",1,6.667,75.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",2,6,"t",1,20,49.18,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008704","03Sep2014.Plate.4",2,7,"t",1,20,58.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",7,8,"t",1,0.412,16.19,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",7,9,"t",1,0.412,13.61,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",6,8,"t",1,1.235,18.11,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",6,9,"t",1,1.235,15.04,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",5,8,"t",1,3.704,17.9,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",5,9,"t",1,3.704,15.94,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",4,8,"t",1,11.111,17.24,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",3,8,"t",1,33.333,20.71,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",4,9,"t",1,11.111,16.17,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",3,9,"t",1,33.333,18.51,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",2,8,"t",1,100,19.7,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008567","09Apr2014.Plate.18",2,9,"t",1,100,15.37,"2900-100644 TO3 DR 09Apr2014 Plate 18_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",7,9,"t",1,0.004,12.31,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",7,8,"t",1,0.004,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",6,9,"t",1,0.012,13.48,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",6,8,"t",1,0.012,14.83,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",5,8,"t",1,0.037,12.6,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",4,8,"t",1,0.111,13.24,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",5,9,"t",1,0.037,13.37,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",4,9,"t",1,0.111,12,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",3,9,"t",1,0.333,8.97,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",3,8,"t",1,0.333,12.2,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",2,8,"t",1,1,9.89,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",7,10,"t",1,0.412,12.91,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008428","09Apr2014.Plate.31",2,9,"t",1,1,8.94,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",7,11,"t",1,0.412,13.95,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",6,11,"t",1,1.235,12.32,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",6,10,"t",1,1.235,11.38,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",5,10,"t",1,3.704,9.45,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",4,10,"t",1,11.111,12.17,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",5,11,"t",1,3.704,9.95,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",4,11,"t",1,11.111,10,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",3,11,"t",1,33.333,7.7,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",3,10,"t",1,33.333,9.22,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",2,10,"t",1,100,5.97,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",7,4,"t",1,0.412,15.36,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008416","09Apr2014.Plate.25",2,11,"t",1,100,4.79,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",7,5,"t",1,0.412,13.65,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",6,5,"t",1,1.235,12.41,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",6,4,"t",1,1.235,13.97,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",5,4,"t",1,3.704,13.74,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",4,4,"t",1,11.111,17.84,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",5,5,"t",1,3.704,15.2,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",4,5,"t",1,11.111,16.4,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",3,5,"t",1,33.333,15.45,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",3,4,"t",1,33.333,14.07,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",2,4,"t",1,100,8.93,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",7,4,"t",1,0.059,17.36,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008326","09Apr2014.Plate.30",2,5,"t",1,100,11.24,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",7,5,"t",1,0.059,17.14,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",6,4,"t",1,0.177,15.96,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",6,5,"t",1,0.177,14.83,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",5,4,"t",1,0.53,15.68,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",5,5,"t",1,0.53,14.22,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",4,4,"t",1,1.589,19.53,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",4,5,"t",1,1.589,16.02,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",3,4,"t",1,4.767,19.77,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",3,5,"t",1,4.767,18.91,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",2,5,"t",1,14.3,15.32,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008321","09Apr2014.Plate.9",2,4,"t",1,14.3,16.96,"2900-100644 TO3 DR 09Apr2014 Plate 9_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",7,8,"t",1,0.082,64.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",6,8,"t",1,0.247,61.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",7,9,"t",1,0.082,60.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",6,9,"t",1,0.247,67.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",5,8,"t",1,0.741,74.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",5,9,"t",1,0.741,72.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",4,8,"t",1,2.222,76.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",4,9,"t",1,2.222,72.32,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",3,8,"t",1,6.667,60.49,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",3,9,"t",1,6.667,62.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",2,8,"t",1,20,29.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008082","03Sep2014.Plate.1",2,9,"t",1,20,27.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 1_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",7,6,"t",1,0.082,63.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",7,7,"t",1,0.082,54.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",6,6,"t",1,0.247,69.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",6,7,"t",1,0.247,64.7,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",5,6,"t",1,0.741,71.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",5,7,"t",1,0.741,64.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",4,6,"t",1,2.222,61.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",4,7,"t",1,2.222,61.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",3,6,"t",1,6.667,58.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",3,7,"t",1,6.667,61.11,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",2,6,"t",1,20,38.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX008070","03Sep2014.Plate.18",2,7,"t",1,20,49.84,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 18_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",7,6,"t",1,0.412,18.99,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",7,7,"t",1,0.412,18.36,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",6,6,"t",1,1.235,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",6,7,"t",1,1.235,12.26,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",5,6,"t",1,3.704,16.56,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",5,7,"t",1,3.704,14.18,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",4,6,"t",1,11.111,17.01,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",4,7,"t",1,11.111,14.18,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",3,6,"t",1,33.333,19.86,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",3,7,"t",1,33.333,18.7,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",2,6,"t",1,100,18.9,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007874","09Apr2014.Plate.15",2,7,"t",1,100,16.4,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",7,6,"t",1,0.412,15.35,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",7,7,"t",1,0.412,13.02,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",6,6,"t",1,1.235,14.34,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",6,7,"t",1,1.235,12.96,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",5,6,"t",1,3.704,15.09,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",5,7,"t",1,3.704,11.93,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",4,6,"t",1,11.111,13.26,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",4,7,"t",1,11.111,13.51,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",3,6,"t",1,33.333,14.96,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",3,7,"t",1,33.333,14.23,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",2,6,"t",1,100,1.13,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007832","09Apr2014.Plate.26",2,7,"t",1,100,0.87,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",7,10,"t",1,0.412,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",7,11,"t",1,0.412,13.9,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",6,10,"t",1,1.235,13.6,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",6,11,"t",1,1.235,12.85,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",5,10,"t",1,3.704,14.89,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",5,11,"t",1,3.704,15.33,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",4,10,"t",1,11.111,17.09,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",4,11,"t",1,11.111,16.71,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",3,10,"t",1,33.333,16.15,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",3,11,"t",1,33.333,17.71,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",2,10,"t",1,100,12.8,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007792","09Apr2014.Plate.15",2,11,"t",1,100,11.82,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",7,10,"t",1,0.412,14.44,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",7,11,"t",1,0.412,13.32,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",6,10,"t",1,1.235,12.73,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",6,11,"t",1,1.235,14.44,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",5,10,"t",1,3.704,15.64,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",5,11,"t",1,3.704,16.09,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",4,10,"t",1,11.111,15.44,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",4,11,"t",1,11.111,13.66,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",3,10,"t",1,33.333,13.87,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",3,11,"t",1,33.333,14.86,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",2,10,"t",1,100,14.21,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007784","09Apr2014.Plate.31",2,11,"t",1,100,12.94,"2900-100644 TO3 DR 09Apr2014 Plate 31_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",7,4,"t",1,0.412,14.41,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",7,5,"t",1,0.412,13.54,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",6,4,"t",1,1.235,9.73,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",6,5,"t",1,1.235,12.83,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",5,4,"t",1,3.704,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",5,5,"t",1,3.704,13.28,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",4,5,"t",1,11.111,13.68,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",4,4,"t",1,11.111,12.37,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",3,5,"t",1,33.333,14.08,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",3,4,"t",1,33.333,16.41,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",2,4,"t",1,100,6.49,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",7,4,"t",1,0.008,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007602","09Apr2014.Plate.22",2,5,"t",1,100,7.7,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",7,5,"t",1,0.008,14.44,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",6,5,"t",1,0.025,15.26,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",6,4,"t",1,0.025,15.13,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",5,4,"t",1,0.074,12.86,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",4,4,"t",1,0.222,15.88,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",5,5,"t",1,0.074,11.58,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",4,5,"t",1,0.222,14.84,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",3,5,"t",1,0.667,14.15,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",3,4,"t",1,0.667,14.94,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",2,4,"t",1,2,14.31,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",7,8,"t",1,0.005,14.78,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007494","09Apr2014.Plate.16",2,5,"t",1,2,13.34,"2900-100644 TO3 DR 09Apr2014 Plate 16_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",7,9,"t",1,0.005,17.06,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",6,9,"t",1,0.015,11.54,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",6,8,"t",1,0.015,12.35,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",5,8,"t",1,0.044,14.09,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",4,8,"t",1,0.131,10.44,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",5,9,"t",1,0.044,10.3,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",4,9,"t",1,0.131,10.47,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",3,9,"t",1,0.393,9.51,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",3,8,"t",1,0.393,9.88,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",2,8,"t",1,1.18,9,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",7,4,"t",1,0.412,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007436","09Apr2014.Plate.14",2,9,"t",1,1.18,8.91,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",7,5,"t",1,0.412,10.88,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",6,4,"t",1,1.235,10.48,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",5,4,"t",1,3.704,11.25,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",6,5,"t",1,1.235,12.88,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",5,5,"t",1,3.704,10.77,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",4,5,"t",1,11.111,10.32,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",4,4,"t",1,11.111,7.94,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",3,4,"t",1,33.333,5.03,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",2,4,"t",1,100,0.82,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",3,5,"t",1,33.333,7.26,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",7,6,"t",1,0.008,58.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007354","09Apr2014.Plate.26",2,5,"t",1,100,0.74,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",7,7,"t",1,0.008,58.42,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",6,6,"t",1,0.025,70.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",6,7,"t",1,0.025,63.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",5,6,"t",1,0.074,76.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",5,7,"t",0,0.074,NA,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",4,6,"t",1,0.222,70.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",4,7,"t",1,0.222,65.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",3,6,"t",1,0.667,63.53,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",3,7,"t",1,0.667,65.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",2,7,"t",1,2,44.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007304","03Sep2014.Plate.21",2,6,"t",1,2,47.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",7,6,"t",1,0,15.01,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",7,7,"t",1,0,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",6,6,"t",1,0,14.18,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",6,7,"t",1,0,15.39,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",5,6,"t",1,0,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",5,7,"t",1,0,14.14,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",4,6,"t",1,0.001,18.54,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",4,7,"t",1,0.001,16.41,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",3,6,"t",1,0.003,18.33,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",3,7,"t",1,0.003,15.31,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",2,6,"t",1,0.01,16.58,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007257","09Apr2014.Plate.13",2,7,"t",1,0.01,15.34,"2900-100644 TO3 DR 09Apr2014 Plate 13_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",7,4,"t",1,0.041,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",7,5,"t",1,0.041,11.7,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",6,4,"t",1,0.123,13.08,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",6,5,"t",1,0.123,9.9,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",5,4,"t",1,0.37,14.38,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",5,5,"t",1,0.37,11.58,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",4,4,"t",1,1.111,14.22,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",4,5,"t",1,1.111,16.21,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",3,4,"t",1,3.333,13.72,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",3,5,"t",1,3.333,11.12,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",2,4,"t",1,10,7.45,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007207","09Apr2014.Plate.27",2,5,"t",1,10,6.79,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",7,4,"t",1,0.082,14.76,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",7,5,"t",1,0.082,14.2,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",6,4,"t",1,0.247,12.6,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",6,5,"t",1,0.247,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",5,4,"t",1,0.741,14.26,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",5,5,"t",1,0.741,11.87,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",4,5,"t",1,2.222,13.67,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",4,4,"t",1,2.222,14.11,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",3,5,"t",1,6.667,13.24,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",3,4,"t",1,6.667,15.56,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",2,4,"t",1,20,14.65,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",7,4,"t",1,0.082,62.51,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007199","09Apr2014.Plate.28",2,5,"t",1,20,13.45,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",7,5,"t",1,0.082,65.48,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",6,5,"t",1,0.247,66.95,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",6,4,"t",1,0.247,63.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",5,4,"t",1,0.741,83.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",5,5,"t",1,0.741,83.44,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",4,4,"t",1,2.222,84.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",4,5,"t",1,2.222,85.15,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",3,4,"t",1,6.667,71.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",3,5,"t",1,6.667,70.26,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",2,4,"t",1,20,58.96,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007188","03Sep2014.Plate.4",2,5,"t",1,20,54.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 4_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",7,4,"t",1,0.412,46.54,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",7,5,"t",1,0.412,51.03,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",6,4,"t",1,1.235,43.62,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",6,5,"t",1,1.235,38.08,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",5,4,"t",1,3.704,50.19,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",5,5,"t",1,3.704,37.18,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",4,4,"t",1,11.111,46.32,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",4,5,"t",1,11.111,48.98,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",3,4,"t",1,33.333,45.66,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",3,5,"t",1,33.333,44.73,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",2,4,"t",1,100,42.76,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX007156","02Apr2014.Plate.8",2,5,"t",1,100,38.66,"2900-100644 TO3 DR 02Apr2014 Plate 8_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",7,8,"t",1,0.082,65.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",7,9,"t",1,0.082,75.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",6,8,"t",1,0.247,73.88,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",6,9,"t",1,0.247,76.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",5,8,"t",1,0.741,76.67,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",5,9,"t",1,0.741,78.52,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",4,8,"t",1,2.222,81.94,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",4,9,"t",1,2.222,89.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",3,8,"t",1,6.667,81.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",3,9,"t",1,6.667,77.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",2,8,"t",1,20,63.35,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006949","03Sep2014.Plate.7",2,9,"t",1,20,68.68,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 7_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",7,6,"t",1,0.082,64.09,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",7,7,"t",1,0.082,65.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",6,7,"t",1,0.247,70.64,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",6,6,"t",1,0.247,66.02,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",5,6,"t",1,0.741,72.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",4,6,"t",1,2.222,53.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",5,7,"t",1,0.741,67.54,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",4,7,"t",1,2.222,55.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",3,7,"t",1,6.667,27.21,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",3,6,"t",1,6.667,29.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",2,6,"t",1,20,7.4,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",7,8,"t",1,0.412,19.99,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006887","03Sep2014.Plate.20",2,7,"t",1,20,8.16,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 20_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",7,9,"t",1,0.412,18.7,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",6,9,"t",1,1.235,12.44,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",6,8,"t",1,1.235,14.62,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",5,8,"t",1,3.704,15.8,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",4,8,"t",1,11.111,16.88,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",5,9,"t",1,3.704,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",4,9,"t",1,11.111,13.47,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",3,9,"t",1,33.333,15.34,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",3,8,"t",1,33.333,19.68,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",2,8,"t",1,100,18.02,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",7,10,"t",1,0.412,16.62,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006763","09Apr2014.Plate.15",2,9,"t",1,100,12.82,"2900-100644 TO3 DR 09Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",7,11,"t",1,0.412,12.35,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",6,11,"t",1,1.235,13.27,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",6,10,"t",1,1.235,13.12,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",5,10,"t",1,3.704,8.35,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",4,10,"t",1,11.111,3.28,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",5,11,"t",1,3.704,7.86,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",4,11,"t",1,11.111,2.65,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",3,11,"t",1,33.333,4,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",3,10,"t",1,33.333,4.95,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",2,10,"t",1,100,4.19,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",7,4,"t",1,0.082,59.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006695","09Apr2014.Plate.17",2,11,"t",1,100,3.62,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",7,5,"t",1,0.082,53.73,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",6,4,"t",1,0.247,65.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",6,5,"t",1,0.247,56.85,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",5,4,"t",1,0.741,45.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",5,5,"t",1,0.741,50.6,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",4,4,"t",1,2.222,22.08,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",3,4,"t",1,6.667,6.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",4,5,"t",1,2.222,22.03,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",3,5,"t",1,6.667,6.06,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",2,5,"t",1,20,2.33,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006656","03Sep2014.Plate.21",2,4,"t",1,20,2.43,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 21_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",7,4,"t",1,0.082,44.27,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",7,5,"t",1,0.082,40.62,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",6,5,"t",1,0.247,38.92,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",6,4,"t",1,0.247,46.03,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",5,4,"t",1,0.741,49.8,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",4,4,"t",1,2.222,46.64,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",5,5,"t",1,0.741,47.26,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",4,5,"t",1,2.222,41.65,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",3,5,"t",1,6.667,43.11,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",3,4,"t",1,6.667,42,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",2,4,"t",1,20,29.89,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",7,4,"t",1,0.082,47.57,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006393","02Apr2014.Plate.32",2,5,"t",1,20,29.93,"2900-100644 TO3 DR 02Apr2014 Plate 32_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",7,5,"t",1,0.082,39.1,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",6,5,"t",1,0.247,38.09,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",6,4,"t",1,0.247,47.51,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",5,4,"t",1,0.741,46.26,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",4,4,"t",1,2.222,47.01,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",5,5,"t",1,0.741,44.83,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",4,5,"t",1,2.222,33.02,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",3,5,"t",1,6.667,34.66,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",3,4,"t",1,6.667,36.03,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",2,4,"t",1,20,29.86,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",7,10,"t",1,0.082,33.61,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006305","02Apr2014.Plate.27",2,5,"t",1,20,24.02,"2900-100644 TO3 DR 02Apr2014 Plate 27_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",7,11,"t",1,0.082,35.46,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",6,11,"t",1,0.247,32.9,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",6,10,"t",1,0.247,33.27,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",5,10,"t",1,0.741,29.73,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",4,10,"t",1,2.222,25.08,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",5,11,"t",1,0.741,27.83,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",4,11,"t",1,2.222,26.65,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",3,10,"t",1,6.667,18.7,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",3,11,"t",1,6.667,21.36,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",2,10,"t",1,20,21.96,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006301","02Apr2014.Plate.6",2,11,"t",1,20,15.79,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",7,8,"t",1,0.008,43.64,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",7,9,"t",1,0.008,45.84,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",6,8,"t",1,0.025,51.33,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",6,9,"t",1,0.025,41.65,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",5,8,"t",1,0.074,50.14,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",5,9,"t",1,0.074,45.77,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",4,8,"t",1,0.222,41.8,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",4,9,"t",1,0.222,40.38,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",3,9,"t",1,0.667,14.24,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",3,8,"t",1,0.667,18.31,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",2,8,"t",1,2,1.44,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006299","02Apr2014.Plate.12",2,9,"t",1,2,1.6,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",7,9,"t",1,0.082,12.24,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",7,8,"t",1,0.082,15.29,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",6,8,"t",1,0.247,10.65,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",5,8,"t",1,0.741,9.48,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",6,9,"t",1,0.247,8.02,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",5,9,"t",1,0.741,9.74,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",4,9,"t",1,2.222,8.27,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",4,8,"t",1,2.222,10.43,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",3,8,"t",1,6.667,8.9,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",2,8,"t",1,20,8.79,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",3,9,"t",1,6.667,8.25,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006256","26Mar2014.Plate.14",2,9,"t",1,20,7.37,"2900-100644 TO3 DR 26Mar2014 Plate 14_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",7,7,"t",1,0.077,11.76,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",7,6,"t",1,0.077,13.25,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",6,6,"t",1,0.231,14.4,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",5,6,"t",1,0.693,11.12,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",6,7,"t",1,0.231,11.73,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",5,7,"t",1,0.693,11.68,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",4,7,"t",1,2.078,11.79,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",4,6,"t",1,2.078,10.78,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",3,6,"t",1,6.233,10.38,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",2,6,"t",1,18.7,11.26,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",3,7,"t",1,6.233,10.47,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006251","09Apr2014.Plate.4",2,7,"t",1,18.7,10.48,"2900-100644 TO3 DR 09Apr2014 Plate 4_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",7,11,"t",1,0.082,38.95,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",7,10,"t",1,0.082,40.98,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",6,10,"t",1,0.247,37.85,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",6,11,"t",1,0.247,42.3,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",5,10,"t",1,0.741,41.09,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",5,11,"t",1,0.741,40.58,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",4,10,"t",1,2.222,39.26,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",4,11,"t",1,2.222,40.64,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",3,10,"t",1,6.667,39.72,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",3,11,"t",1,6.667,37.99,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",2,10,"t",1,20,36.1,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006230","02Apr2014.Plate.9",2,11,"t",1,20,34.14,"2900-100644 TO3 DR 02Apr2014 Plate 9_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",7,6,"t",1,0.021,52.1,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",7,7,"t",1,0.021,43.45,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",6,6,"t",1,0.062,47.31,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",6,7,"t",1,0.062,40.93,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",5,6,"t",1,0.185,46.74,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",5,7,"t",1,0.185,47.37,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",4,6,"t",1,0.556,45.87,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",4,7,"t",1,0.556,42.55,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",3,6,"t",1,1.667,49.3,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",3,7,"t",1,1.667,45.96,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",2,6,"t",1,5,36.18,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006218","02Apr2014.Plate.14",2,7,"t",1,5,33.96,"2900-100644 TO3 DR 02Apr2014 Plate 14_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",7,4,"t",1,0.008,13.69,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",7,5,"t",1,0.008,11.54,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",6,4,"t",1,0.023,14.5,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",6,5,"t",1,0.023,12.12,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",5,4,"t",1,0.068,15.07,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",5,5,"t",1,0.068,12.29,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",4,4,"t",1,0.204,13.24,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",4,5,"t",1,0.204,10.63,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",3,4,"t",1,0.613,7.81,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",3,5,"t",1,0.613,8.5,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",2,4,"t",1,1.84,4.85,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006204","09Apr2014.Plate.2",2,5,"t",1,1.84,4.67,"2900-100644 TO3 DR 09Apr2014 Plate 2_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",7,10,"t",1,0.082,43.06,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",7,11,"t",1,0.082,49.41,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",6,10,"t",1,0.247,39.23,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",5,10,"t",1,0.741,36.88,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",6,11,"t",1,0.247,41.95,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",5,11,"t",1,0.741,34.1,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",4,11,"t",1,2.222,34.04,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",4,10,"t",1,2.222,31.77,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",3,11,"t",1,6.667,26.78,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",3,10,"t",1,6.667,24.1,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",2,10,"t",1,20,16.66,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006203","02Apr2014.Plate.12",2,11,"t",1,20,14.36,"2900-100644 TO3 DR 02Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",7,6,"t",1,0.038,14.63,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",7,7,"t",1,0.038,11.77,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",6,6,"t",1,0.115,13.5,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",6,7,"t",1,0.115,9.19,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",5,6,"t",1,0.344,8.58,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",5,7,"t",1,0.344,7.53,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",4,6,"t",1,1.033,6.49,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",4,7,"t",1,1.033,6.56,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",3,6,"t",1,3.1,6.79,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",3,7,"t",1,3.1,6.79,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",2,6,"t",1,9.3,8.28,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006202","09Apr2014.Plate.10",2,7,"t",1,9.3,7.36,"2900-100644 TO3 DR 09Apr2014 Plate 10_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",7,6,"t",1,0.082,55.84,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",7,7,"t",1,0.082,53.69,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",6,6,"t",1,0.247,53.59,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",6,7,"t",1,0.247,43.76,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",5,6,"t",1,0.741,54.82,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",5,7,"t",1,0.741,49.7,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",4,6,"t",1,2.222,51.59,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",4,7,"t",1,2.222,48.67,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",3,6,"t",1,6.667,45.5,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",3,7,"t",1,6.667,42.92,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",2,6,"t",1,20,29.32,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006198","02Apr2014.Plate.15",2,7,"t",1,20,25.26,"2900-100644 TO3 DR 02Apr2014 Plate 15_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",7,6,"t",1,0.082,49.4,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",7,7,"t",1,0.082,43.85,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",6,6,"t",1,0.247,45.92,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",5,6,"t",1,0.741,44.79,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",6,7,"t",1,0.247,43.36,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",4,6,"t",1,2.222,44.05,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",5,7,"t",1,0.741,42.41,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",4,7,"t",1,2.222,38.69,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",3,6,"t",1,6.667,44.66,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",3,7,"t",1,6.667,41.77,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",2,6,"t",1,20,40.92,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006180","02Apr2014.Plate.20",2,7,"t",1,20,39.65,"2900-100644 TO3 DR 02Apr2014 Plate 20_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",7,11,"t",1,0.082,9.81,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",7,10,"t",1,0.082,11.88,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",6,10,"t",1,0.247,10.56,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",6,11,"t",1,0.247,10.17,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",5,10,"t",1,0.741,10.32,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",4,10,"t",1,2.222,10.37,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",5,11,"t",1,0.741,9.34,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",4,11,"t",1,2.222,9.04,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",3,11,"t",1,6.667,9.27,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",3,10,"t",1,6.667,8.22,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",2,10,"t",1,20,8.58,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",7,6,"t",1,0.041,9.59,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006174","26Mar2014.Plate.12",2,11,"t",1,20,8.31,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",7,7,"t",1,0.041,9.7,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",6,7,"t",1,0.123,9.49,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",6,6,"t",1,0.123,9.35,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",5,6,"t",1,0.37,9.44,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",4,6,"t",1,1.111,9.15,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",5,7,"t",1,0.37,7.94,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",4,7,"t",1,1.111,7.87,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",3,7,"t",1,3.333,7.5,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",3,6,"t",1,3.333,9.36,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",2,6,"t",1,10,7.62,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",7,8,"t",1,0.041,6.15,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006160","26Mar2014.Plate.12",2,7,"t",1,10,7.24,"2900-100644 TO3 DR 26Mar2014 Plate 12_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",7,9,"t",1,0.041,6.45,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",6,9,"t",1,0.123,7.92,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",6,8,"t",1,0.123,8.64,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",5,8,"t",1,0.37,9.97,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",4,8,"t",1,1.111,9.69,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",5,9,"t",1,0.37,10.17,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",4,9,"t",1,1.111,9.87,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",3,9,"t",1,3.333,12.59,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",3,8,"t",1,3.333,9.68,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",2,8,"t",1,10,10.63,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",7,4,"t",1,0.041,9.13,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006157","26Mar2014.Plate.20",2,9,"t",1,10,10.09,"2900-100644 TO3 DR 26Mar2014 Plate 20_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",7,5,"t",1,0.041,9.39,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",6,5,"t",1,0.123,7.21,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",6,4,"t",1,0.123,9.43,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",5,4,"t",1,0.37,8.84,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",4,4,"t",1,1.111,7.33,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",5,5,"t",1,0.37,8.92,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",4,5,"t",1,1.111,8.23,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",3,4,"t",1,3.333,10.01,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",3,5,"t",1,3.333,10.4,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",2,5,"t",1,10,9.46,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006153","26Mar2014.Plate.18",2,4,"t",1,10,6.34,"2900-100644 TO3 DR 26Mar2014 Plate 18_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",7,6,"t",1,0.008,48.82,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",6,6,"t",1,0.025,48.15,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",7,7,"t",1,0.008,36.84,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",6,7,"t",1,0.025,35.39,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",5,7,"t",1,0.074,37.97,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",5,6,"t",1,0.074,45.93,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",4,6,"t",1,0.222,46.2,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",3,6,"t",1,0.667,57.93,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",4,7,"t",1,0.222,44.9,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",3,7,"t",1,0.667,49.36,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",2,6,"t",1,2,60.72,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006143","02Apr2014.Plate.6",2,7,"t",1,2,57.12,"2900-100644 TO3 DR 02Apr2014 Plate 6_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",7,4,"t",1,0.412,17.07,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",7,5,"t",1,0.412,14.9,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",6,4,"t",1,1.235,20.54,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",6,5,"t",1,1.235,14.99,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",5,4,"t",1,3.704,15.98,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",5,5,"t",1,3.704,13.37,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",4,4,"t",1,11.111,17.17,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",4,5,"t",1,11.111,13,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",3,4,"t",1,33.333,22.39,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",3,5,"t",1,33.333,18.86,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",2,4,"t",1,100,33.84,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX006045","09Apr2014.Plate.12",2,5,"t",1,100,30.92,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",7,6,"t",1,0.206,16.6,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",7,7,"t",1,0.206,15.82,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",6,6,"t",1,0.617,18.02,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",6,7,"t",1,0.617,17.32,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",5,6,"t",1,1.852,15.81,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",5,7,"t",1,1.852,16.32,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",4,6,"t",1,5.556,13.3,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",4,7,"t",1,5.556,14.73,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",3,6,"t",1,16.667,16.8,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",3,7,"t",1,16.667,17.38,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",2,6,"t",1,50,19.52,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005790","09Apr2014.Plate.11",2,7,"t",1,50,16.45,"2900-100644 TO3 DR 09Apr2014 Plate 11_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",7,10,"t",1,0.412,10.65,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",7,11,"t",1,0.412,7.65,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",6,10,"t",1,1.235,5.58,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",6,11,"t",1,1.235,4.96,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",5,10,"t",1,3.704,5.77,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",5,11,"t",1,3.704,4.65,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",4,10,"t",1,11.111,2.18,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",4,11,"t",1,11.111,1.52,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",3,10,"t",1,33.333,1.11,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",3,11,"t",1,33.333,1,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",2,10,"t",1,100,0.71,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005767","09Apr2014.Plate.30",2,11,"t",1,100,0.63,"2900-100644 TO3 DR 09Apr2014 Plate 30_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",7,8,"t",1,0.412,19.31,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",7,9,"t",1,0.412,17.47,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",6,8,"t",1,1.235,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",6,9,"t",1,1.235,13.31,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",5,8,"t",1,3.704,18.07,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",4,8,"t",1,11.111,15.44,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",5,9,"t",1,3.704,16.5,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",4,9,"t",1,11.111,15.34,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",3,9,"t",1,33.333,19.15,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",3,8,"t",1,33.333,17.4,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",2,8,"t",1,100,17,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",7,4,"t",1,0.412,14.32,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005519","09Apr2014.Plate.19",2,9,"t",1,100,15.49,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",7,5,"t",1,0.412,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",6,5,"t",1,1.235,15.37,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",6,4,"t",1,1.235,14.2,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",5,4,"t",1,3.704,15.3,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",4,4,"t",1,11.111,12.68,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",5,5,"t",1,3.704,14.86,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",4,5,"t",1,11.111,12.79,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",3,5,"t",1,33.333,15.37,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",3,4,"t",1,33.333,17.37,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",2,4,"t",1,100,17.73,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",7,8,"t",1,0.412,14.83,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005479","09Apr2014.Plate.17",2,5,"t",1,100,14.17,"2900-100644 TO3 DR 09Apr2014 Plate 17_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",7,9,"t",1,0.412,14.24,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",6,9,"t",1,1.235,12.16,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",6,8,"t",1,1.235,13.91,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",5,8,"t",1,3.704,14.9,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",4,8,"t",1,11.111,14.17,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",5,9,"t",1,3.704,10.69,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",4,9,"t",1,11.111,12.18,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",3,9,"t",1,33.333,11.11,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",3,8,"t",1,33.333,12.44,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",2,8,"t",1,100,11.19,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",7,8,"t",1,0.008,57.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005465","09Apr2014.Plate.28",2,9,"t",1,100,8.34,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",7,9,"t",1,0.008,59.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",6,9,"t",1,0.025,67.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",6,8,"t",1,0.025,69.28,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",5,8,"t",1,0.074,69.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",4,8,"t",1,0.222,62.79,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",5,9,"t",1,0.074,72.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",4,9,"t",1,0.222,58.31,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",3,9,"t",1,0.667,50.74,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",3,8,"t",1,0.667,55.63,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",2,8,"t",1,2,32.78,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",7,6,"t",1,0.412,17.18,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005400","03Sep2014.Plate.2",2,9,"t",1,2,30.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 2_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",7,7,"t",1,0.412,16.09,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",6,7,"t",1,1.235,12.7,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",6,6,"t",1,1.235,13.09,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",5,6,"t",1,3.704,15.31,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",4,6,"t",1,11.111,16.99,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",5,7,"t",1,3.704,12.6,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",4,7,"t",1,11.111,12.93,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",3,7,"t",1,33.333,16.14,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",3,6,"t",1,33.333,17.07,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",2,6,"t",1,100,9.07,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",7,10,"t",1,0.412,13.84,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX005228","09Apr2014.Plate.19",2,7,"t",1,100,7.2,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",7,11,"t",1,0.412,15.5,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",6,11,"t",1,1.235,13.9,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",6,10,"t",1,1.235,14.57,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",5,10,"t",1,3.704,15.38,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",4,10,"t",1,11.111,15.06,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",5,11,"t",1,3.704,12.61,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",4,11,"t",1,11.111,13.83,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",3,11,"t",1,33.333,19.04,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",3,10,"t",1,33.333,21.04,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",2,10,"t",1,100,11.9,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",7,6,"t",1,0.004,11.96,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004973","09Apr2014.Plate.33",2,11,"t",1,100,9.61,"2900-100644 TO3 DR 09Apr2014 Plate 33_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",7,7,"t",1,0.004,10.47,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",6,7,"t",1,0.012,10.08,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",6,6,"t",1,0.012,11.63,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",5,6,"t",1,0.037,10.19,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",4,6,"t",1,0.111,13.42,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",5,7,"t",1,0.037,11.94,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",4,7,"t",1,0.111,12.66,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",3,7,"t",1,0.333,13.27,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",3,6,"t",1,0.333,14.73,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",2,6,"t",1,1,15.56,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",7,10,"t",1,0.412,11.41,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004947","09Apr2014.Plate.25",2,7,"t",1,1,14.74,"2900-100644 TO3 DR 09Apr2014 Plate 25_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",7,11,"t",1,0.412,12.1,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",6,11,"t",1,1.235,11.62,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",6,10,"t",1,1.235,13.52,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",5,10,"t",1,3.704,10.04,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",4,10,"t",1,11.111,13.14,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",5,11,"t",1,3.704,10.75,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",4,11,"t",1,11.111,13.63,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",3,11,"t",1,33.333,10.3,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",3,10,"t",1,33.333,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",2,10,"t",1,100,13.39,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",7,10,"t",1,0.412,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004903","09Apr2014.Plate.26",2,11,"t",1,100,13.35,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",7,11,"t",1,0.412,14.86,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",6,11,"t",1,1.235,11.94,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",6,10,"t",1,1.235,15.93,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",5,10,"t",1,3.704,14.45,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",4,10,"t",1,11.111,15.25,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",5,11,"t",1,3.704,14.34,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",4,11,"t",1,11.111,16.03,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",3,11,"t",1,33.333,20.93,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",3,10,"t",1,33.333,21.8,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",2,10,"t",1,100,35.61,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",7,6,"t",1,0.412,12.55,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004809","09Apr2014.Plate.29",2,11,"t",1,100,30.85,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",7,7,"t",1,0.412,12.9,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",6,7,"t",1,1.235,11.09,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",6,6,"t",1,1.235,12.98,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",5,6,"t",1,3.704,11.85,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",5,7,"t",1,3.704,12.74,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",4,6,"t",1,11.111,12.46,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",4,7,"t",1,11.111,11.57,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",3,6,"t",1,33.333,13.89,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",3,7,"t",1,33.333,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",2,6,"t",1,100,7.46,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004631","09Apr2014.Plate.22",2,7,"t",1,100,6.52,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",7,6,"t",1,0.412,15.03,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",7,7,"t",1,0.412,13.66,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",6,6,"t",1,1.235,13.55,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",6,7,"t",1,1.235,10.57,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",5,6,"t",1,3.704,12.11,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",5,7,"t",1,3.704,11.03,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",4,6,"t",1,11.111,11.27,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",4,7,"t",1,11.111,8.98,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",3,6,"t",1,33.333,9.05,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",3,7,"t",1,33.333,6.31,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",2,6,"t",1,100,4.22,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004547","09Apr2014.Plate.27",2,7,"t",1,100,2.84,"2900-100644 TO3 DR 09Apr2014 Plate 27_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",7,10,"t",1,0.412,12.28,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",7,11,"t",1,0.412,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",6,10,"t",1,1.235,12.36,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",6,11,"t",1,1.235,10.74,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",5,10,"t",1,3.704,11.2,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",5,11,"t",1,3.704,9.46,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",4,10,"t",1,11.111,11.77,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",4,11,"t",1,11.111,11.34,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",3,10,"t",1,33.333,10.48,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",3,11,"t",1,33.333,7.65,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",2,10,"t",1,100,6.69,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004545","09Apr2014.Plate.14",2,11,"t",1,100,5.38,"2900-100644 TO3 DR 09Apr2014 Plate 14_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",7,10,"t",1,0.412,19.74,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",7,11,"t",1,0.412,16.8,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",6,10,"t",1,1.235,15.54,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",6,11,"t",1,1.235,15.29,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",5,10,"t",1,3.704,17.92,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",5,11,"t",1,3.704,14.97,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",4,10,"t",1,11.111,20.64,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",4,11,"t",1,11.111,18.36,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",3,10,"t",1,33.333,21.97,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",3,11,"t",1,33.333,21.54,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",2,10,"t",1,100,7,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004541","09Apr2014.Plate.19",2,11,"t",1,100,6.49,"2900-100644 TO3 DR 09Apr2014 Plate 19_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",7,8,"t",1,0.412,13.45,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",7,9,"t",1,0.412,12.53,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",6,8,"t",1,1.235,12.46,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",6,9,"t",1,1.235,10.55,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",5,8,"t",1,3.704,7.71,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",5,9,"t",1,3.704,6.44,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",4,8,"t",1,11.111,1.54,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",4,9,"t",1,11.111,1.46,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",3,8,"t",1,33.333,0.96,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",3,9,"t",1,33.333,0.88,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",2,8,"t",1,100,0.62,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004539","09Apr2014.Plate.22",2,9,"t",1,100,0.64,"2900-100644 TO3 DR 09Apr2014 Plate 22_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",7,4,"t",1,0.082,14.8,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",7,5,"t",1,0.082,11.61,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",6,4,"t",1,0.247,12.51,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",6,5,"t",1,0.247,12.09,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",5,4,"t",1,0.741,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",5,5,"t",1,0.741,11.3,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",4,4,"t",1,2.222,10.92,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",4,5,"t",1,2.222,10.51,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",3,4,"t",1,6.667,6.67,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",3,5,"t",1,6.667,6.96,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",2,4,"t",1,20,3.15,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004525","09Apr2014.Plate.23",2,5,"t",1,20,2.87,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",7,4,"t",1,0.082,60.91,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",7,5,"t",1,0.082,61.83,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",6,4,"t",1,0.247,61.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",6,5,"t",1,0.247,60.24,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",5,4,"t",1,0.741,59.22,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",5,5,"t",1,0.741,69.98,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",4,4,"t",1,2.222,50,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",4,5,"t",1,2.222,55.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",3,4,"t",1,6.667,38.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",3,5,"t",1,6.667,43.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",2,4,"t",1,20,24.38,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004516","03Sep2014.Plate.5",2,5,"t",1,20,27.39,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 5_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",7,8,"t",1,0.412,10.01,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",7,9,"t",1,0.412,9.54,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",6,8,"t",1,1.235,8.53,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",6,9,"t",1,1.235,8.84,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",5,8,"t",1,3.704,8.42,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",5,9,"t",1,3.704,6.51,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",4,8,"t",1,11.111,5.64,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",4,9,"t",1,11.111,6.41,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",3,9,"t",1,33.333,4.04,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",3,8,"t",1,33.333,4.44,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",2,8,"t",1,100,0.83,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",7,8,"t",1,0.412,13.67,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004513","09Apr2014.Plate.23",2,9,"t",1,100,0.64,"2900-100644 TO3 DR 09Apr2014 Plate 23_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",6,8,"t",1,1.235,13.13,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",7,9,"t",1,0.412,14.59,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",6,9,"t",1,1.235,12.47,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",5,9,"t",1,3.704,13.91,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",5,8,"t",1,3.704,15.6,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",4,8,"t",1,11.111,17.28,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",3,8,"t",1,33.333,9.32,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",4,9,"t",1,11.111,15.57,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",3,9,"t",1,33.333,6.04,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",2,9,"t",1,100,5.69,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004511","09Apr2014.Plate.26",2,8,"t",1,100,7.37,"2900-100644 TO3 DR 09Apr2014 Plate 26_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",7,8,"t",1,0.412,14.64,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",6,8,"t",1,1.235,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",7,9,"t",1,0.412,11.06,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",6,9,"t",1,1.235,10.52,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",5,9,"t",1,3.704,12.43,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",5,8,"t",1,3.704,14,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",4,8,"t",1,11.111,14.95,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",3,8,"t",1,33.333,18.36,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",4,9,"t",1,11.111,14.41,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",3,9,"t",1,33.333,14.41,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",2,9,"t",1,100,12.24,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004507","09Apr2014.Plate.29",2,8,"t",1,100,12.05,"2900-100644 TO3 DR 09Apr2014 Plate 29_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",7,6,"t",1,0.412,15.05,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",6,6,"t",1,1.235,14.1,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",7,7,"t",1,0.412,15.01,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",6,7,"t",1,1.235,12.03,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",5,6,"t",1,3.704,13.34,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",4,6,"t",1,11.111,10.15,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",5,7,"t",1,3.704,12.59,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",4,7,"t",1,11.111,10.87,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",3,7,"t",1,33.333,7.16,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",3,6,"t",1,33.333,9.14,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",2,6,"t",1,100,3.8,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",7,10,"t",1,0.412,12.56,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004485","09Apr2014.Plate.20",2,7,"t",1,100,3.46,"2900-100644 TO3 DR 09Apr2014 Plate 20_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",7,11,"t",1,0.412,11.23,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",6,11,"t",1,1.235,10.87,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",6,10,"t",1,1.235,12.79,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",5,10,"t",1,3.704,14.29,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",4,10,"t",1,11.111,14.59,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",5,11,"t",1,3.704,12.49,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",4,11,"t",1,11.111,10.61,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",3,11,"t",1,33.333,12.71,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",3,10,"t",1,33.333,16.62,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",2,10,"t",1,100,22.95,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",7,8,"t",1,0.412,15.45,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004479","09Apr2014.Plate.32",2,11,"t",1,100,17.09,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",7,9,"t",1,0.412,11.28,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",6,9,"t",1,1.235,12.7,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",6,8,"t",1,1.235,14.7,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",5,8,"t",1,3.704,16.61,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",4,8,"t",1,11.111,13.38,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",5,9,"t",1,3.704,12.48,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",4,9,"t",1,11.111,11.65,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",3,9,"t",1,33.333,11.7,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",3,8,"t",1,33.333,12.98,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",2,8,"t",1,100,8.63,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",7,6,"t",1,0.082,57.82,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004358","09Apr2014.Plate.32",2,9,"t",1,100,7.37,"2900-100644 TO3 DR 09Apr2014 Plate 32_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",7,7,"t",1,0.082,59.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",6,7,"t",1,0.247,61.04,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",6,6,"t",1,0.247,64.56,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",5,6,"t",1,0.741,67.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",4,6,"t",1,2.222,62.13,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",5,7,"t",1,0.741,64.07,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",4,7,"t",1,2.222,66.69,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",3,7,"t",1,6.667,63.1,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",3,6,"t",1,6.667,61.93,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",2,6,"t",1,20,65.9,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",7,10,"t",1,0.412,14.2,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004310","03Sep2014.Plate.9",2,7,"t",1,20,69.25,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 9_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",7,11,"t",1,0.412,12.21,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",6,11,"t",1,1.235,12.37,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",6,10,"t",1,1.235,11.32,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",5,10,"t",1,3.704,13.93,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",5,11,"t",1,3.704,12.69,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",4,10,"t",1,11.111,16.82,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",4,11,"t",1,11.111,13.67,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",3,10,"t",1,33.333,13.72,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",3,11,"t",1,33.333,11.42,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",2,11,"t",1,100,12.38,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004209","09Apr2014.Plate.28",2,10,"t",1,100,17.65,"2900-100644 TO3 DR 09Apr2014 Plate 28_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",7,10,"t",1,0.082,51.92,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",7,11,"t",1,0.082,60.72,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",6,10,"t",1,0.247,64.36,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",6,11,"t",1,0.247,60.47,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",5,10,"t",1,0.741,58.8,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",5,11,"t",1,0.741,54.12,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",4,10,"t",1,2.222,65.29,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",7,7,"t",1,0.412,14.98,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004193","09Apr2014.Plate.12",7,6,"t",1,0.412,17.01,"2900-100644 TO3 DR 09Apr2014 Plate 12_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",2,11,"t",1,20,32.97,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",2,10,"t",1,20,30.57,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",3,11,"t",1,6.667,54.75,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",3,10,"t",1,6.667,49.66,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" +"TX004206","03Sep2014.Plate.17",4,11,"t",1,2.222,61.5,"2900-TO3 PhIII E1K Set 2 86 DR 03Sep2014 Plate 17_Cyprotex.csv","cort" diff --git a/inst/sql/scdat.csv b/inst/sql/scdat.csv index 38f0204..8793045 100644 --- a/inst/sql/scdat.csv +++ b/inst/sql/scdat.csv @@ -1,4897 +1,4897 @@ -"spid","apid","rowi","coli","wllt","wllq","conc","rval","srcf","acsn" -"01140000A","TP0001059.Plate.8",4,6,"t",1,100.1,16.13,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140000A","TP0001059.Plate.8",5,6,"t",1,100.1,17.27,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140002A","TP0001061.Plate.14",6,9,"t",1,100.1,25.87,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140002A","TP0001061.Plate.14",7,9,"t",1,100.1,24.16,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140004A","TP0001059.Plate.5",4,3,"t",1,100,7.67,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140004A","TP0001059.Plate.5",5,3,"t",1,100,6.98,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140006A","TP0001054.Plate.1",2,6,"t",1,99.9,17.4,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140006A","TP0001054.Plate.1",3,6,"t",1,99.9,24.86,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140008A","TP0001054.Plate.2",2,10,"t",1,99.9,23.01,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140008A","TP0001054.Plate.2",3,10,"t",1,99.9,24.3,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140010A","TP0001054.Plate.3",4,9,"t",1,100,26.29,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140010A","TP0001054.Plate.3",5,9,"t",1,100,28.75,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140012A","TP0001056.Plate.12",6,9,"t",1,100,31.06,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140012A","TP0001056.Plate.12",7,9,"t",1,100,28.26,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140014A","TP0001061.Plate.13",6,9,"t",1,100.1,22.73,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140014A","TP0001061.Plate.13",7,9,"t",1,100.1,21.94,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140016A","TP0001054.Plate.1",4,9,"t",1,20,23.24,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140016A","TP0001054.Plate.1",5,9,"t",1,20,17.97,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140018A","TP0001054.Plate.3",6,10,"t",1,100,36.9,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140018A","TP0001054.Plate.3",7,10,"t",1,100,38.1,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140020A","TP0001054.Plate.2",2,6,"t",1,100.1,20.73,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140020A","TP0001054.Plate.2",3,6,"t",1,100.1,27.74,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140022A","PhaseII.VR.Plate.5",4,4,"t",1,10.01,15.88,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140022A","PhaseII.VR.Plate.5",5,4,"t",1,10.01,19.97,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140024A","TP0001056.Plate.9",2,10,"t",1,100.1,21.59,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140024A","TP0001056.Plate.9",3,10,"t",1,100.1,31.79,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140026A","TP0001059.Plate.5",2,10,"t",1,99.9,14.5,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140026A","TP0001059.Plate.5",3,10,"t",1,99.9,13.93,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140028A","TP0001056.Plate.11",4,7,"t",1,50.1,19.18,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140028A","TP0001056.Plate.11",5,7,"t",1,50.1,27.34,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140030A","PhaseII.VR.Plate.1",4,3,"t",1,10.01,12.07,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140030A","PhaseII.VR.Plate.1",5,3,"t",1,10.01,11.41,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140032A","PhaseII.VR.Plate.8",6,7,"t",1,1,12.29,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140032A","PhaseII.VR.Plate.8",7,7,"t",1,1,14.12,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140034A","TP0001057.Plate.16",2,7,"t",1,20,27.47,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140034A","TP0001057.Plate.16",3,7,"t",1,20,30.49,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140036A","TP0001058.Plate.3",2,6,"t",1,100.1,19.41,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140036A","TP0001058.Plate.3",3,6,"t",1,100.1,24.4,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140038A","TP0001057.Plate.15",6,7,"t",1,99.9,29.17,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140038A","TP0001057.Plate.15",7,7,"t",1,99.9,27.72,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140040A","TP0001057.Plate.14",2,9,"t",1,20,28.9,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140040A","TP0001057.Plate.14",3,9,"t",1,20,28.8,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140042A","TP0001060.Plate.10",2,4,"t",1,100.1,28.33,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140042A","TP0001060.Plate.10",3,4,"t",1,100.1,26.22,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140044A","TP0001054.Plate.8",4,7,"t",1,100,17.12,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140044A","TP0001054.Plate.8",5,7,"t",1,100,16.3,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140046A","TP0001057.Plate.15",2,4,"t",1,99.9,33.28,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140046A","TP0001057.Plate.15",3,4,"t",1,99.9,30.2,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140048A","TP0001054.Plate.7",2,9,"t",1,100.1,28.98,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140048A","TP0001054.Plate.7",3,9,"t",1,100.1,27.61,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140050A","TP0001059.Plate.6",2,3,"t",1,100,29.51,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140050A","TP0001059.Plate.6",3,3,"t",1,100,28.36,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140052A","TP0001059.Plate.6",4,7,"t",1,100,21.31,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140052A","TP0001059.Plate.6",5,7,"t",1,100,23.5,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140054A","TP0001060.Plate.12",4,3,"t",1,100,21.78,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140054A","TP0001060.Plate.12",5,3,"t",1,100,25.09,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140056A","TP0001057.Plate.15",2,3,"t",1,99.9,30.95,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140056A","TP0001057.Plate.15",3,3,"t",1,99.9,28.03,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140058A","TP0001060.Plate.12",4,9,"t",1,100,6.92,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140058A","TP0001060.Plate.12",5,9,"t",1,100,6.92,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140060A","TP0001060.Plate.11",4,7,"t",1,100,19.07,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140060A","TP0001060.Plate.11",5,7,"t",1,100,19.93,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140062A","TP0001061.Plate.14",6,5,"t",1,100,23.59,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140062A","TP0001061.Plate.14",7,5,"t",1,100,21.93,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140064A","TP0001055.Plate.5",6,9,"t",1,100,5.48,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140064A","TP0001055.Plate.5",7,9,"t",1,100,6.07,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140066A","TP0001061.Plate.14",2,8,"t",1,99.9,25.63,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140066A","TP0001061.Plate.14",3,8,"t",1,99.9,25.38,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140068A","TP0001057.Plate.13",2,4,"t",1,20,32.73,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140068A","TP0001057.Plate.13",3,4,"t",1,20,35.46,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140070A","TP0001060.Plate.10",4,6,"t",1,99.9,21.21,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140070A","TP0001060.Plate.10",5,6,"t",1,99.9,25.51,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140072A","TP0001058.Plate.1",6,9,"t",1,99.9,6.02,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140072A","TP0001058.Plate.1",7,9,"t",1,99.9,5.56,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140074A","PhaseII.VR.Plate.3",4,8,"t",1,10,14.86,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140074A","PhaseII.VR.Plate.3",5,8,"t",1,10,16.82,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140076A","TP0001058.Plate.3",2,9,"t",1,100.1,14.04,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140076A","TP0001058.Plate.3",3,9,"t",1,100.1,16.33,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140078A","TP0001057.Plate.13",4,5,"t",1,99.9,28.15,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140078A","TP0001057.Plate.13",5,5,"t",1,99.9,26.42,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140080A","TP0001054.Plate.7",2,7,"t",1,100,32.94,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140080A","TP0001054.Plate.7",3,7,"t",1,100,33.92,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140082A","PhaseII.VR.Plate.2",6,10,"t",1,10.01,15.62,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140082A","PhaseII.VR.Plate.2",7,10,"t",1,10.01,16.31,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140084A","TP0001060.Plate.11",4,4,"t",1,99.9,23.78,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140084A","TP0001060.Plate.11",5,4,"t",1,99.9,24.53,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140086A","TP0001054.Plate.7",6,8,"t",1,99.9,35.13,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140086A","TP0001054.Plate.7",7,8,"t",1,99.9,33.74,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140088A","TP0001054.Plate.1",2,3,"t",1,100,11.78,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140088A","TP0001054.Plate.1",3,3,"t",1,100,23.57,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140090A","TP0001056.Plate.11",6,10,"t",1,100.1,30.36,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140090A","TP0001056.Plate.11",7,10,"t",1,100.1,29.55,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140092A","TP0001060.Plate.10",6,4,"t",1,100.1,25.38,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140092A","TP0001060.Plate.10",7,4,"t",1,100.1,26.35,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140094A","TP0001054.Plate.3",4,5,"t",1,99.9,29.66,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140094A","TP0001054.Plate.3",5,5,"t",1,99.9,39.17,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140096A","TP0001055.Plate.5",2,9,"t",1,100.1,23.95,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140096A","TP0001055.Plate.5",3,9,"t",1,100.1,23.21,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140098A","PhaseII.VR.Plate.2",4,9,"t",1,10,13.29,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140098A","PhaseII.VR.Plate.2",5,9,"t",1,10,14.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140100A","TP0001054.Plate.7",4,10,"t",1,100,29.75,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140100A","TP0001054.Plate.7",5,10,"t",1,100,29.47,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140102A","TP0001061.Plate.14",2,9,"t",1,100.1,24.74,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140102A","TP0001061.Plate.14",3,9,"t",1,100.1,22.75,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140104A","TP0001055.Plate.6",2,3,"t",1,100.1,20.19,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140104A","TP0001055.Plate.6",3,3,"t",1,100.1,23.69,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140106A","TP0001055.Plate.6",2,10,"t",1,99.9,21.76,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140106A","TP0001055.Plate.6",3,10,"t",1,99.9,24.12,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140108A","TP0001060.Plate.10",6,10,"t",1,99.9,25.33,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140108A","TP0001060.Plate.10",7,10,"t",1,99.9,24.81,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140110A","TP0001058.Plate.2",6,6,"t",1,100,24.22,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140110A","TP0001058.Plate.2",7,6,"t",1,100,23.15,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140112A","TP0001058.Plate.3",4,3,"t",1,100,27.21,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140112A","TP0001058.Plate.3",5,3,"t",1,100,25.34,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140114A","TP0001056.Plate.10",6,5,"t",1,99.9,20.97,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140114A","TP0001056.Plate.10",7,5,"t",1,99.9,22.93,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140116A","TP0001057.Plate.16",6,8,"t",1,99.9,33.76,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140116A","TP0001057.Plate.16",7,8,"t",1,99.9,28.95,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140118A","TP0001061.Plate.15",4,10,"t",1,99.9,22.96,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140118A","TP0001061.Plate.15",5,10,"t",1,99.9,23.22,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140120A","PhaseII.VR.Plate.2",4,7,"t",1,9.99,11.64,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140120A","PhaseII.VR.Plate.2",5,7,"t",1,9.99,14.78,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140122A","TP0001058.Plate.4",2,6,"t",1,100.1,25.68,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140122A","TP0001058.Plate.4",3,6,"t",1,100.1,29.08,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140124A","TP0001057.Plate.13",4,3,"t",1,100,28.32,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140124A","TP0001057.Plate.13",5,3,"t",1,100,26.81,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140126A","TP0001059.Plate.8",4,4,"t",1,99.9,17.11,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140126A","TP0001059.Plate.8",5,4,"t",1,99.9,18.53,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140128A","TP0001055.Plate.5",4,3,"t",1,100,13.54,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140128A","TP0001055.Plate.5",5,3,"t",1,100,23.39,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140130A","TP0001056.Plate.10",6,4,"t",1,99.9,26.15,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140130A","TP0001056.Plate.10",7,4,"t",1,99.9,27.74,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140132A","TP0001055.Plate.5",6,6,"t",1,99.9,33.49,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140132A","TP0001055.Plate.5",7,6,"t",1,99.9,31.23,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140134A","TP0001054.Plate.7",2,4,"t",1,99.9,31.28,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140134A","TP0001054.Plate.7",3,4,"t",1,99.9,34.13,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140136A","TP0001054.Plate.7",2,3,"t",1,99.9,25.43,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140136A","TP0001054.Plate.7",3,3,"t",1,99.9,25.15,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140138A","TP0001061.Plate.13",6,8,"t",1,99.9,13.85,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140138A","TP0001061.Plate.13",7,8,"t",1,99.9,13.98,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140140A","TP0001061.Plate.15",2,10,"t",1,100,20.54,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140140A","TP0001061.Plate.15",3,10,"t",1,100,22.96,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140142A","TP0001060.Plate.12",6,7,"t",1,100,5.4,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140142A","TP0001060.Plate.12",7,7,"t",1,100,5.85,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140144A","TP0001057.Plate.13",6,7,"t",1,100,27.77,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140144A","TP0001057.Plate.13",7,7,"t",1,100,26.24,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140146A","PhaseII.VR.Plate.7",4,3,"t",1,1,11.85,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140146A","PhaseII.VR.Plate.7",5,3,"t",1,1,11.58,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140148A","TP0001061.Plate.13",2,6,"t",1,99.9,22,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140148A","TP0001061.Plate.13",3,6,"t",1,99.9,23.03,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140150A","TP0001057.Plate.16",2,9,"t",1,100,2.28,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140150A","TP0001057.Plate.16",3,9,"t",1,100,2.38,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140152A","TP0001056.Plate.12",2,9,"t",1,100.1,26.39,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140152A","TP0001056.Plate.12",3,9,"t",1,100.1,31.45,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140154A","TP0001056.Plate.12",6,4,"t",1,99.9,28.59,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140154A","TP0001056.Plate.12",7,4,"t",1,99.9,29.41,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140156A","TP0001054.Plate.3",4,8,"t",1,99.9,27.94,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140156A","TP0001054.Plate.3",5,8,"t",1,99.9,30.17,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140158A","TP0001054.Plate.4",4,10,"t",1,100.1,26.72,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140158A","TP0001054.Plate.4",5,10,"t",1,100.1,22.07,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140160A","TP0001060.Plate.12",2,9,"t",1,100,23.65,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140160A","TP0001060.Plate.12",3,9,"t",1,100,21.41,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140162A","TP0001061.Plate.16",2,9,"t",1,20,19.36,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140162A","TP0001061.Plate.16",3,9,"t",1,20,21.9,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140164A","TP0001062.Plate.17",2,9,"t",1,50,37.85,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140164A","TP0001062.Plate.17",3,9,"t",1,50,44.99,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140166A","TP0001058.Plate.4",4,9,"t",1,100,27.4,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140166A","TP0001058.Plate.4",5,9,"t",1,100,24.61,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140168A","TP0001056.Plate.12",2,4,"t",1,100.1,28.26,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140168A","TP0001056.Plate.12",3,4,"t",1,100.1,29.76,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140170A","PhaseII.VR.Plate.8",4,6,"t",1,1,7.28,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140170A","PhaseII.VR.Plate.8",5,6,"t",1,1,7.12,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140172A","TP0001059.Plate.7",6,5,"t",1,100.1,28.89,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140172A","TP0001059.Plate.7",7,5,"t",1,100.1,26.53,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140174A","TP0001058.Plate.4",6,4,"t",1,100.1,27.71,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140174A","TP0001058.Plate.4",7,4,"t",1,100.1,26.16,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140176A","PhaseII.VR.Plate.4",2,8,"t",1,10,13.37,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140176A","PhaseII.VR.Plate.4",3,8,"t",1,10,14.06,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140178A","PhaseII.VR.Plate.2",6,4,"t",1,10,8.9,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140178A","PhaseII.VR.Plate.2",7,4,"t",1,10,13.18,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140180A","TP0001054.Plate.1",6,9,"t",1,99.9,16.25,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140180A","TP0001054.Plate.1",7,9,"t",1,99.9,20.08,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140182A","TP0001054.Plate.4",2,6,"t",1,100.1,27.43,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140182A","TP0001054.Plate.4",3,6,"t",1,100.1,30.21,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140184A","TP0001058.Plate.4",6,3,"t",1,100.1,23.59,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140184A","TP0001058.Plate.4",7,3,"t",1,100.1,22.52,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140186A","PhaseII.VR.Plate.5",4,9,"t",1,9.99,8.36,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140186A","PhaseII.VR.Plate.5",5,9,"t",1,9.99,7.88,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140188A","TP0001060.Plate.12",6,6,"t",1,100.1,23.8,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140188A","TP0001060.Plate.12",7,6,"t",1,100.1,24.16,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140190A","TP0001057.Plate.15",2,9,"t",1,100,46.47,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140190A","TP0001057.Plate.15",3,9,"t",1,100,42.11,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140192A","TP0001055.Plate.5",6,5,"t",1,100.1,27.49,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140192A","TP0001055.Plate.5",7,5,"t",1,100.1,26.89,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140194A","TP0001059.Plate.5",6,8,"t",1,99.9,21.36,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140194A","TP0001059.Plate.5",7,8,"t",1,99.9,21.38,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140196A","TP0001054.Plate.1",2,7,"t",1,99.9,19.69,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140196A","TP0001054.Plate.1",3,7,"t",1,99.9,27.63,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140198A","TP0001060.Plate.12",2,6,"t",1,99.9,19.89,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140198A","TP0001060.Plate.12",3,6,"t",1,99.9,19.15,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140200A","TP0001061.Plate.16",6,9,"t",1,99.9,22.1,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140200A","TP0001061.Plate.16",7,9,"t",1,99.9,22.65,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140202A","TP0001057.Plate.15",6,8,"t",1,100,1.06,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140202A","TP0001057.Plate.15",7,8,"t",1,100,1,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140204A","TP0001054.Plate.7",4,8,"t",1,99.9,25.12,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140204A","TP0001054.Plate.7",5,8,"t",1,99.9,25.12,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140206A","PhaseII.VR.Plate.8",2,5,"t",1,1,12.54,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140206A","PhaseII.VR.Plate.8",3,5,"t",1,1,14.53,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140208A","PhaseII.VR.Plate.1",6,9,"t",1,5.01,8.75,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140208A","PhaseII.VR.Plate.1",7,9,"t",1,5.01,9.18,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140210A","TP0001055.Plate.6",2,9,"t",1,100.1,22.68,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140210A","TP0001055.Plate.6",3,9,"t",1,100.1,19.67,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140212A","TP0001060.Plate.10",6,3,"t",1,100,26.16,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140212A","TP0001060.Plate.10",7,3,"t",1,100,25.18,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140214A","TP0001057.Plate.14",4,10,"t",1,99.9,17.04,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140214A","TP0001057.Plate.14",5,10,"t",1,99.9,21.43,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140216A","TP0001057.Plate.16",4,7,"t",1,100.1,46.36,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140216A","TP0001057.Plate.16",5,7,"t",1,100.1,42.88,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140218A","TP0001059.Plate.5",6,9,"t",1,99.9,27.77,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140218A","TP0001059.Plate.5",7,9,"t",1,99.9,25.63,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140220A","PhaseII.VR.Plate.2",6,3,"t",1,10,14.7,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140220A","PhaseII.VR.Plate.2",7,3,"t",1,10,16.64,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140222A","TP0001054.Plate.8",2,6,"t",1,100.1,21.74,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140222A","TP0001054.Plate.8",3,6,"t",1,100.1,25.61,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140224A","TP0001057.Plate.14",6,9,"t",1,100,29.26,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140224A","TP0001057.Plate.14",7,9,"t",1,100,25.61,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140226A","TP0001059.Plate.7",4,3,"t",1,99.9,24.53,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140226A","TP0001059.Plate.7",5,3,"t",1,99.9,30.23,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140228A","TP0001054.Plate.2",6,9,"t",1,100,21.68,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140228A","TP0001054.Plate.2",7,9,"t",1,100,24.46,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140230A","TP0001057.Plate.16",4,5,"t",1,100.1,26.95,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140230A","TP0001057.Plate.16",5,5,"t",1,100.1,28.15,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140232A","TP0001054.Plate.8",6,6,"t",1,99.9,22.14,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140232A","TP0001054.Plate.8",7,6,"t",1,99.9,21.81,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140234A","TP0001057.Plate.15",6,5,"t",1,99.9,28.51,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140234A","TP0001057.Plate.15",7,5,"t",1,99.9,28.14,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140236A","TP0001058.Plate.3",2,5,"t",1,50,13.56,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140236A","TP0001058.Plate.3",3,5,"t",1,50,16.89,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140238A","TP0001056.Plate.12",2,8,"t",1,99.9,29.85,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140238A","TP0001056.Plate.12",3,8,"t",1,99.9,34.68,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140240A","TP0001057.Plate.14",6,6,"t",1,99.9,24.65,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140240A","TP0001057.Plate.14",7,6,"t",1,99.9,25.18,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140242A","TP0001055.Plate.5",2,3,"t",1,100.1,19.69,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140242A","TP0001055.Plate.5",3,3,"t",1,100.1,21.84,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140244A","TP0001054.Plate.4",4,9,"t",1,100.1,23.96,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140244A","TP0001054.Plate.4",5,9,"t",1,100.1,28.19,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140246A","TP0001054.Plate.3",4,7,"t",1,100,30.02,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140246A","TP0001054.Plate.3",5,7,"t",1,100,30.22,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140248A","TP0001061.Plate.16",2,6,"t",1,20,12.26,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140248A","TP0001061.Plate.16",3,6,"t",1,20,15.77,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140250A","TP0001058.Plate.4",6,9,"t",1,100.1,24.82,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140250A","TP0001058.Plate.4",7,9,"t",1,100.1,20.81,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140252A","TP0001059.Plate.7",2,5,"t",1,100.1,25.4,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140252A","TP0001059.Plate.7",3,5,"t",1,100.1,23.84,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140254A","TP0001061.Plate.15",6,10,"t",1,100.1,28.34,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140254A","TP0001061.Plate.15",7,10,"t",1,100.1,23.51,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140256A","TP0001061.Plate.15",2,9,"t",1,99.9,20.68,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140256A","TP0001061.Plate.15",3,9,"t",1,99.9,25.81,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140258A","PhaseII.VR.Plate.1",4,9,"t",1,10.01,12.08,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140258A","PhaseII.VR.Plate.1",5,9,"t",1,10.01,15.55,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140260A","TP0001057.Plate.14",2,4,"t",1,99.9,30.46,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140260A","TP0001057.Plate.14",3,4,"t",1,99.9,25.4,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140262A","PhaseII.VR.Plate.5",6,5,"t",1,1,13.08,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140262A","PhaseII.VR.Plate.5",7,5,"t",1,1,13.48,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140264A","TP0001054.Plate.7",6,3,"t",1,100.1,29.5,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140264A","TP0001054.Plate.7",7,3,"t",1,100.1,31.04,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140266A","TP0001059.Plate.7",2,7,"t",1,100,23.64,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140266A","TP0001059.Plate.7",3,7,"t",1,100,24.74,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140268A","TP0001060.Plate.12",2,7,"t",1,100,23.05,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140268A","TP0001060.Plate.12",3,7,"t",1,100,22.91,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140270A","TP0001054.Plate.7",2,8,"t",1,100.1,9.16,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140270A","TP0001054.Plate.7",3,8,"t",1,100.1,11.15,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140272A","TP0001054.Plate.1",6,7,"t",1,99.9,24.82,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140272A","TP0001054.Plate.1",7,7,"t",1,99.9,27.3,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140274A","TP0001056.Plate.10",4,10,"t",1,99.9,32.73,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140274A","TP0001056.Plate.10",5,10,"t",1,99.9,35.22,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140276A","TP0001055.Plate.6",6,5,"t",1,100.1,21.97,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140276A","TP0001055.Plate.6",7,5,"t",1,100.1,26.88,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140278A","TP0001060.Plate.12",6,4,"t",1,100.1,22.12,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140278A","TP0001060.Plate.12",7,4,"t",1,100.1,23.75,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140280A","TP0001058.Plate.4",4,4,"t",1,99.9,30.41,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140280A","TP0001058.Plate.4",5,4,"t",1,99.9,23.6,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140282A","TP0001056.Plate.9",4,3,"t",1,100,31.88,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140282A","TP0001056.Plate.9",5,3,"t",1,100,31.05,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140284A","TP0001056.Plate.10",6,6,"t",1,100,12.47,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140284A","TP0001056.Plate.10",7,6,"t",1,100,12.24,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140286A","TP0001057.Plate.16",4,4,"t",1,100,30,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140286A","TP0001057.Plate.16",5,4,"t",1,100,28.88,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140288A","TP0001060.Plate.9",4,4,"t",1,99.9,32.51,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140288A","TP0001060.Plate.9",5,4,"t",1,99.9,26.38,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140290A","TP0001054.Plate.8",4,9,"t",1,100.1,25.9,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140290A","TP0001054.Plate.8",5,9,"t",1,100.1,26.4,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140292A","TP0001054.Plate.1",2,10,"t",1,100,1.92,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140292A","TP0001054.Plate.1",3,10,"t",1,100,2.63,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140294A","TP0001058.Plate.2",2,7,"t",1,99.9,21.16,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140294A","TP0001058.Plate.2",3,7,"t",1,99.9,25.91,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140296A","TP0001060.Plate.10",2,3,"t",1,100,4.7,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140296A","TP0001060.Plate.10",3,3,"t",1,100,4.85,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140298A","TP0001055.Plate.5",4,6,"t",1,99.9,15.85,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140298A","TP0001055.Plate.5",5,6,"t",1,99.9,31.92,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140300A","PhaseII.VR.Plate.1",4,7,"t",1,10,5.16,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140300A","PhaseII.VR.Plate.1",5,7,"t",1,10,6.12,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140302A","PhaseII.VR.Plate.3",2,10,"t",1,10.01,14.75,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140302A","PhaseII.VR.Plate.3",3,10,"t",1,10.01,17.64,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140304A","PhaseII.VR.Plate.3",2,7,"t",1,10,15.97,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140304A","PhaseII.VR.Plate.3",3,7,"t",1,10,15.61,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140306A","TP0001055.Plate.6",2,8,"t",1,100,26.76,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140306A","TP0001055.Plate.6",3,8,"t",1,100,25.46,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140308A","PhaseII.VR.Plate.1",4,8,"t",1,10,15.36,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140308A","PhaseII.VR.Plate.1",5,8,"t",1,10,14.25,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140310A","PhaseII.VR.Plate.2",4,6,"t",1,10,28.72,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140310A","PhaseII.VR.Plate.2",5,6,"t",1,10,35.59,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140312A","TP0001061.Plate.16",6,5,"t",1,100.1,19.32,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140312A","TP0001061.Plate.16",7,5,"t",1,100.1,19.21,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140314A","PhaseII.VR.Plate.7",2,6,"t",1,1,5.83,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140314A","PhaseII.VR.Plate.7",3,6,"t",1,1,9.07,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140316A","PhaseII.VR.Plate.4",6,4,"t",1,10,13.15,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140316A","PhaseII.VR.Plate.4",7,4,"t",1,10,14.22,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140318A","TP0001056.Plate.10",2,9,"t",1,99.9,20.07,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140318A","TP0001056.Plate.10",3,9,"t",1,99.9,22.46,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140320A","PhaseII.VR.Plate.2",2,5,"t",1,10,12.48,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140320A","PhaseII.VR.Plate.2",3,5,"t",1,10,13.09,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140322A","TP0001057.Plate.15",6,9,"t",1,99.9,10.98,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140322A","TP0001057.Plate.15",7,9,"t",1,99.9,9.37,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140324A","TP0001058.Plate.2",2,5,"t",1,100.1,20.58,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140324A","TP0001058.Plate.2",3,5,"t",1,100.1,23.58,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140326A","PhaseII.VR.Plate.6",2,3,"t",1,1,12.59,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140326A","PhaseII.VR.Plate.6",3,3,"t",1,1,13.02,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140328A","TP0001058.Plate.4",4,6,"t",1,99.9,34.22,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140328A","TP0001058.Plate.4",5,6,"t",1,99.9,28.84,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140330A","PhaseII.VR.Plate.1",2,6,"t",1,10,13.57,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140330A","PhaseII.VR.Plate.1",3,6,"t",1,10,13.56,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140332A","TP0001055.Plate.5",4,7,"t",1,99.9,15.79,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140332A","TP0001055.Plate.5",5,7,"t",1,99.9,31.03,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140334A","PhaseII.VR.Plate.6",2,6,"t",1,0.93,13.59,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140334A","PhaseII.VR.Plate.6",3,6,"t",1,0.93,14.34,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140336A","TP0001057.Plate.15",4,5,"t",1,99.9,32.96,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140336A","TP0001057.Plate.15",5,5,"t",1,99.9,26.99,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140338A","TP0001060.Plate.10",4,10,"t",1,100,26.42,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140338A","TP0001060.Plate.10",5,10,"t",1,100,25.37,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140340A","TP0001061.Plate.16",6,4,"t",1,99.9,15.57,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140340A","TP0001061.Plate.16",7,4,"t",1,99.9,15,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140342A","PhaseII.VR.Plate.7",2,4,"t",1,1,4.98,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140342A","PhaseII.VR.Plate.7",3,4,"t",1,1,5.22,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140344A","TP0001058.Plate.3",6,4,"t",1,100.1,27.81,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140344A","TP0001058.Plate.3",7,4,"t",1,100.1,24.56,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140346A","PhaseII.VR.Plate.1",6,6,"t",1,10,13.75,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140346A","PhaseII.VR.Plate.1",7,6,"t",1,10,13.3,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140348A","TP0001059.Plate.5",4,5,"t",1,100.1,26.32,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140348A","TP0001059.Plate.5",5,5,"t",1,100.1,26.28,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140350A","TP0001059.Plate.5",4,7,"t",1,100,42.98,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140350A","TP0001059.Plate.5",5,7,"t",1,100,34.39,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140352A","TP0001054.Plate.2",2,8,"t",1,99.9,44.6,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140352A","TP0001054.Plate.2",3,8,"t",1,99.9,35.46,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140354A","TP0001055.Plate.6",4,7,"t",1,20,54.38,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140354A","TP0001055.Plate.6",5,7,"t",1,20,45.15,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140356A","TP0001059.Plate.5",6,3,"t",1,100,42.69,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140356A","TP0001059.Plate.5",7,3,"t",1,100,44.59,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140358A","TP0001055.Plate.5",4,4,"t",1,100,11.65,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140358A","TP0001055.Plate.5",5,4,"t",1,100,18.67,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140360A","TP0001054.Plate.4",6,5,"t",1,100,31.54,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140360A","TP0001054.Plate.4",7,5,"t",1,100,31.11,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140362A","TP0001059.Plate.7",2,8,"t",1,99.9,22.34,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140362A","TP0001059.Plate.7",3,8,"t",1,99.9,21.68,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140364A","TP0001055.Plate.5",4,5,"t",1,99.9,15.42,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140364A","TP0001055.Plate.5",5,5,"t",1,99.9,21.57,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140366A","TP0001060.Plate.12",2,4,"t",1,99.9,33.3,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140366A","TP0001060.Plate.12",3,4,"t",1,99.9,27.27,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140368A","TP0001057.Plate.13",4,6,"t",1,100,26.58,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140368A","TP0001057.Plate.13",5,6,"t",1,100,24.89,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140370A","TP0001054.Plate.7",6,7,"t",1,99.9,32.61,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140370A","TP0001054.Plate.7",7,7,"t",1,99.9,27.12,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140372A","TP0001059.Plate.7",6,4,"t",1,100,28.04,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140372A","TP0001059.Plate.7",7,4,"t",1,100,35.93,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140374A","TP0001059.Plate.5",2,8,"t",1,99.9,22.28,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140374A","TP0001059.Plate.5",3,8,"t",1,99.9,24.52,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140376A","PhaseIIe1k.VR.Plate.1",2,9,"t",1,10.01,43.37,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140376A","PhaseIIe1k.VR.Plate.1",3,9,"t",1,10.01,51.89,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140378A","TP0001061.Plate.16",4,9,"t",1,99.9,17.84,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140378A","TP0001061.Plate.16",5,9,"t",1,99.9,17.85,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140380A","TP0001060.Plate.12",4,4,"t",1,100,20.45,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140380A","TP0001060.Plate.12",5,4,"t",1,100,19.6,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140382A","PhaseII.VR.Plate.5",2,3,"t",1,10.01,13.28,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140382A","PhaseII.VR.Plate.5",3,3,"t",1,10.01,14.08,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140384A","TP0001056.Plate.10",2,6,"t",1,100,26.39,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140384A","TP0001056.Plate.10",3,6,"t",1,100,28.68,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140386A","TP0001059.Plate.6",6,9,"t",1,100.1,13.57,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140386A","TP0001059.Plate.6",7,9,"t",1,100.1,11.07,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140388A","TP0001060.Plate.10",2,8,"t",1,100,17.33,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140388A","TP0001060.Plate.10",3,8,"t",1,100,15.52,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140390A","PhaseII.VR.Plate.3",6,10,"t",1,10,16.1,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140390A","PhaseII.VR.Plate.3",7,10,"t",1,10,16.17,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140392A","TP0001062.Plate.17",4,5,"t",1,100.1,29.97,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140392A","TP0001062.Plate.17",5,5,"t",1,100.1,25.86,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140394A","TP0001054.Plate.1",6,10,"t",1,50,24.7,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140394A","TP0001054.Plate.1",7,10,"t",1,50,25.44,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140396A","TP0001061.Plate.15",6,7,"t",1,99.9,21.77,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140396A","TP0001061.Plate.15",7,7,"t",1,99.9,22.42,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140398A","TP0001058.Plate.2",2,3,"t",1,100,16.33,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140398A","TP0001058.Plate.2",3,3,"t",1,100,23.02,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140400A","TP0001060.Plate.9",2,5,"t",1,99.9,18.41,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140400A","TP0001060.Plate.9",3,5,"t",1,99.9,18.56,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140402A","TP0001058.Plate.2",4,7,"t",1,100,26.17,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140402A","TP0001058.Plate.2",5,7,"t",1,100,26.1,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140404A","TP0001058.Plate.1",2,6,"t",1,99.9,25.03,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140404A","TP0001058.Plate.1",3,6,"t",1,99.9,20.98,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140406A","TP0001059.Plate.7",6,3,"t",1,100.1,35.74,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140406A","TP0001059.Plate.7",7,3,"t",1,100.1,33.57,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140408A","TP0001061.Plate.15",6,6,"t",1,99.9,21.25,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140408A","TP0001061.Plate.15",7,6,"t",1,99.9,23.84,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140410A","TP0001061.Plate.14",2,3,"t",1,100.1,28.29,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140410A","TP0001061.Plate.14",3,3,"t",1,100.1,31.81,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140412A","PhaseII.VR.Plate.3",6,4,"t",1,9.99,13.91,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140412A","PhaseII.VR.Plate.3",7,4,"t",1,9.99,14.68,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140414A","PhaseII.VR.Plate.3",4,5,"t",1,10,9.1,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140414A","PhaseII.VR.Plate.3",5,5,"t",1,10,11.28,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140416A","TP0001062.Plate.17",2,8,"t",1,99.9,39.41,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140416A","TP0001062.Plate.17",3,8,"t",1,99.9,46.17,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140418A","PhaseII.VR.Plate.8",4,8,"t",0,0.5,NA,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140418A","PhaseII.VR.Plate.8",5,8,"t",0,0.5,NA,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140420A","TP0001056.Plate.9",6,6,"t",1,100,23.11,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140420A","TP0001056.Plate.9",7,6,"t",1,100,26.5,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140422A","TP0001062.Plate.18",2,3,"t",1,99.9,26.79,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140422A","TP0001062.Plate.18",3,3,"t",1,99.9,28.34,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140424A","TP0001056.Plate.9",2,7,"t",1,99.9,22.22,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140424A","TP0001056.Plate.9",3,7,"t",1,99.9,23.08,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140426A","TP0001054.Plate.8",4,8,"t",1,99.9,21.82,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140426A","TP0001054.Plate.8",5,8,"t",1,99.9,20.72,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140428A","TP0001054.Plate.8",2,5,"t",1,100.1,21.07,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140428A","TP0001054.Plate.8",3,5,"t",1,100.1,23.04,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140430A","TP0001061.Plate.14",2,10,"t",1,100,23.06,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140430A","TP0001061.Plate.14",3,10,"t",1,100,24.04,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140432A","PhaseII.VR.Plate.8",4,7,"t",1,1,16.02,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140432A","PhaseII.VR.Plate.8",5,7,"t",1,1,13.77,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140434A","TP0001058.Plate.2",4,5,"t",1,99.9,24.35,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140434A","TP0001058.Plate.2",5,5,"t",1,99.9,24.78,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140436A","TP0001056.Plate.12",4,9,"t",1,99.9,16.71,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140436A","TP0001056.Plate.12",5,9,"t",1,99.9,15.38,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140438A","TP0001060.Plate.9",4,5,"t",1,100.1,22.2,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140438A","TP0001060.Plate.9",5,5,"t",1,100.1,19.05,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140440A","TP0001060.Plate.9",6,3,"t",1,100,19.77,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140440A","TP0001060.Plate.9",7,3,"t",1,100,25.05,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140442A","TP0001058.Plate.1",4,6,"t",1,50,26.04,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140442A","TP0001058.Plate.1",5,6,"t",1,50,28.15,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140444A","PhaseII.VR.Plate.1",4,5,"t",1,10.01,4.18,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140444A","PhaseII.VR.Plate.1",5,5,"t",1,10.01,4.4,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140446A","TP0001056.Plate.12",2,10,"t",1,50,28.23,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140446A","TP0001056.Plate.12",3,10,"t",1,50,22.15,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140448A","PhaseII.VR.Plate.6",4,3,"t",1,1,12.86,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140448A","PhaseII.VR.Plate.6",5,3,"t",1,1,14.69,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140450A","TP0001056.Plate.12",6,6,"t",1,50,35.77,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140450A","TP0001056.Plate.12",7,6,"t",1,50,31.8,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140452A","PhaseII.VR.Plate.1",4,4,"t",1,9.99,6.08,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140452A","PhaseII.VR.Plate.1",5,4,"t",1,9.99,6.59,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140454A","TP0001060.Plate.12",6,8,"t",1,99.9,17.1,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140454A","TP0001060.Plate.12",7,8,"t",1,99.9,19.55,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140456A","TP0001056.Plate.10",4,8,"t",1,100,27.41,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140456A","TP0001056.Plate.10",5,8,"t",1,100,28.23,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140458A","TP0001055.Plate.6",6,6,"t",1,100,33.26,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140458A","TP0001055.Plate.6",7,6,"t",1,100,28.7,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140460A","TP0001054.Plate.8",2,9,"t",1,100,23.05,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140460A","TP0001054.Plate.8",3,9,"t",1,100,26.79,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140462A","PhaseII.VR.Plate.6",6,10,"t",1,1,9.88,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140462A","PhaseII.VR.Plate.6",7,10,"t",1,1,9.66,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140464A","TP0001055.Plate.5",4,8,"t",1,50,11.21,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140464A","TP0001055.Plate.5",5,8,"t",1,50,23.8,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140466A","TP0001054.Plate.3",4,3,"t",1,100.1,35.17,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140466A","TP0001054.Plate.3",5,3,"t",1,100.1,31.69,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140468A","TP0001057.Plate.14",6,10,"t",1,100.1,24.23,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140468A","TP0001057.Plate.14",7,10,"t",1,100.1,27.04,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140470A","TP0001062.Plate.17",6,7,"t",1,100,27.58,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140470A","TP0001062.Plate.17",7,7,"t",1,100,30.39,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140472A","PhaseII.VR.Plate.4",6,9,"t",1,10,18.05,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140472A","PhaseII.VR.Plate.4",7,9,"t",1,10,16.71,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140474A","PhaseII.VR.Plate.8",4,5,"t",1,0.2,8.17,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140474A","PhaseII.VR.Plate.8",5,5,"t",1,0.2,8.46,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140476A","TP0001061.Plate.16",4,3,"t",1,100,19.54,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140476A","TP0001061.Plate.16",5,3,"t",1,100,20.3,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140478A","TP0001060.Plate.12",4,7,"t",1,100,8.42,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140478A","TP0001060.Plate.12",5,7,"t",1,100,9.55,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140480A","PhaseII.VR.Plate.8",6,9,"t",1,0.5,11.58,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140480A","PhaseII.VR.Plate.8",7,9,"t",1,0.5,13.02,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140482A","PhaseII.VR.Plate.4",4,7,"t",1,10.01,11.49,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140482A","PhaseII.VR.Plate.4",5,7,"t",1,10.01,10.86,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140484A","TP0001060.Plate.10",6,8,"t",1,100,25.94,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140484A","TP0001060.Plate.10",7,8,"t",1,100,22.42,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140486A","TP0001054.Plate.2",4,5,"t",1,100,13.17,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140486A","TP0001054.Plate.2",5,5,"t",1,100,22.72,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140488A","PhaseII.VR.Plate.7",4,6,"t",1,1,9.07,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140488A","PhaseII.VR.Plate.7",5,6,"t",1,1,9.43,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140490A","TP0001060.Plate.11",2,6,"t",1,100,15.03,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140490A","TP0001060.Plate.11",3,6,"t",1,100,16.25,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140492A","TP0001059.Plate.6",6,3,"t",1,100.1,34.48,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140492A","TP0001059.Plate.6",7,3,"t",1,100.1,27.01,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140494A","TP0001058.Plate.3",2,10,"t",1,99.9,15.01,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140494A","TP0001058.Plate.3",3,10,"t",1,99.9,17.21,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140496A","TP0001054.Plate.3",2,4,"t",1,100.1,25.17,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140496A","TP0001054.Plate.3",3,4,"t",1,100.1,29.83,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140498A","TP0001061.Plate.16",2,10,"t",1,100,31.43,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140498A","TP0001061.Plate.16",3,10,"t",1,100,36.72,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140500A","TP0001060.Plate.10",6,7,"t",1,99.9,9.73,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140500A","TP0001060.Plate.10",7,7,"t",1,99.9,9.7,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140502A","PhaseII.VR.Plate.7",6,9,"t",1,1,12.34,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140502A","PhaseII.VR.Plate.7",7,9,"t",1,1,13.06,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140504A","PhaseII.VR.Plate.6",2,5,"t",1,1,12.42,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140504A","PhaseII.VR.Plate.6",3,5,"t",1,1,13.37,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140506A","PhaseII.VR.Plate.7",4,7,"t",1,1,7.17,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140506A","PhaseII.VR.Plate.7",5,7,"t",1,1,9.29,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140508A","TP0001061.Plate.13",2,3,"t",1,100.1,30.29,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140508A","TP0001061.Plate.13",3,3,"t",1,100.1,28.44,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140510A","TP0001060.Plate.11",6,5,"t",1,50,3.62,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140510A","TP0001060.Plate.11",7,5,"t",1,50,3.76,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140512A","PhaseII.VR.Plate.4",6,5,"t",1,10,5,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140512A","PhaseII.VR.Plate.4",7,5,"t",1,10,5.53,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140514A","PhaseII.VR.Plate.8",6,5,"t",1,1,11.31,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140514A","PhaseII.VR.Plate.8",7,5,"t",1,1,13.26,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140516A","PhaseII.VR.Plate.8",6,8,"t",1,1,12.7,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140516A","PhaseII.VR.Plate.8",7,8,"t",1,1,14.05,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140518A","PhaseII.VR.Plate.6",6,6,"t",1,1,14.1,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140518A","PhaseII.VR.Plate.6",7,6,"t",1,1,17.94,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140520A","PhaseII.VR.Plate.4",6,8,"t",1,10.01,8,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140520A","PhaseII.VR.Plate.4",7,8,"t",1,10.01,8.09,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140522A","TP0001054.Plate.8",6,4,"t",1,99.9,22.01,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140522A","TP0001054.Plate.8",7,4,"t",1,99.9,24.56,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140524A","TP0001061.Plate.16",4,5,"t",1,99.9,17.54,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140524A","TP0001061.Plate.16",5,5,"t",1,99.9,16.38,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140526A","TP0001057.Plate.15",4,8,"t",1,100.1,11.3,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140526A","TP0001057.Plate.15",5,8,"t",1,100.1,10.72,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140528A","PhaseII.VR.Plate.3",6,5,"t",1,10,2.42,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140528A","PhaseII.VR.Plate.3",7,5,"t",1,10,2.56,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140530A","TP0001061.Plate.13",2,5,"t",1,99.9,11.19,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140530A","TP0001061.Plate.13",3,5,"t",1,99.9,11.43,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140532A","TP0001056.Plate.9",4,8,"t",1,99.9,9.82,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140532A","TP0001056.Plate.9",5,8,"t",1,99.9,10.24,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140534A","PhaseII.VR.Plate.3",4,7,"t",1,9.99,1.85,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140534A","PhaseII.VR.Plate.3",5,7,"t",1,9.99,1.97,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140536A","PhaseII.VR.Plate.6",2,7,"t",1,1,12.2,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140536A","PhaseII.VR.Plate.6",3,7,"t",1,1,11.2,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140538A","TP0001054.Plate.7",6,9,"t",1,100.1,11.86,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140538A","TP0001054.Plate.7",7,9,"t",1,100.1,14.13,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140540A","TP0001058.Plate.3",4,9,"t",1,100.1,24.8,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140540A","TP0001058.Plate.3",5,9,"t",1,100.1,22.73,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140542A","PhaseII.VR.Plate.5",2,7,"t",1,10.01,15.34,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140542A","PhaseII.VR.Plate.5",3,7,"t",1,10.01,14.83,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140544A","TP0001058.Plate.4",4,10,"t",1,100,7.18,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140544A","TP0001058.Plate.4",5,10,"t",1,100,7.45,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140546A","PhaseII.VR.Plate.4",4,10,"t",1,9.99,20.73,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140546A","PhaseII.VR.Plate.4",5,10,"t",1,9.99,19.17,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140548A","TP0001057.Plate.13",4,9,"t",1,99.9,26.03,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140548A","TP0001057.Plate.13",5,9,"t",1,99.9,27.87,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140550A","PhaseII.VR.Plate.5",4,3,"t",1,10,11.96,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140550A","PhaseII.VR.Plate.5",5,3,"t",1,10,11.31,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140552A","TP0001061.Plate.15",4,7,"t",1,100.1,11.04,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140552A","TP0001061.Plate.15",5,7,"t",1,100.1,10.58,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140554A","TP0001058.Plate.4",2,4,"t",1,100,33.45,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140554A","TP0001058.Plate.4",3,4,"t",1,100,38.58,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140558A","TP0001061.Plate.13",6,3,"t",1,100,21.84,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140558A","TP0001061.Plate.13",7,3,"t",1,100,24.01,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140560A","PhaseII.VR.Plate.7",6,8,"t",1,1,13.29,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140560A","PhaseII.VR.Plate.7",7,8,"t",1,1,14.16,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140562A","PhaseII.VR.Plate.7",4,5,"t",1,1,9.84,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140562A","PhaseII.VR.Plate.7",5,5,"t",1,1,10.35,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140564A","TP0001057.Plate.15",2,10,"t",1,99.9,28.89,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140564A","TP0001057.Plate.15",3,10,"t",1,99.9,29.52,"TP0001057 Plate 15_CeeTox.csv","cort" -"01140566A","TP0001058.Plate.4",4,7,"t",1,100.1,17.99,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140566A","TP0001058.Plate.4",5,7,"t",1,100.1,17.93,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140568A","TP0001059.Plate.6",4,4,"t",1,100.1,20.35,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140568A","TP0001059.Plate.6",5,4,"t",1,100.1,22.05,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140570A","TP0001059.Plate.8",2,5,"t",1,100,21.92,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140570A","TP0001059.Plate.8",3,5,"t",1,100,21.85,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140572A","PhaseII.VR.Plate.7",6,3,"t",1,1,12.77,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140572A","PhaseII.VR.Plate.7",7,3,"t",1,1,14.86,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140574A","TP0001058.Plate.3",6,5,"t",1,100.1,36.86,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140574A","TP0001058.Plate.3",7,5,"t",1,100.1,40.21,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140576A","TP0001059.Plate.6",2,10,"t",1,50,19.74,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140576A","TP0001059.Plate.6",3,10,"t",1,50,20.41,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140578A","TP0001059.Plate.5",6,10,"t",1,99.9,24.4,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140578A","TP0001059.Plate.5",7,10,"t",1,99.9,24.58,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140580A","PhaseIIe1k.VR.Plate.1",4,9,"t",1,9.99,47.04,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140580A","PhaseIIe1k.VR.Plate.1",5,9,"t",1,9.99,54.15,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140582A","TP0001062.Plate.17",6,5,"t",1,100.1,22.56,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140582A","TP0001062.Plate.17",7,5,"t",1,100.1,28.34,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140584A","TP0001054.Plate.4",6,6,"t",1,99.9,18.37,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140584A","TP0001054.Plate.4",7,6,"t",1,99.9,18.17,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140586A","TP0001059.Plate.7",2,6,"t",1,100,6.97,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140586A","TP0001059.Plate.7",3,6,"t",1,100,5.75,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140588A","TP0001059.Plate.5",6,4,"t",1,100,23.09,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140588A","TP0001059.Plate.5",7,4,"t",1,100,20.02,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140590A","PhaseII.VR.Plate.5",4,6,"t",1,10,16.87,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140590A","PhaseII.VR.Plate.5",5,6,"t",1,10,16.92,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140592A","TP0001060.Plate.11",4,3,"t",1,20,4.05,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140592A","TP0001060.Plate.11",5,3,"t",1,20,4.38,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140594A","TP0001054.Plate.1",6,6,"t",1,100,41.72,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140594A","TP0001054.Plate.1",7,6,"t",1,100,39.72,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140596A","PhaseII.VR.Plate.4",6,3,"t",1,2,9.27,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140596A","PhaseII.VR.Plate.4",7,3,"t",1,2,9.56,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140598A","TP0001059.Plate.8",2,9,"t",1,99.9,10.14,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140598A","TP0001059.Plate.8",3,9,"t",1,99.9,10.07,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140600A","TP0001061.Plate.15",6,8,"t",1,100.1,25.35,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140600A","TP0001061.Plate.15",7,8,"t",1,100.1,28.16,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140602A","TP0001055.Plate.6",2,4,"t",1,50,25.89,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140602A","TP0001055.Plate.6",3,4,"t",1,50,25.44,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140604A","PhaseIIe1k.VR.Plate.3",4,7,"t",1,1,57.75,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01140604A","PhaseIIe1k.VR.Plate.3",5,7,"t",1,1,54.9,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01140608A","TP0001056.Plate.9",2,8,"t",1,100.1,21.3,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140608A","TP0001056.Plate.9",3,8,"t",1,100.1,27.51,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140610A","PhaseII.VR.Plate.5",6,7,"t",1,1,14.28,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140610A","PhaseII.VR.Plate.5",7,7,"t",1,1,14.19,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140612A","TP0001059.Plate.5",6,7,"t",1,100,42.94,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140612A","TP0001059.Plate.5",7,7,"t",1,100,44.05,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140614A","TP0001057.Plate.14",4,9,"t",1,99.9,23.1,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140614A","TP0001057.Plate.14",5,9,"t",1,99.9,26.19,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140616A","PhaseII.VR.Plate.8",2,8,"t",1,1,13.39,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140616A","PhaseII.VR.Plate.8",3,8,"t",1,1,13.77,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140618A","TP0001059.Plate.6",2,4,"t",1,100,25.1,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140618A","TP0001059.Plate.6",3,4,"t",1,100,22.39,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140620A","TP0001057.Plate.13",6,4,"t",1,99.9,23.54,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140620A","TP0001057.Plate.13",7,4,"t",1,99.9,30.81,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140622A","TP0001057.Plate.13",2,3,"t",1,100,22.89,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140622A","TP0001057.Plate.13",3,3,"t",1,100,29.13,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140624A","TP0001057.Plate.16",4,8,"t",1,100,29.82,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140624A","TP0001057.Plate.16",5,8,"t",1,100,26.97,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140626A","TP0001056.Plate.11",6,3,"t",1,99.9,25.86,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140626A","TP0001056.Plate.11",7,3,"t",1,99.9,28.16,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140628A","TP0001058.Plate.2",4,3,"t",1,99.9,25.05,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140628A","TP0001058.Plate.2",5,3,"t",1,99.9,24.77,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140630A","PhaseII.VR.Plate.8",6,10,"t",1,1,13.7,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140630A","PhaseII.VR.Plate.8",7,10,"t",1,1,18.53,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140632A","TP0001056.Plate.10",4,3,"t",1,99.9,25.58,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140632A","TP0001056.Plate.10",5,3,"t",1,99.9,26.42,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140634A","PhaseII.VR.Plate.7",6,10,"t",1,1,11.96,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140634A","PhaseII.VR.Plate.7",7,10,"t",1,1,11.63,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140636A","PhaseII.VR.Plate.5",4,10,"t",1,10.01,19.93,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140636A","PhaseII.VR.Plate.5",5,10,"t",1,10.01,24.62,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140638A","TP0001060.Plate.12",2,5,"t",1,100.1,20.6,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140638A","TP0001060.Plate.12",3,5,"t",1,100.1,22.54,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140640A","TP0001057.Plate.14",4,8,"t",1,100,30.26,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140640A","TP0001057.Plate.14",5,8,"t",1,100,33.92,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140642A","PhaseIIe1k.VR.Plate.3",6,7,"t",1,1,57.04,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01140642A","PhaseIIe1k.VR.Plate.3",7,7,"t",1,1,61.05,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01140644A","PhaseII.VR.Plate.5",4,5,"t",1,10.01,12.82,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140644A","PhaseII.VR.Plate.5",5,5,"t",1,10.01,14.2,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140646A","TP0001058.Plate.3",2,3,"t",1,99.9,13.43,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140646A","TP0001058.Plate.3",3,3,"t",1,99.9,17.73,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140648A","PhaseII.VR.Plate.6",4,6,"t",1,1,13.04,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140648A","PhaseII.VR.Plate.6",5,6,"t",1,1,14.32,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140650A","TP0001058.Plate.4",2,8,"t",1,100,30.69,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140650A","TP0001058.Plate.4",3,8,"t",1,100,31.13,"TP0001058 Plate 4_CeeTox.csv","cort" -"01140652A","TP0001059.Plate.8",6,7,"t",1,100.1,23.58,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140652A","TP0001059.Plate.8",7,7,"t",0,100.1,NA,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140654A","TP0001058.Plate.3",4,10,"t",1,100.1,35.64,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140654A","TP0001058.Plate.3",5,10,"t",1,100.1,36.67,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140656A","TP0001060.Plate.9",4,8,"t",1,100.1,21.99,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140656A","TP0001060.Plate.9",5,8,"t",1,100.1,19.96,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140658A","TP0001054.Plate.1",6,3,"t",1,100,34.01,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140658A","TP0001054.Plate.1",7,3,"t",1,100,36.97,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140660A","TP0001056.Plate.11",6,9,"t",1,99.9,17.37,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140660A","TP0001056.Plate.11",7,9,"t",1,99.9,19.59,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140662A","TP0001061.Plate.14",4,4,"t",1,99.9,28.97,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140662A","TP0001061.Plate.14",5,4,"t",1,99.9,19.67,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140664A","TP0001058.Plate.3",6,10,"t",1,100.1,26.21,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140664A","TP0001058.Plate.3",7,10,"t",1,100.1,19.48,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140666A","TP0001059.Plate.7",6,9,"t",1,100,31.46,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140666A","TP0001059.Plate.7",7,9,"t",1,100,25.49,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140668A","TP0001056.Plate.10",4,9,"t",1,99.9,27.47,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140668A","TP0001056.Plate.10",5,9,"t",1,99.9,24.81,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140670A","PhaseII.VR.Plate.3",4,9,"t",1,10.01,17.33,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140670A","PhaseII.VR.Plate.3",5,9,"t",1,10.01,17.65,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140672A","TP0001061.Plate.15",2,3,"t",1,100.1,20.94,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140672A","TP0001061.Plate.15",3,3,"t",1,100.1,26.56,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140674A","TP0001056.Plate.11",4,9,"t",1,100,28.2,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140674A","TP0001056.Plate.11",5,9,"t",1,100,28.25,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140676A","PhaseII.VR.Plate.8",4,4,"t",1,1,15.73,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140676A","PhaseII.VR.Plate.8",5,4,"t",1,1,13.34,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140678A","TP0001059.Plate.6",4,10,"t",1,100.1,33.63,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140678A","TP0001059.Plate.6",5,10,"t",1,100.1,31.06,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140680A","TP0001059.Plate.6",4,5,"t",1,100,18.46,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140680A","TP0001059.Plate.6",5,5,"t",1,100,16.94,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140682A","TP0001054.Plate.1",4,5,"t",1,100,22,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140682A","TP0001054.Plate.1",5,5,"t",1,100,20.9,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140684A","PhaseII.VR.Plate.3",2,5,"t",1,10.01,12.92,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140684A","PhaseII.VR.Plate.3",3,5,"t",1,10.01,13.03,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140686A","TP0001057.Plate.16",4,3,"t",1,100.1,24.92,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140686A","TP0001057.Plate.16",5,3,"t",1,100.1,22.68,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140688A","PhaseII.VR.Plate.8",6,3,"t",1,1,12.61,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140688A","PhaseII.VR.Plate.8",7,3,"t",1,1,13.15,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140690A","TP0001054.Plate.4",2,8,"t",1,99.9,25.28,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140690A","TP0001054.Plate.4",3,8,"t",1,99.9,33.19,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140692A","TP0001056.Plate.11",6,5,"t",1,100,0.98,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140692A","TP0001056.Plate.11",7,5,"t",1,100,1.05,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140694A","TP0001056.Plate.9",6,5,"t",1,99.9,19.67,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140694A","TP0001056.Plate.9",7,5,"t",1,99.9,21.36,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140696A","TP0001062.Plate.17",2,3,"t",1,100,27.64,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140696A","TP0001062.Plate.17",3,3,"t",1,100,36.36,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140698A","PhaseII.VR.Plate.8",4,9,"t",1,1,15.85,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140698A","PhaseII.VR.Plate.8",5,9,"t",1,1,13.84,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140700A","PhaseII.VR.Plate.6",4,9,"t",1,1,13.3,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140700A","PhaseII.VR.Plate.6",5,9,"t",1,1,12.61,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140702A","PhaseII.VR.Plate.7",4,10,"t",1,1,11.75,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140702A","PhaseII.VR.Plate.7",5,10,"t",1,1,15.94,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140704A","TP0001054.Plate.2",6,8,"t",1,50,19.14,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140704A","TP0001054.Plate.2",7,8,"t",1,50,17.74,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140706A","TP0001060.Plate.9",6,4,"t",1,99.9,8.5,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140706A","TP0001060.Plate.9",7,4,"t",1,99.9,9.54,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140708A","TP0001062.Plate.17",4,3,"t",1,50,27.98,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140708A","TP0001062.Plate.17",5,3,"t",1,50,21.02,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140710A","TP0001059.Plate.8",4,8,"t",1,100,25.63,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140710A","TP0001059.Plate.8",5,8,"t",1,100,26.92,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140714A","TP0001057.Plate.13",2,6,"t",1,99.9,15.61,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140714A","TP0001057.Plate.13",3,6,"t",1,99.9,16.85,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140716A","PhaseII.VR.Plate.7",2,8,"t",1,1,8.62,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140716A","PhaseII.VR.Plate.7",3,8,"t",1,1,10.2,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140718A","TP0001056.Plate.10",4,5,"t",1,100.1,32.26,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140718A","TP0001056.Plate.10",5,5,"t",1,100.1,30.86,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140720A","PhaseII.VR.Plate.6",6,7,"t",1,1,8.03,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140720A","PhaseII.VR.Plate.6",7,7,"t",1,1,11.87,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140722A","PhaseII.VR.Plate.6",2,9,"t",1,1,11.3,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140722A","PhaseII.VR.Plate.6",3,9,"t",1,1,11.57,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140724A","PhaseII.VR.Plate.4",2,4,"t",1,5,16.4,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140724A","PhaseII.VR.Plate.4",3,4,"t",1,5,18.48,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140726A","TP0001056.Plate.11",4,10,"t",1,100.1,38.92,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140726A","TP0001056.Plate.11",5,10,"t",1,100.1,35.39,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140728A","PhaseII.VR.Plate.4",4,5,"t",1,10.01,4.45,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140728A","PhaseII.VR.Plate.4",5,5,"t",1,10.01,3.83,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140730A","TP0001054.Plate.3",6,8,"t",1,100.1,32.8,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140730A","TP0001054.Plate.3",7,8,"t",1,100.1,26.92,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140732A","TP0001056.Plate.9",4,5,"t",1,99.9,26.2,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140732A","TP0001056.Plate.9",5,5,"t",1,99.9,23.89,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140734A","TP0001054.Plate.3",6,3,"t",1,99.9,27.22,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140734A","TP0001054.Plate.3",7,3,"t",1,99.9,28,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140736A","TP0001060.Plate.9",6,7,"t",1,100,22.66,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140736A","TP0001060.Plate.9",7,7,"t",1,100,23.34,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140738A","TP0001059.Plate.7",4,5,"t",1,100.1,24.45,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140738A","TP0001059.Plate.7",5,5,"t",1,100.1,23.84,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140740A","PhaseII.VR.Plate.3",2,3,"t",1,9.99,12.7,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140740A","PhaseII.VR.Plate.3",3,3,"t",1,9.99,13.27,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140742A","TP0001059.Plate.6",6,4,"t",1,100.1,23.56,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140742A","TP0001059.Plate.6",7,4,"t",1,100.1,22.67,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140744A","PhaseIIe1k.VR.Plate.3",2,5,"t",1,10,40.01,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01140744A","PhaseIIe1k.VR.Plate.3",3,5,"t",1,10,37.5,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01140746A","TP0001056.Plate.11",4,3,"t",1,100.1,25.67,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140746A","TP0001056.Plate.11",5,3,"t",1,100.1,28.47,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140748A","TP0001061.Plate.15",4,6,"t",1,100,23.49,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140748A","TP0001061.Plate.15",5,6,"t",1,100,24.92,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140750A","TP0001062.Plate.18",2,6,"t",1,100.1,13.5,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140750A","TP0001062.Plate.18",3,6,"t",1,100.1,15.13,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140752A","TP0001059.Plate.6",2,5,"t",1,99.9,21.27,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140752A","TP0001059.Plate.6",3,5,"t",1,99.9,23.24,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140754A","PhaseII.VR.Plate.4",2,6,"t",1,9.99,17.06,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140754A","PhaseII.VR.Plate.4",3,6,"t",1,9.99,17.01,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140756A","PhaseII.VR.Plate.1",2,8,"t",1,10.01,4.4,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140756A","PhaseII.VR.Plate.1",3,8,"t",1,10.01,5.22,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140758A","TP0001061.Plate.15",2,4,"t",1,100,17.16,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140758A","TP0001061.Plate.15",3,4,"t",1,100,13.92,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140760A","TP0001057.Plate.16",2,3,"t",1,100.1,26.9,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140760A","TP0001057.Plate.16",3,3,"t",1,100.1,26.55,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140762A","TP0001054.Plate.8",4,10,"t",1,100.1,35.18,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140762A","TP0001054.Plate.8",5,10,"t",1,100.1,31.11,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140764A","PhaseII.VR.Plate.1",4,6,"t",1,10.01,16.52,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140764A","PhaseII.VR.Plate.1",5,6,"t",1,10.01,15.63,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140766A","TP0001057.Plate.16",2,10,"t",1,99.9,33.3,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140766A","TP0001057.Plate.16",3,10,"t",1,99.9,34.02,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140768A","PhaseII.VR.Plate.7",2,3,"t",1,1,8.45,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140768A","PhaseII.VR.Plate.7",3,3,"t",1,1,6.72,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140770A","TP0001055.Plate.5",6,4,"t",1,99.9,24.17,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140770A","TP0001055.Plate.5",7,4,"t",1,99.9,19.21,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140772A","PhaseII.VR.Plate.2",6,9,"t",1,10,12.4,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140772A","PhaseII.VR.Plate.2",7,9,"t",1,10,12.91,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140774A","TP0001055.Plate.6",6,8,"t",1,100,30.66,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140774A","TP0001055.Plate.6",7,8,"t",1,100,29.87,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140776A","TP0001054.Plate.4",2,3,"t",1,99.9,22.59,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140776A","TP0001054.Plate.4",3,3,"t",1,99.9,24.64,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140778A","TP0001056.Plate.11",6,8,"t",1,100,26.3,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140778A","TP0001056.Plate.11",7,8,"t",1,100,30.05,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140780A","TP0001059.Plate.7",4,9,"t",1,100.1,1.35,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140780A","TP0001059.Plate.7",5,9,"t",1,100.1,1.54,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140782A","TP0001062.Plate.17",4,4,"t",1,100,2.2,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140782A","TP0001062.Plate.17",5,4,"t",1,100,1.4,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140784A","TP0001061.Plate.13",4,9,"t",1,100,34.77,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140784A","TP0001061.Plate.13",5,9,"t",1,100,29.77,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140786A","PhaseII.VR.Plate.4",2,5,"t",1,10.01,3.49,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140786A","PhaseII.VR.Plate.4",3,5,"t",1,10.01,3.33,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140788A","TP0001055.Plate.5",6,10,"t",1,99.9,21.73,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140788A","TP0001055.Plate.5",7,10,"t",1,99.9,25.49,"TP0001055 Plate 5_CeeTox.csv","cort" -"01140790A","TP0001056.Plate.12",4,10,"t",1,100.1,27.87,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140790A","TP0001056.Plate.12",5,10,"t",1,100.1,26.87,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140792A","TP0001061.Plate.13",6,4,"t",1,99.9,23,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140792A","TP0001061.Plate.13",7,4,"t",1,99.9,24.91,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140794A","TP0001056.Plate.9",6,10,"t",1,100,14.51,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140794A","TP0001056.Plate.9",7,10,"t",1,100,18.38,"TP0001056 Plate 9_CeeTox.csv","cort" -"01140796A","TP0001054.Plate.4",4,7,"t",1,100,25.31,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140796A","TP0001054.Plate.4",5,7,"t",1,100,26.95,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140798A","TP0001059.Plate.5",2,5,"t",1,99.9,13.44,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140798A","TP0001059.Plate.5",3,5,"t",1,99.9,11.31,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140800A","TP0001059.Plate.7",6,7,"t",1,100,31.46,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140800A","TP0001059.Plate.7",7,7,"t",1,100,26.31,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140802A","PhaseII.VR.Plate.2",4,10,"t",1,10,12.36,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140802A","PhaseII.VR.Plate.2",5,10,"t",1,10,12.51,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140804A","TP0001056.Plate.11",2,3,"t",1,99.9,22.02,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140804A","TP0001056.Plate.11",3,3,"t",1,99.9,28.82,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140806A","TP0001059.Plate.8",6,8,"t",1,99.9,21.51,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140806A","TP0001059.Plate.8",7,8,"t",1,99.9,22.33,"TP0001059 Plate 8_CeeTox.csv","cort" -"01140808A","PhaseII.VR.Plate.4",4,9,"t",1,2,13.73,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140808A","PhaseII.VR.Plate.4",5,9,"t",1,2,14.03,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140810A","TP0001059.Plate.5",4,9,"t",1,100,27.21,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140810A","TP0001059.Plate.5",5,9,"t",1,100,22.23,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140812A","TP0001054.Plate.2",4,7,"t",1,99.9,22.29,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140812A","TP0001054.Plate.2",5,7,"t",1,99.9,24.34,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140814A","PhaseII.VR.Plate.6",4,4,"t",1,1,13.12,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140814A","PhaseII.VR.Plate.6",5,4,"t",1,1,13.91,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140816A","TP0001060.Plate.9",4,3,"t",1,99.9,26.37,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140816A","TP0001060.Plate.9",5,3,"t",1,99.9,25.51,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140818A","TP0001061.Plate.13",4,5,"t",1,99.9,20.34,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140818A","TP0001061.Plate.13",5,5,"t",1,99.9,21.18,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140820A","PhaseII.VR.Plate.1",2,4,"t",1,9.99,10.2,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140820A","PhaseII.VR.Plate.1",3,4,"t",1,9.99,13.17,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140822A","TP0001060.Plate.11",4,5,"t",1,100.1,21.31,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140822A","TP0001060.Plate.11",5,5,"t",1,100.1,22.8,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140824A","PhaseII.VR.Plate.3",2,6,"t",1,10,5.37,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140824A","PhaseII.VR.Plate.3",3,6,"t",1,10,5.7,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140826A","TP0001060.Plate.12",4,6,"t",1,99.9,16.15,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140826A","TP0001060.Plate.12",5,6,"t",1,99.9,17.82,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140828A","TP0001061.Plate.13",4,4,"t",1,99.9,35.16,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140828A","TP0001061.Plate.13",5,4,"t",1,99.9,34.28,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140830A","TP0001058.Plate.2",4,4,"t",1,100.1,17.34,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140830A","TP0001058.Plate.2",5,4,"t",1,100.1,19.05,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140832A","TP0001060.Plate.9",4,10,"t",1,100,17.72,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140832A","TP0001060.Plate.9",5,10,"t",1,100,19.97,"TP0001060 Plate 9_CeeTox.csv","cort" -"01140834A","TP0001060.Plate.10",6,5,"t",1,100.1,24,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140834A","TP0001060.Plate.10",7,5,"t",1,100.1,23.07,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140836A","TP0001062.Plate.18",2,4,"t",1,100,28.55,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140836A","TP0001062.Plate.18",3,4,"t",1,100,30.66,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140838A","TP0001060.Plate.10",4,9,"t",1,99.9,19.08,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140838A","TP0001060.Plate.10",5,9,"t",1,99.9,22.53,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140840A","TP0001058.Plate.2",4,6,"t",1,100.1,24.36,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140840A","TP0001058.Plate.2",5,6,"t",1,100.1,29.03,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140842A","TP0001060.Plate.10",2,7,"t",1,99.9,22.78,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140842A","TP0001060.Plate.10",3,7,"t",1,99.9,22.57,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140844A","TP0001061.Plate.13",6,6,"t",1,100.1,17.09,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140844A","TP0001061.Plate.13",7,6,"t",1,100.1,19.88,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140846A","TP0001056.Plate.12",6,10,"t",1,100,29.61,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140846A","TP0001056.Plate.12",7,10,"t",1,100,30.57,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140848A","PhaseII.VR.Plate.6",6,9,"t",1,1,11.04,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140848A","PhaseII.VR.Plate.6",7,9,"t",1,1,13.36,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140850A","PhaseII.VR.Plate.5",4,7,"t",1,10.01,16.99,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140850A","PhaseII.VR.Plate.5",5,7,"t",1,10.01,19.65,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140852A","PhaseII.VR.Plate.1",4,10,"t",1,9.99,16.24,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140852A","PhaseII.VR.Plate.1",5,10,"t",1,9.99,17.65,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140854A","TP0001054.Plate.8",6,9,"t",1,50,26.97,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140854A","TP0001054.Plate.8",7,9,"t",1,50,22.65,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140856A","TP0001059.Plate.5",2,9,"t",1,99.9,19.98,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140856A","TP0001059.Plate.5",3,9,"t",1,99.9,20.4,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140858A","TP0001061.Plate.15",6,4,"t",1,100,21.78,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140858A","TP0001061.Plate.15",7,4,"t",1,100,23.32,"TP0001061 Plate 15_CeeTox.csv","cort" -"01140860A","TP0001055.Plate.6",4,6,"t",1,20,24.7,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140860A","TP0001055.Plate.6",5,6,"t",1,20,27.27,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140862A","PhaseII.VR.Plate.4",4,8,"t",1,9.99,16.84,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140862A","PhaseII.VR.Plate.4",5,8,"t",1,9.99,15.38,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140864A","TP0001055.Plate.6",4,9,"t",1,99.9,25.07,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140864A","TP0001055.Plate.6",5,9,"t",1,99.9,31.55,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140866A","TP0001061.Plate.13",2,4,"t",1,50,7.5,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140866A","TP0001061.Plate.13",3,4,"t",1,50,5.27,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140868A","TP0001057.Plate.13",2,10,"t",1,100,21.59,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140868A","TP0001057.Plate.13",3,10,"t",1,100,25.68,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140870A","TP0001056.Plate.10",2,4,"t",1,100,21.13,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140870A","TP0001056.Plate.10",3,4,"t",1,100,24.56,"TP0001056 Plate 10_CeeTox.csv","cort" -"01140872A","TP0001054.Plate.1",4,7,"t",1,100,18.23,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140872A","TP0001054.Plate.1",5,7,"t",1,100,17.32,"TP0001054 Plate 1_CeeTox.csv","cort" -"01140874A","TP0001061.Plate.16",2,5,"t",1,99.9,16.91,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140874A","TP0001061.Plate.16",3,5,"t",1,99.9,21.06,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140876A","TP0001060.Plate.10",4,8,"t",1,20,24.92,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140876A","TP0001060.Plate.10",5,8,"t",1,20,24.44,"TP0001060 Plate 10_CeeTox.csv","cort" -"01140878A","TP0001059.Plate.5",2,3,"t",1,100,32.11,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140878A","TP0001059.Plate.5",3,3,"t",1,100,26.4,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140880A","PhaseII.VR.Plate.1",2,10,"t",1,5,19.91,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140880A","PhaseII.VR.Plate.1",3,10,"t",1,5,20.4,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140882A","TP0001061.Plate.16",4,10,"t",1,99.9,25.26,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140882A","TP0001061.Plate.16",5,10,"t",1,99.9,28.43,"TP0001061 Plate 16_CeeTox.csv","cort" -"01140884A","TP0001059.Plate.7",4,7,"t",1,20,19.57,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140884A","TP0001059.Plate.7",5,7,"t",1,20,21.78,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140886A","TP0001061.Plate.14",4,8,"t",1,100.1,20.35,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140886A","TP0001061.Plate.14",5,8,"t",1,100.1,20.71,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140888A","TP0001059.Plate.7",2,9,"t",1,100.1,21.25,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140888A","TP0001059.Plate.7",3,9,"t",1,100.1,22.5,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140890A","TP0001059.Plate.6",2,8,"t",1,100,22.13,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140890A","TP0001059.Plate.6",3,8,"t",1,100,22.08,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140892A","TP0001056.Plate.11",4,5,"t",1,100,3.22,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140892A","TP0001056.Plate.11",5,5,"t",1,100,3.73,"TP0001056 Plate 11_CeeTox.csv","cort" -"01140894A","PhaseII.VR.Plate.6",4,10,"t",1,0.5,14.78,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140894A","PhaseII.VR.Plate.6",5,10,"t",1,0.5,13.14,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140896A","TP0001054.Plate.4",2,9,"t",1,100.1,24.57,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140896A","TP0001054.Plate.4",3,9,"t",1,100.1,23.71,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140898A","PhaseII.VR.Plate.6",2,4,"t",1,0.2,13.13,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140898A","PhaseII.VR.Plate.6",3,4,"t",1,0.2,12.23,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140900A","PhaseII.VR.Plate.1",2,7,"t",1,5,9.8,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140900A","PhaseII.VR.Plate.1",3,7,"t",1,5,12.77,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140902A","PhaseII.VR.Plate.5",6,10,"t",1,9.99,14.5,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140902A","PhaseII.VR.Plate.5",7,10,"t",1,9.99,16.1,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140904A","TP0001054.Plate.4",6,3,"t",1,100,26.16,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140904A","TP0001054.Plate.4",7,3,"t",1,100,27.02,"TP0001054 Plate 4_CeeTox.csv","cort" -"01140906A","TP0001057.Plate.16",6,7,"t",1,99.9,2.95,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140906A","TP0001057.Plate.16",7,7,"t",1,99.9,3.14,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140908A","TP0001058.Plate.3",2,8,"t",1,99.9,13.61,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140908A","TP0001058.Plate.3",3,8,"t",1,99.9,18.32,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140910A","TP0001061.Plate.14",6,6,"t",1,100.1,25.79,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140910A","TP0001061.Plate.14",7,6,"t",1,100.1,23.6,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140912A","PhaseII.VR.Plate.7",6,5,"t",1,1,9.98,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140912A","PhaseII.VR.Plate.7",7,5,"t",1,1,13.48,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140914A","TP0001054.Plate.3",2,10,"t",1,100.1,27.05,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140914A","TP0001054.Plate.3",3,10,"t",1,100.1,33.3,"TP0001054 Plate 3_CeeTox.csv","cort" -"01140916A","PhaseII.VR.Plate.1",2,5,"t",1,9.99,10.25,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140916A","PhaseII.VR.Plate.1",3,5,"t",1,9.99,13.51,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01140918A","TP0001061.Plate.13",4,7,"t",1,100.1,11.05,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140918A","TP0001061.Plate.13",5,7,"t",1,100.1,10.57,"TP0001061 Plate 13_CeeTox.csv","cort" -"01140920A","TP0001054.Plate.2",4,3,"t",1,100,18.73,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140920A","TP0001054.Plate.2",5,3,"t",1,100,21.25,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140922A","PhaseII.VR.Plate.4",6,7,"t",1,9.99,9.01,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140922A","PhaseII.VR.Plate.4",7,7,"t",1,9.99,8.92,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140924A","TP0001058.Plate.2",4,10,"t",1,100.1,18.9,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140924A","TP0001058.Plate.2",5,10,"t",1,100.1,17.47,"TP0001058 Plate 2_CeeTox.csv","cort" -"01140926A","TP0001059.Plate.7",4,6,"t",1,20,19.52,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140926A","TP0001059.Plate.7",5,6,"t",1,20,22.13,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140928A","TP0001058.Plate.3",6,6,"t",1,100,16.96,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140928A","TP0001058.Plate.3",7,6,"t",1,100,16.49,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140930A","TP0001059.Plate.5",4,6,"t",1,100.1,23.66,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140930A","TP0001059.Plate.5",5,6,"t",1,100.1,23.91,"TP0001059 Plate 5_CeeTox.csv","cort" -"01140932A","TP0001055.Plate.6",6,4,"t",1,100,30.56,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140932A","TP0001055.Plate.6",7,4,"t",1,100,26.96,"TP0001055 Plate 6_CeeTox.csv","cort" -"01140934A","TP0001057.Plate.16",6,3,"t",1,100,39.72,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140934A","TP0001057.Plate.16",7,3,"t",1,100,37.28,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140936A","TP0001054.Plate.7",4,5,"t",1,99.9,36.37,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140936A","TP0001054.Plate.7",5,5,"t",1,99.9,35.51,"TP0001055 Plate 7_CeeTox.csv","cort" -"01140938A","TP0001060.Plate.11",6,10,"t",1,99.9,21.95,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140938A","TP0001060.Plate.11",7,10,"t",1,99.9,25.57,"TP0001060 Plate 11_CeeTox.csv","cort" -"01140940A","PhaseII.VR.Plate.6",4,7,"t",1,1,14.96,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140940A","PhaseII.VR.Plate.6",5,7,"t",1,1,14.92,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140942A","TP0001054.Plate.8",2,10,"t",1,100,21.8,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140942A","TP0001054.Plate.8",3,10,"t",1,100,26.14,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140944A","TP0001056.Plate.12",6,7,"t",1,100,39.6,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140944A","TP0001056.Plate.12",7,7,"t",1,100,37.2,"TP0001056 Plate 12_CeeTox.csv","cort" -"01140946A","TP0001057.Plate.13",6,5,"t",1,99.9,22.27,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140946A","TP0001057.Plate.13",7,5,"t",1,99.9,21.24,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140948A","TP0001057.Plate.13",2,8,"t",1,100,14.05,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140948A","TP0001057.Plate.13",3,8,"t",1,100,18.14,"TP0001057 Plate 13_CeeTox.csv","cort" -"01140950A","TP0001062.Plate.18",2,7,"t",1,100.1,22.73,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140950A","TP0001062.Plate.18",3,7,"t",1,100.1,23.65,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140952A","TP0001061.Plate.14",4,5,"t",1,100.1,20.49,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140952A","TP0001061.Plate.14",5,5,"t",1,100.1,24.21,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140954A","PhaseII.VR.Plate.7",4,4,"t",1,1,10.39,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140954A","PhaseII.VR.Plate.7",5,4,"t",1,1,12.62,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01140956A","TP0001062.Plate.18",2,9,"t",1,20,15.09,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140956A","TP0001062.Plate.18",3,9,"t",1,20,17.56,"TP0001062_Plate_18_Ceetox.csv","cort" -"01140958A","PhaseII.VR.Plate.2",2,10,"t",1,10,16.73,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140958A","PhaseII.VR.Plate.2",3,10,"t",1,10,18.21,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01140960A","PhaseIIe1k.VR.Plate.1",6,3,"t",1,10,42.39,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140960A","PhaseIIe1k.VR.Plate.1",7,3,"t",1,10,46.93,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140960A","PhaseIIe1k.VR.Plate.1",6,4,"t",1,10,51.46,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140960A","PhaseIIe1k.VR.Plate.1",7,4,"t",1,10,52.85,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140960A","PhaseIIe1k.VR.Plate.1",6,5,"t",1,10,47.21,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140960A","PhaseIIe1k.VR.Plate.1",7,5,"t",1,10,48.17,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140960A","PhaseIIe1k.VR.Plate.1",6,6,"t",1,10,64.58,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140960A","PhaseIIe1k.VR.Plate.1",7,6,"t",1,10,65.45,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"01140962A","PhaseII.VR.Plate.6",4,5,"t",1,1,15.01,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140962A","PhaseII.VR.Plate.6",5,5,"t",1,1,13.64,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01140964A","TP0001059.Plate.7",2,10,"t",1,100.1,25.34,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140964A","TP0001059.Plate.7",3,10,"t",1,100.1,26.61,"TP0001059 Plate 7_CeeTox.csv","cort" -"01140966A","TP0001057.Plate.14",2,10,"t",1,100.1,29.98,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140966A","TP0001057.Plate.14",3,10,"t",1,100.1,28.45,"TP0001057 Plate 14_CeeTox.csv","cort" -"01140968A","TP0001054.Plate.2",6,5,"t",1,100,23.98,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140968A","TP0001054.Plate.2",7,5,"t",1,100,24.26,"TP0001054 Plate 2_CeeTox.csv","cort" -"01140970A","TP0001062.Plate.17",6,3,"t",1,99.9,38.04,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140970A","TP0001062.Plate.17",7,3,"t",1,99.9,41.88,"TP0001062_Plate_17_Ceetox.csv","cort" -"01140972A","TP0001058.Plate.3",4,8,"t",1,100.1,37.24,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140972A","TP0001058.Plate.3",5,8,"t",1,100.1,29.46,"TP0001058 Plate 3_CeeTox.csv","cort" -"01140974A","TP0001058.Plate.1",2,5,"t",1,100,28.52,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140974A","TP0001058.Plate.1",3,5,"t",1,100,28.39,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140976A","PhaseIIe1k.VR.Plate.3",4,3,"t",1,10.01,54.56,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01140976A","PhaseIIe1k.VR.Plate.3",5,3,"t",1,10.01,57.85,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01140976A","PhaseII.VR.Plate.3",6,7,"t",1,10.01,10.42,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140976A","PhaseII.VR.Plate.3",7,7,"t",1,10.01,11.63,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01140978A","PhaseII.VR.Plate.5",6,9,"t",1,10.01,16.25,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140978A","PhaseII.VR.Plate.5",7,9,"t",1,10.01,16.25,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01140980A","TP0001057.Plate.16",2,8,"t",1,100,29.24,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140980A","TP0001057.Plate.16",3,8,"t",1,100,31.36,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140982A","TP0001058.Plate.1",6,4,"t",1,100,1.5,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140982A","TP0001058.Plate.1",7,4,"t",1,100,2.21,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140984A","TP0001057.Plate.16",2,6,"t",1,99.9,27.1,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140984A","TP0001057.Plate.16",3,6,"t",1,99.9,32.07,"TP0001057 Plate 16_CeeTox.csv","cort" -"01140986A","TP0001054.Plate.8",2,8,"t",1,100,1.05,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140986A","TP0001054.Plate.8",3,8,"t",1,100,1.05,"TP0001055 Plate 8_CeeTox.csv","cort" -"01140988A","TP0001060.Plate.12",2,3,"t",1,100,35.26,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140988A","TP0001060.Plate.12",3,3,"t",1,100,34.03,"TP0001060 Plate 12_CeeTox.csv","cort" -"01140990A","TP0001061.Plate.14",6,10,"t",1,100.1,18.6,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140990A","TP0001061.Plate.14",7,10,"t",1,100.1,15.11,"TP0001061 Plate 14_CeeTox.csv","cort" -"01140992A","PhaseII.VR.Plate.8",4,10,"t",1,1,9.01,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140992A","PhaseII.VR.Plate.8",5,10,"t",1,1,12.4,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01140994A","TP0001059.Plate.6",4,8,"t",1,99.9,21.63,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140994A","TP0001059.Plate.6",5,8,"t",1,99.9,24.22,"TP0001059 Plate 6_CeeTox.csv","cort" -"01140996A","PhaseII.VR.Plate.4",2,7,"t",1,10.01,7.85,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140996A","PhaseII.VR.Plate.4",3,7,"t",1,10.01,7.88,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01140998A","TP0001058.Plate.1",2,9,"t",1,100.1,24.82,"TP0001058 Plate 1_Ceetox.csv","cort" -"01140998A","TP0001058.Plate.1",3,9,"t",1,100.1,19.91,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141000A","TP0001061.Plate.14",6,4,"t",1,100,23.48,"TP0001061 Plate 14_CeeTox.csv","cort" -"01141000A","TP0001061.Plate.14",7,4,"t",1,100,21.54,"TP0001061 Plate 14_CeeTox.csv","cort" -"01141002A","TP0001058.Plate.4",6,10,"t",1,100,27.53,"TP0001058 Plate 4_CeeTox.csv","cort" -"01141002A","TP0001058.Plate.4",7,10,"t",1,100,25.92,"TP0001058 Plate 4_CeeTox.csv","cort" -"01141004A","TP0001057.Plate.14",4,7,"t",1,100.1,29.12,"TP0001057 Plate 14_CeeTox.csv","cort" -"01141004A","TP0001057.Plate.14",5,7,"t",1,100.1,31.15,"TP0001057 Plate 14_CeeTox.csv","cort" -"01141006A","TP0001060.Plate.9",4,6,"t",1,99.9,24.32,"TP0001060 Plate 9_CeeTox.csv","cort" -"01141006A","TP0001060.Plate.9",5,6,"t",1,99.9,20.68,"TP0001060 Plate 9_CeeTox.csv","cort" -"01141008A","TP0001055.Plate.5",2,5,"t",1,100.1,29.36,"TP0001055 Plate 5_CeeTox.csv","cort" -"01141008A","TP0001055.Plate.5",3,5,"t",1,100.1,30.64,"TP0001055 Plate 5_CeeTox.csv","cort" -"01141010A","TP0001058.Plate.1",2,10,"t",1,99.9,5.08,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141010A","TP0001058.Plate.1",3,10,"t",1,99.9,3.81,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141012A","TP0001055.Plate.6",4,3,"t",1,100,26.02,"TP0001055 Plate 6_CeeTox.csv","cort" -"01141012A","TP0001055.Plate.6",5,3,"t",1,100,21.01,"TP0001055 Plate 6_CeeTox.csv","cort" -"01141014A","PhaseII.VR.Plate.6",2,8,"t",1,1,16.61,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01141014A","PhaseII.VR.Plate.6",3,8,"t",1,1,15.04,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01141016A","TP0001057.Plate.14",6,4,"t",1,99.9,28.63,"TP0001057 Plate 14_CeeTox.csv","cort" -"01141016A","TP0001057.Plate.14",7,4,"t",1,99.9,25.68,"TP0001057 Plate 14_CeeTox.csv","cort" -"01141018A","TP0001062.Plate.17",6,8,"t",1,99.9,28.13,"TP0001062_Plate_17_Ceetox.csv","cort" -"01141018A","TP0001062.Plate.17",7,8,"t",1,99.9,30.27,"TP0001062_Plate_17_Ceetox.csv","cort" -"01141020A","TP0001057.Plate.15",4,3,"t",1,99.9,29.41,"TP0001057 Plate 15_CeeTox.csv","cort" -"01141020A","TP0001057.Plate.15",5,3,"t",1,99.9,28.66,"TP0001057 Plate 15_CeeTox.csv","cort" -"01141022A","TP0001059.Plate.8",4,3,"t",1,100,31.73,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141022A","TP0001059.Plate.8",5,3,"t",1,100,29.74,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141024A","TP0001061.Plate.13",2,10,"t",1,100,19.85,"TP0001061 Plate 13_CeeTox.csv","cort" -"01141024A","TP0001061.Plate.13",3,10,"t",1,100,25.06,"TP0001061 Plate 13_CeeTox.csv","cort" -"01141026A","TP0001056.Plate.9",2,4,"t",1,100,21.08,"TP0001056 Plate 9_CeeTox.csv","cort" -"01141026A","TP0001056.Plate.9",3,4,"t",1,100,23.84,"TP0001056 Plate 9_CeeTox.csv","cort" -"01141028A","PhaseIIe1k.VR.Plate.3",2,7,"t",1,1,51.8,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01141028A","PhaseIIe1k.VR.Plate.3",3,7,"t",1,1,59.46,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01141030A","TP0001059.Plate.8",2,7,"t",1,100.1,16.21,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141030A","TP0001059.Plate.8",3,7,"t",1,100.1,26.33,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141032A","TP0001055.Plate.5",6,8,"t",1,20,20.85,"TP0001055 Plate 5_CeeTox.csv","cort" -"01141032A","TP0001055.Plate.5",7,8,"t",1,20,21.95,"TP0001055 Plate 5_CeeTox.csv","cort" -"01141034A","PhaseII.VR.Plate.3",4,4,"t",1,9.99,3.91,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01141034A","PhaseII.VR.Plate.3",5,4,"t",1,9.99,5.19,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01141036A","TP0001056.Plate.10",2,3,"t",1,99.9,20.24,"TP0001056 Plate 10_CeeTox.csv","cort" -"01141036A","TP0001056.Plate.10",3,3,"t",1,99.9,21.72,"TP0001056 Plate 10_CeeTox.csv","cort" -"01141038A","TP0001058.Plate.3",4,4,"t",1,99.9,4.2,"TP0001058 Plate 3_CeeTox.csv","cort" -"01141038A","TP0001058.Plate.3",5,4,"t",1,99.9,4.07,"TP0001058 Plate 3_CeeTox.csv","cort" -"01141040A","TP0001061.Plate.15",4,3,"t",1,100.1,7.93,"TP0001061 Plate 15_CeeTox.csv","cort" -"01141040A","TP0001061.Plate.15",5,3,"t",1,100.1,7.81,"TP0001061 Plate 15_CeeTox.csv","cort" -"01141042A","TP0001060.Plate.11",6,3,"t",1,100,24.81,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141042A","TP0001060.Plate.11",7,3,"t",1,100,24.12,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141044A","TP0001058.Plate.1",6,3,"t",1,99.9,28.84,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141044A","TP0001058.Plate.1",7,3,"t",1,99.9,32.6,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141046A","PhaseII.VR.Plate.5",2,9,"t",1,10.01,14.02,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01141046A","PhaseII.VR.Plate.5",3,9,"t",1,10.01,16.58,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01141048A","TP0001054.Plate.1",2,9,"t",1,100.1,15.86,"TP0001054 Plate 1_CeeTox.csv","cort" -"01141048A","TP0001054.Plate.1",3,9,"t",1,100.1,23.75,"TP0001054 Plate 1_CeeTox.csv","cort" -"01141050A","PhaseII.VR.Plate.8",6,6,"t",1,1,6.97,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01141050A","PhaseII.VR.Plate.8",7,6,"t",1,1,6.48,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01141052A","TP0001059.Plate.7",6,8,"t",1,99.9,39.01,"TP0001059 Plate 7_CeeTox.csv","cort" -"01141052A","TP0001059.Plate.7",7,8,"t",1,99.9,30.11,"TP0001059 Plate 7_CeeTox.csv","cort" -"01141054A","TP0001057.Plate.14",2,7,"t",1,100,28.76,"TP0001057 Plate 14_CeeTox.csv","cort" -"01141054A","TP0001057.Plate.14",3,7,"t",1,100,28.49,"TP0001057 Plate 14_CeeTox.csv","cort" -"01141056A","TP0001061.Plate.16",2,3,"t",1,100,25.88,"TP0001061 Plate 16_CeeTox.csv","cort" -"01141056A","TP0001061.Plate.16",3,3,"t",1,100,28.28,"TP0001061 Plate 16_CeeTox.csv","cort" -"01141058A","PhaseII.VR.Plate.1",6,8,"t",1,9.99,15.82,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01141058A","PhaseII.VR.Plate.1",7,8,"t",1,9.99,16.06,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01141060A","TP0001059.Plate.8",4,10,"t",1,100.1,23.43,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141060A","TP0001059.Plate.8",5,10,"t",1,100.1,28.42,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141062A","TP0001059.Plate.8",6,10,"t",1,100,23.12,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141062A","TP0001059.Plate.8",7,10,"t",1,100,22.12,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141064A","PhaseII.VR.Plate.2",2,7,"t",1,9.99,11.71,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01141064A","PhaseII.VR.Plate.2",3,7,"t",1,9.99,9.72,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01141066A","TP0001060.Plate.10",4,3,"t",1,99.9,13.82,"TP0001060 Plate 10_CeeTox.csv","cort" -"01141066A","TP0001060.Plate.10",5,3,"t",1,99.9,15.7,"TP0001060 Plate 10_CeeTox.csv","cort" -"01141068A","PhaseII.VR.Plate.2",2,4,"t",1,10.01,6.09,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01141068A","PhaseII.VR.Plate.2",3,4,"t",1,10.01,7.15,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01141070A","TP0001054.Plate.3",2,7,"t",1,99.9,19.22,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141070A","TP0001054.Plate.3",3,7,"t",1,99.9,27.17,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141072A","TP0001057.Plate.14",6,7,"t",1,100,20.51,"TP0001057 Plate 14_CeeTox.csv","cort" -"01141072A","TP0001057.Plate.14",7,7,"t",1,100,23.96,"TP0001057 Plate 14_CeeTox.csv","cort" -"01141074A","TP0001059.Plate.5",4,8,"t",1,50,18.24,"TP0001059 Plate 5_CeeTox.csv","cort" -"01141074A","TP0001059.Plate.5",5,8,"t",1,50,15.05,"TP0001059 Plate 5_CeeTox.csv","cort" -"01141076A","PhaseII.VR.Plate.7",6,6,"t",1,1,14.3,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01141076A","PhaseII.VR.Plate.7",7,6,"t",1,1,18.54,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01141078A","PhaseII.VR.Plate.8",4,3,"t",1,1,13.91,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01141078A","PhaseII.VR.Plate.8",5,3,"t",1,1,14.01,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01141080A","PhaseII.VR.Plate.4",2,9,"t",1,10,10.75,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01141080A","PhaseII.VR.Plate.4",3,9,"t",1,10,10.85,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01141082A","PhaseII.VR.Plate.4",2,10,"t",1,9.99,14.29,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01141082A","PhaseII.VR.Plate.4",3,10,"t",1,9.99,15.27,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01141084A","TP0001057.Plate.16",2,4,"t",1,100.1,29.79,"TP0001057 Plate 16_CeeTox.csv","cort" -"01141084A","TP0001057.Plate.16",3,4,"t",1,100.1,35.02,"TP0001057 Plate 16_CeeTox.csv","cort" -"01141086A","PhaseII.VR.Plate.3",6,8,"t",1,10,11.01,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01141086A","PhaseII.VR.Plate.3",7,8,"t",1,10,10.92,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01141088A","TP0001054.Plate.3",4,10,"t",1,100.1,14.16,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141088A","TP0001054.Plate.3",5,10,"t",1,100.1,14.65,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141090A","TP0001061.Plate.14",4,9,"t",1,99.9,6.16,"TP0001061 Plate 14_CeeTox.csv","cort" -"01141090A","TP0001061.Plate.14",5,9,"t",1,99.9,5.83,"TP0001061 Plate 14_CeeTox.csv","cort" -"01141092A","TP0001054.Plate.4",4,4,"t",1,100.1,26.6,"TP0001054 Plate 4_CeeTox.csv","cort" -"01141092A","TP0001054.Plate.4",5,4,"t",1,100.1,23.43,"TP0001054 Plate 4_CeeTox.csv","cort" -"01141094A","TP0001056.Plate.12",4,3,"t",1,100,27.24,"TP0001056 Plate 12_CeeTox.csv","cort" -"01141094A","TP0001056.Plate.12",5,3,"t",1,100,27.54,"TP0001056 Plate 12_CeeTox.csv","cort" -"01141096A","TP0001057.Plate.16",6,4,"t",1,100.1,35.39,"TP0001057 Plate 16_CeeTox.csv","cort" -"01141096A","TP0001057.Plate.16",7,4,"t",1,100.1,33.65,"TP0001057 Plate 16_CeeTox.csv","cort" -"01141098A","TP0001061.Plate.14",4,7,"t",1,100.1,41.01,"TP0001061 Plate 14_CeeTox.csv","cort" -"01141098A","TP0001061.Plate.14",5,7,"t",1,100.1,40.97,"TP0001061 Plate 14_CeeTox.csv","cort" -"01141100A","TP0001060.Plate.12",6,5,"t",1,99.9,18.16,"TP0001060 Plate 12_CeeTox.csv","cort" -"01141100A","TP0001060.Plate.12",7,5,"t",1,99.9,22.74,"TP0001060 Plate 12_CeeTox.csv","cort" -"01141102A","TP0001054.Plate.8",4,3,"t",1,99.9,20.99,"TP0001055 Plate 8_CeeTox.csv","cort" -"01141102A","TP0001054.Plate.8",5,3,"t",1,99.9,21.51,"TP0001055 Plate 8_CeeTox.csv","cort" -"01141104A","TP0001060.Plate.12",4,5,"t",1,100.1,19.64,"TP0001060 Plate 12_CeeTox.csv","cort" -"01141104A","TP0001060.Plate.12",5,5,"t",1,100.1,22.7,"TP0001060 Plate 12_CeeTox.csv","cort" -"01141106A","PhaseII.VR.Plate.1",6,4,"t",1,10,17.2,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01141106A","PhaseII.VR.Plate.1",7,4,"t",1,10,19.46,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01141108A","TP0001060.Plate.9",2,6,"t",1,100,21.17,"TP0001060 Plate 9_CeeTox.csv","cort" -"01141108A","TP0001060.Plate.9",3,6,"t",1,100,20.24,"TP0001060 Plate 9_CeeTox.csv","cort" -"01141110A","TP0001059.Plate.8",2,6,"t",1,100.1,26.58,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141110A","TP0001059.Plate.8",3,6,"t",1,100.1,20.2,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141112A","PhaseII.VR.Plate.5",4,8,"t",1,9.99,10.16,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01141112A","PhaseII.VR.Plate.5",5,8,"t",1,9.99,11.9,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01141114A","TP0001057.Plate.15",6,6,"t",1,99.9,25.82,"TP0001057 Plate 15_CeeTox.csv","cort" -"01141114A","TP0001057.Plate.15",7,6,"t",1,99.9,29.95,"TP0001057 Plate 15_CeeTox.csv","cort" -"01141118A","TP0001055.Plate.6",4,5,"t",1,100.1,34.28,"TP0001055 Plate 6_CeeTox.csv","cort" -"01141118A","TP0001055.Plate.6",5,5,"t",1,100.1,33.82,"TP0001055 Plate 6_CeeTox.csv","cort" -"01141120A","PhaseIIe1k.VR.Plate.3",2,3,"t",1,10,56.12,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01141120A","PhaseIIe1k.VR.Plate.3",3,3,"t",1,10,45.06,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01141122A","PhaseII.VR.Plate.7",4,9,"t",1,1,11.48,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01141122A","PhaseII.VR.Plate.7",5,9,"t",1,1,10.6,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01141124A","TP0001055.Plate.5",2,10,"t",1,100,1.15,"TP0001055 Plate 5_CeeTox.csv","cort" -"01141124A","TP0001055.Plate.5",3,10,"t",1,100,1.08,"TP0001055 Plate 5_CeeTox.csv","cort" -"01141126A","PhaseII.VR.Plate.6",4,8,"t",1,1,15.05,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01141126A","PhaseII.VR.Plate.6",5,8,"t",1,1,11.86,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01141128A","TP0001059.Plate.5",4,4,"t",1,100,9.25,"TP0001059 Plate 5_CeeTox.csv","cort" -"01141128A","TP0001059.Plate.5",5,4,"t",1,100,8.62,"TP0001059 Plate 5_CeeTox.csv","cort" -"01141130A","PhaseII.VR.Plate.1",6,5,"t",1,5,11.98,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01141130A","PhaseII.VR.Plate.1",7,5,"t",1,5,13.93,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01141132A","PhaseII.VR.Plate.7",2,10,"t",1,1,8.02,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01141132A","PhaseII.VR.Plate.7",3,10,"t",1,1,14.45,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01141134A","TP0001058.Plate.1",2,3,"t",1,10,24.86,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141134A","TP0001058.Plate.1",3,3,"t",1,10,21.14,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141136A","TP0001058.Plate.1",2,4,"t",1,99.9,30.28,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141136A","TP0001058.Plate.1",3,4,"t",1,99.9,26.71,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141138A","PhaseII.VR.Plate.5",2,8,"t",1,10,12.24,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01141138A","PhaseII.VR.Plate.5",3,8,"t",1,10,14.82,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"01141140A","PhaseII.VR.Plate.7",6,4,"t",1,1,8.11,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01141140A","PhaseII.VR.Plate.7",7,4,"t",1,1,8.12,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"01141142A","TP0001054.Plate.3",4,4,"t",1,100.1,11.71,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141142A","TP0001054.Plate.3",5,4,"t",1,100.1,12.14,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141144A","PhaseIIe1k.VR.Plate.2",2,3,"t",1,9.99,0.53,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"01141144A","PhaseIIe1k.VR.Plate.2",3,3,"t",1,9.99,0.66,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"01141146A","TP0001056.Plate.10",2,7,"t",1,100.1,6.49,"TP0001056 Plate 10_CeeTox.csv","cort" -"01141146A","TP0001056.Plate.10",3,7,"t",1,100.1,6.84,"TP0001056 Plate 10_CeeTox.csv","cort" -"01141148A","PhaseII.VR.Plate.4",6,6,"t",1,10,10.29,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01141148A","PhaseII.VR.Plate.4",7,6,"t",1,10,9.64,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"01141150A","TP0001054.Plate.2",2,7,"t",1,99.9,21.52,"TP0001054 Plate 2_CeeTox.csv","cort" -"01141150A","TP0001054.Plate.2",3,7,"t",1,99.9,24.66,"TP0001054 Plate 2_CeeTox.csv","cort" -"01141152A","TP0001059.Plate.6",6,5,"t",1,99.9,19.1,"TP0001059 Plate 6_CeeTox.csv","cort" -"01141152A","TP0001059.Plate.6",7,5,"t",1,99.9,18.88,"TP0001059 Plate 6_CeeTox.csv","cort" -"01141154A","TP0001061.Plate.14",2,7,"t",1,99.9,16.2,"TP0001061 Plate 14_CeeTox.csv","cort" -"01141154A","TP0001061.Plate.14",3,7,"t",1,99.9,20.42,"TP0001061 Plate 14_CeeTox.csv","cort" -"01141162A","TP0001060.Plate.11",4,8,"t",1,100,23.59,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141162A","TP0001060.Plate.11",5,8,"t",1,100,20.6,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141164A","TP0001058.Plate.3",2,7,"t",1,100.1,13.78,"TP0001058 Plate 3_CeeTox.csv","cort" -"01141164A","TP0001058.Plate.3",3,7,"t",1,100.1,20.43,"TP0001058 Plate 3_CeeTox.csv","cort" -"01141166A","PhaseII.VR.Plate.2",4,8,"t",1,9.99,10.36,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01141166A","PhaseII.VR.Plate.2",5,8,"t",1,9.99,10.81,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01141168A","TP0001060.Plate.10",4,7,"t",1,100,19.17,"TP0001060 Plate 10_CeeTox.csv","cort" -"01141168A","TP0001060.Plate.10",5,7,"t",1,100,20.77,"TP0001060 Plate 10_CeeTox.csv","cort" -"01141170A","TP0001061.Plate.13",2,8,"t",1,100,17.08,"TP0001061 Plate 13_CeeTox.csv","cort" -"01141170A","TP0001061.Plate.13",3,8,"t",1,100,17.59,"TP0001061 Plate 13_CeeTox.csv","cort" -"01141172A","PhaseII.VR.Plate.3",6,6,"t",1,10,8.06,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01141172A","PhaseII.VR.Plate.3",7,6,"t",1,10,9.02,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01141174A","PhaseIIe1k.VR.Plate.3",2,9,"t",1,1,52.83,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01141174A","PhaseIIe1k.VR.Plate.3",3,9,"t",1,1,52.05,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01141176A","TP0001055.Plate.6",2,7,"t",1,100,20.38,"TP0001055 Plate 6_CeeTox.csv","cort" -"01141176A","TP0001055.Plate.6",3,7,"t",1,100,19.44,"TP0001055 Plate 6_CeeTox.csv","cort" -"01141178A","TP0001055.Plate.6",2,6,"t",1,99.9,4.16,"TP0001055 Plate 6_CeeTox.csv","cort" -"01141178A","TP0001055.Plate.6",3,6,"t",1,99.9,4.85,"TP0001055 Plate 6_CeeTox.csv","cort" -"01141180A","TP0001062.Plate.17",4,8,"t",1,100,24.72,"TP0001062_Plate_17_Ceetox.csv","cort" -"01141180A","TP0001062.Plate.17",5,8,"t",1,100,26.41,"TP0001062_Plate_17_Ceetox.csv","cort" -"01141182A","PhaseII.VR.Plate.6",2,10,"t",1,1,12.48,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01141182A","PhaseII.VR.Plate.6",3,10,"t",1,1,10.49,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01141184A","TP0001059.Plate.7",6,6,"t",1,100.1,3.04,"TP0001059 Plate 7_CeeTox.csv","cort" -"01141184A","TP0001059.Plate.7",7,6,"t",1,100.1,3.04,"TP0001059 Plate 7_CeeTox.csv","cort" -"01141186A","PhaseII.VR.Plate.6",6,8,"t",1,1,9.09,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01141186A","PhaseII.VR.Plate.6",7,8,"t",1,1,10.18,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"01141188A","TP0001054.Plate.3",6,5,"t",1,100,28.55,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141188A","TP0001054.Plate.3",7,5,"t",1,100,25.72,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141190A","TP0001062.Plate.18",4,10,"t",1,50,37.12,"TP0001062_Plate_18_Ceetox.csv","cort" -"01141190A","TP0001062.Plate.18",5,10,"t",1,50,34.22,"TP0001062_Plate_18_Ceetox.csv","cort" -"01141192A","TP0001058.Plate.1",2,8,"t",1,100,18.93,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141192A","TP0001058.Plate.1",3,8,"t",1,100,15.23,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141194A","TP0001054.Plate.3",6,9,"t",1,50,110.29,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141194A","TP0001054.Plate.3",7,9,"t",1,50,112.69,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141196A","TP0001058.Plate.4",2,5,"t",1,50,51.07,"TP0001058 Plate 4_CeeTox.csv","cort" -"01141196A","TP0001058.Plate.4",3,5,"t",1,50,54.68,"TP0001058 Plate 4_CeeTox.csv","cort" -"01141200A","TP0001054.Plate.7",4,9,"t",1,10,25.02,"TP0001055 Plate 7_CeeTox.csv","cort" -"01141200A","TP0001054.Plate.7",5,9,"t",1,10,23.6,"TP0001055 Plate 7_CeeTox.csv","cort" -"01141202A","PhaseII.VR.Plate.8",6,4,"t",1,1,10.64,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01141202A","PhaseII.VR.Plate.8",7,4,"t",1,1,13.74,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"01141204A","TP0001060.Plate.11",2,4,"t",1,99.9,22.72,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141204A","TP0001060.Plate.11",3,4,"t",1,99.9,23.92,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141206A","TP0001061.Plate.16",2,4,"t",1,100,1.54,"TP0001061 Plate 16_CeeTox.csv","cort" -"01141206A","TP0001061.Plate.16",3,4,"t",1,100,1.56,"TP0001061 Plate 16_CeeTox.csv","cort" -"01141208A","TP0001060.Plate.10",2,10,"t",1,99.9,2.02,"TP0001060 Plate 10_CeeTox.csv","cort" -"01141208A","TP0001060.Plate.10",3,10,"t",1,99.9,2.26,"TP0001060 Plate 10_CeeTox.csv","cort" -"01141210A","TP0001058.Plate.1",6,6,"t",1,99.9,6.99,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141210A","TP0001058.Plate.1",7,6,"t",1,99.9,8.09,"TP0001058 Plate 1_Ceetox.csv","cort" -"01141212A","TP0001054.Plate.3",2,9,"t",1,100.1,21.64,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141212A","TP0001054.Plate.3",3,9,"t",1,100.1,21.47,"TP0001054 Plate 3_CeeTox.csv","cort" -"01141214A","PhaseII.VR.Plate.2",4,3,"t",1,10,11.01,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01141214A","PhaseII.VR.Plate.2",5,3,"t",1,10,11.09,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"01141216A","TP0001054.Plate.4",2,5,"t",1,100,22.39,"TP0001054 Plate 4_CeeTox.csv","cort" -"01141216A","TP0001054.Plate.4",3,5,"t",1,100,24.95,"TP0001054 Plate 4_CeeTox.csv","cort" -"01141218A","TP0001059.Plate.8",6,9,"t",1,100,9.33,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141218A","TP0001059.Plate.8",7,9,"t",1,100,8.79,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141220A","TP0001058.Plate.2",6,3,"t",1,100.1,23.24,"TP0001058 Plate 2_CeeTox.csv","cort" -"01141220A","TP0001058.Plate.2",7,3,"t",1,100.1,23.32,"TP0001058 Plate 2_CeeTox.csv","cort" -"01141222A","TP0001060.Plate.11",4,9,"t",1,100,19.2,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141222A","TP0001060.Plate.11",5,9,"t",1,100,20.82,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141224A","TP0001060.Plate.11",2,8,"t",1,100,22.09,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141224A","TP0001060.Plate.11",3,8,"t",1,100,21.8,"TP0001060 Plate 11_CeeTox.csv","cort" -"01141226A","PhaseIIe1k.VR.Plate.3",4,9,"t",1,1,58.34,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01141226A","PhaseIIe1k.VR.Plate.3",5,9,"t",1,1,54.77,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"01141228A","TP0001059.Plate.7",4,8,"t",1,100.1,16,"TP0001059 Plate 7_CeeTox.csv","cort" -"01141228A","TP0001059.Plate.7",5,8,"t",1,100.1,13.18,"TP0001059 Plate 7_CeeTox.csv","cort" -"01141230A","TP0001056.Plate.12",6,5,"t",1,100.1,29.97,"TP0001056 Plate 12_CeeTox.csv","cort" -"01141230A","TP0001056.Plate.12",7,5,"t",1,100.1,28.81,"TP0001056 Plate 12_CeeTox.csv","cort" -"01141232A","PhaseII.VR.Plate.3",6,9,"t",1,9.99,12.36,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01141232A","PhaseII.VR.Plate.3",7,9,"t",1,9.99,12.36,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"01141234A","PhaseII.VR.Plate.1",6,3,"t",1,9.99,13.83,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01141234A","PhaseII.VR.Plate.1",7,3,"t",1,9.99,12.78,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"01141236A","TP0001059.Plate.8",6,3,"t",1,100,25.68,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141236A","TP0001059.Plate.8",7,3,"t",1,100,26.94,"TP0001059 Plate 8_CeeTox.csv","cort" -"01141238A","TP0001059.Plate.7",4,10,"t",1,100,25.65,"TP0001059 Plate 7_CeeTox.csv","cort" -"01141238A","TP0001059.Plate.7",5,10,"t",1,100,25.56,"TP0001059 Plate 7_CeeTox.csv","cort" -"01141240A","TP0001062.Plate.18",2,5,"t",1,20,6.48,"TP0001062_Plate_18_Ceetox.csv","cort" -"01141240A","TP0001062.Plate.18",3,5,"t",1,20,7.13,"TP0001062_Plate_18_Ceetox.csv","cort" -"01141242A","TP0001060.Plate.10",6,6,"t",1,100.1,22.97,"TP0001060 Plate 10_CeeTox.csv","cort" -"01141242A","TP0001060.Plate.10",7,6,"t",1,100.1,24.09,"TP0001060 Plate 10_CeeTox.csv","cort" -"01141244A","TP0001059.Plate.5",6,5,"t",1,99.9,20.76,"TP0001059 Plate 5_CeeTox.csv","cort" -"01141244A","TP0001059.Plate.5",7,5,"t",1,99.9,20.62,"TP0001059 Plate 5_CeeTox.csv","cort" -"01141246A","TP0001054.Plate.4",4,8,"t",1,20,21.23,"TP0001054 Plate 4_CeeTox.csv","cort" -"01141246A","TP0001054.Plate.4",5,8,"t",1,20,21.03,"TP0001054 Plate 4_CeeTox.csv","cort" -"01141252A","TP0001056.Plate.10",4,4,"t",1,99.9,32.38,"TP0001056 Plate 10_CeeTox.csv","cort" -"01141252A","TP0001056.Plate.10",5,4,"t",1,99.9,34.25,"TP0001056 Plate 10_CeeTox.csv","cort" -"01141254A","TP0001056.Plate.9",6,4,"t",1,99.9,22.14,"TP0001056 Plate 9_CeeTox.csv","cort" -"01141254A","TP0001056.Plate.9",7,4,"t",1,99.9,25.82,"TP0001056 Plate 9_CeeTox.csv","cort" -"11140700A","PhaseII.VR.Plate.7",2,7,"t",1,1,14.05,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"11140700A","PhaseII.VR.Plate.7",3,7,"t",1,1,14.94,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"11140702A","PhaseII.VR.Plate.7",6,7,"t",1,1,14.67,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"11140702A","PhaseII.VR.Plate.7",7,7,"t",1,1,16.98,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"11140704A","TP0001058.Plate.1",6,10,"t",1,50,25.43,"TP0001058 Plate 1_Ceetox.csv","cort" -"11140704A","TP0001058.Plate.1",7,10,"t",1,50,25.41,"TP0001058 Plate 1_Ceetox.csv","cort" -"11140794A","TP0001057.Plate.15",4,7,"t",1,100,19.87,"TP0001057 Plate 15_CeeTox.csv","cort" -"11140794A","TP0001057.Plate.15",5,7,"t",1,100,18.19,"TP0001057 Plate 15_CeeTox.csv","cort" -"11141106A","PhaseII.VR.Plate.2",2,9,"t",1,10,17.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"11141106A","PhaseII.VR.Plate.2",3,9,"t",1,10,19.56,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"11141120A","PhaseIIe1k.VR.Plate.3",6,4,"t",1,10,55.03,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"11141120A","PhaseIIe1k.VR.Plate.3",7,4,"t",1,10,55.75,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"11141122A","PhaseII.VR.Plate.3",4,10,"t",1,10,11.49,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"11141122A","PhaseII.VR.Plate.3",5,10,"t",1,10,13.91,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"11141124A","TP0001057.Plate.15",2,6,"t",1,100,1.34,"TP0001057 Plate 15_CeeTox.csv","cort" -"11141124A","TP0001057.Plate.15",3,6,"t",1,100,1.25,"TP0001057 Plate 15_CeeTox.csv","cort" -"11141126A","PhaseII.VR.Plate.6",6,5,"t",1,1,13.14,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"11141126A","PhaseII.VR.Plate.6",7,5,"t",1,1,14.29,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"11141130A","TP0001055.Plate.5",6,3,"t",1,50,13.99,"TP0001055 Plate 5_CeeTox.csv","cort" -"11141130A","TP0001055.Plate.5",7,3,"t",1,50,12.56,"TP0001055 Plate 5_CeeTox.csv","cort" -"11141132A","PhaseII.VR.Plate.7",2,9,"t",1,1,13.33,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"11141132A","PhaseII.VR.Plate.7",3,9,"t",1,1,15.14,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"21140700A","PhaseII.VR.Plate.3",6,3,"t",1,10,14.19,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"21140700A","PhaseII.VR.Plate.3",7,3,"t",1,10,15.28,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"21140702A","PhaseII.VR.Plate.8",2,10,"t",1,1,12.96,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"21140702A","PhaseII.VR.Plate.8",3,10,"t",1,1,14.89,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"21140704A","TP0001061.Plate.16",6,8,"t",1,50,16.91,"TP0001061 Plate 16_CeeTox.csv","cort" -"21140704A","TP0001061.Plate.16",7,8,"t",1,50,17.46,"TP0001061 Plate 16_CeeTox.csv","cort" -"21140794A","TP0001061.Plate.13",2,9,"t",1,100,11.8,"TP0001061 Plate 13_CeeTox.csv","cort" -"21140794A","TP0001061.Plate.13",3,9,"t",1,100,14.4,"TP0001061 Plate 13_CeeTox.csv","cort" -"21141106A","PhaseII.VR.Plate.2",2,8,"t",1,10,15.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"21141106A","PhaseII.VR.Plate.2",3,8,"t",1,10,19.64,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"21141120A","PhaseIIe1k.VR.Plate.3",4,5,"t",1,10,54.43,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"21141120A","PhaseIIe1k.VR.Plate.3",5,5,"t",1,10,61.57,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"21141122A","PhaseII.VR.Plate.8",2,7,"t",1,1,12.03,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"21141122A","PhaseII.VR.Plate.8",3,7,"t",1,1,14.06,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"21141124A","TP0001058.Plate.4",6,7,"t",1,100,1.12,"TP0001058 Plate 4_CeeTox.csv","cort" -"21141124A","TP0001058.Plate.4",7,7,"t",1,100,1.14,"TP0001058 Plate 4_CeeTox.csv","cort" -"21141126A","TP0001059.Plate.7",6,10,"t",1,100,8.48,"TP0001059 Plate 7_CeeTox.csv","cort" -"21141126A","TP0001059.Plate.7",7,10,"t",1,100,7.83,"TP0001059 Plate 7_CeeTox.csv","cort" -"21141130A","PhaseII.VR.Plate.2",4,5,"t",1,5,13.38,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"21141130A","PhaseII.VR.Plate.2",5,5,"t",1,5,12.6,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"21141132A","PhaseII.VR.Plate.8",2,4,"t",1,1,13.99,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"21141132A","PhaseII.VR.Plate.8",3,4,"t",1,1,15.66,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"BF00107322","phIII.e1k.VR.Plate.3",6,5,"t",1,0.1,18.86,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"BF00107322","phIII.e1k.VR.Plate.3",7,5,"t",1,0.1,17.99,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"BF00128067","TP0000884.Plate.2",4,3,"t",1,100,9.81129236642242,"TP0000884 Plate 2A.xlsx","cort" -"BF00128067","TP0000884.Plate.2",5,3,"t",1,100,10.7274679953512,"TP0000884 Plate 2A.xlsx","cort" -"BF00128068","20120829.Plate.2",4,10,"t",1,1,10.3981585884811,"20120829 Plate 2B.xlsx","cort" -"BF00128068","20120829.Plate.2",5,10,"t",1,1,10.0770674484304,"20120829 Plate 2B.xlsx","cort" -"BF00128069","TP0000884.Plate.3",6,6,"t",1,100,14.9987448551521,"TP0000884 Plate 3A.xlsx","cort" -"BF00128069","TP0000884.Plate.3",7,6,"t",1,100,14.2039347261726,"TP0000884 Plate 3A.xlsx","cort" -"BF00128070","TP0000884.Plate.3",4,3,"t",1,100,14.1336806599992,"TP0000884 Plate 3A.xlsx","cort" -"BF00128070","TP0000884.Plate.3",5,3,"t",1,100,11.4989407889004,"TP0000884 Plate 3A.xlsx","cort" -"BF00128071","20120829.Plate.3",6,7,"t",1,1,11.7057085262389,"20120829 Plate 3A.xlsx","cort" -"BF00128071","20120829.Plate.3",7,7,"t",1,1,10.5984682230629,"20120829 Plate 3A.xlsx","cort" -"BF00128072","TP0000884.Plate.1",4,6,"t",1,100,14.8003994111396,"TP0000884 Plate 1A.xlsx","cort" -"BF00128072","TP0000884.Plate.1",5,6,"t",1,100,14.8297862550133,"TP0000884 Plate 1A.xlsx","cort" -"BF00128073","20120829.Plate.3",6,9,"t",1,1,0.804003087743217,"20120829 Plate 3A.xlsx","cort" -"BF00128073","20120829.Plate.3",7,9,"t",1,1,0.594245172192186,"20120829 Plate 3A.xlsx","cort" -"BF00128075","20120829.Plate.3",4,7,"t",1,1,10.3790772285511,"20120829 Plate 3A.xlsx","cort" -"BF00128075","20120829.Plate.3",5,7,"t",1,1,11.1717468496558,"20120829 Plate 3A.xlsx","cort" -"BF00128076","TP0000884.Plate.2",6,10,"t",1,100,13.1885877847457,"TP0000884 Plate 2A.xlsx","cort" -"BF00128076","TP0000884.Plate.2",7,10,"t",1,100,16.3029271500046,"TP0000884 Plate 2A.xlsx","cort" -"BF00128078","20120829.Plate.2",6,4,"t",1,1,11.9771433975232,"20120829 Plate 2B.xlsx","cort" -"BF00128078","20120829.Plate.2",7,4,"t",1,1,11.6141768269125,"20120829 Plate 2B.xlsx","cort" -"BF00128079","20120829.Plate.1",4,7,"t",1,1,15.4639285712957,"20120829 Plate 1A.xlsx","cort" -"BF00128079","20120829.Plate.1",5,7,"t",1,1,13.9524257455357,"20120829 Plate 1A.xlsx","cort" -"BF00128080","20120829.Plate.4",4,7,"t",1,10,11.4853016746653,"20120829 Plate 4B.xlsx","cort" -"BF00128080","20120829.Plate.4",5,7,"t",1,10,13.0490278603984,"20120829 Plate 4B.xlsx","cort" -"BF00128081","20120829.Plate.5",2,7,"t",1,10,8.03712872577456,"20120829 Plate 5A.xlsx","cort" -"BF00128081","20120829.Plate.5",3,7,"t",1,10,9.35171352497246,"20120829 Plate 5A.xlsx","cort" -"BF00128082","TP0000883.Plate.1",6,4,"t",1,100,14.4089330436993,"TP0000883 Plate 1A.xlsx","cort" -"BF00128082","TP0000883.Plate.1",7,4,"t",1,100,15.1479266235465,"TP0000883 Plate 1A.xlsx","cort" -"BF00128083","TP0000885.Plate.1",2,3,"t",1,100,6.90526268907032,"TP0000885 Plate 1A.xlsx","cort" -"BF00128083","TP0000885.Plate.1",3,3,"t",1,100,8.14211514676794,"TP0000885 Plate 1A.xlsx","cort" -"BF00128084","20120829.Plate.3",4,5,"t",1,1,14.4910110046257,"20120829 Plate 3A.xlsx","cort" -"BF00128084","20120829.Plate.3",5,5,"t",1,1,17.2614472061159,"20120829 Plate 3A.xlsx","cort" -"BF00128085","TP0000882.Plate.2",4,8,"t",1,100,15.2557576877619,"TP0000882 Plate 2B.xlsx","cort" -"BF00128085","TP0000882.Plate.2",5,8,"t",1,100,17.269265607541,"TP0000882 Plate 2B.xlsx","cort" -"BF00128086","TP0000883.Plate.1",4,9,"t",1,100,12.8089888877228,"TP0000883 Plate 1A.xlsx","cort" -"BF00128086","TP0000883.Plate.1",5,9,"t",1,100,24.4834653248911,"TP0000883 Plate 1A.xlsx","cort" -"BF00128087","20120829.Plate.1",2,6,"t",1,1,9.59256078067626,"20120829 Plate 1A.xlsx","cort" -"BF00128087","20120829.Plate.1",3,6,"t",1,1,10.6476583369789,"20120829 Plate 1A.xlsx","cort" -"BF00128088","20120829.Plate.2",6,6,"t",1,1,9.0638663886806,"20120829 Plate 2B.xlsx","cort" -"BF00128088","20120829.Plate.2",7,6,"t",1,1,9.27372778280849,"20120829 Plate 2B.xlsx","cort" -"BF00128090","20120829.Plate.1",6,9,"t",1,1,5.23422321160685,"20120829 Plate 1A.xlsx","cort" -"BF00128090","20120829.Plate.1",7,9,"t",1,1,5.47175537924269,"20120829 Plate 1A.xlsx","cort" -"BF00128091","TP0000882.Plate.2",6,3,"t",1,100,9.57527808312326,"TP0000882 Plate 2B.xlsx","cort" -"BF00128091","TP0000882.Plate.2",7,3,"t",1,100,9.66075819448092,"TP0000882 Plate 2B.xlsx","cort" -"BF00128092","20120829.Plate.5",2,10,"t",1,10,8.87732714880924,"20120829 Plate 5A.xlsx","cort" -"BF00128092","20120829.Plate.5",3,10,"t",1,10,10.0490588364365,"20120829 Plate 5A.xlsx","cort" -"BF00128094","TP0000884.Plate.2",4,10,"t",1,100,9.61213374612052,"TP0000884 Plate 2A.xlsx","cort" -"BF00128094","TP0000884.Plate.2",5,10,"t",1,100,11.8615012306198,"TP0000884 Plate 2A.xlsx","cort" -"BF00128096","20120829.Plate.6",2,8,"t",1,10,2.35001413360117,"20120829 Plate 6A.xlsx","cort" -"BF00128096","20120829.Plate.6",3,8,"t",1,10,2.40741577537311,"20120829 Plate 6A.xlsx","cort" -"BF00128097","TP0000883.Plate.3",6,7,"t",1,100,1.4257271494684,"TP0000883 Plate 3A.xlsx","cort" -"BF00128097","TP0000883.Plate.3",7,7,"t",1,100,1.46615783691342,"TP0000883 Plate 3A.xlsx","cort" -"BF00128098","20120829.Plate.2",2,9,"t",1,1,9.01281913728571,"20120829 Plate 2B.xlsx","cort" -"BF00128098","20120829.Plate.2",3,9,"t",1,1,8.76085351530206,"20120829 Plate 2B.xlsx","cort" -"BF00128099","TP0000884.Plate.4",2,7,"t",1,100,11.2801068627433,"TP0000884 Plate 4A.xlsx","cort" -"BF00128099","TP0000884.Plate.4",3,7,"t",1,100,14.6997112192099,"TP0000884 Plate 4A.xlsx","cort" -"BF00128100","TP0000882.Plate.1",4,4,"t",1,100,19.7534249548818,"TP0000882 Plate 1A.xlsx","cort" -"BF00128100","TP0000882.Plate.1",5,4,"t",1,100,17.1189093343032,"TP0000882 Plate 1A.xlsx","cort" -"BF00128101","20120829.Plate.4",6,5,"t",1,10,18.3357803711664,"20120829 Plate 4B.xlsx","cort" -"BF00128101","20120829.Plate.4",7,5,"t",1,10,12.5451584380466,"20120829 Plate 4B.xlsx","cort" -"BF00128102","20120829.Plate.5",4,6,"t",1,10,10.530933961841,"20120829 Plate 5A.xlsx","cort" -"BF00128102","20120829.Plate.5",5,6,"t",1,10,9.14095966260878,"20120829 Plate 5A.xlsx","cort" -"BF00128103","20120829.Plate.1",6,5,"t",1,1,12.5572177142051,"20120829 Plate 1A.xlsx","cort" -"BF00128103","20120829.Plate.1",7,5,"t",1,1,11.7770250463222,"20120829 Plate 1A.xlsx","cort" -"BF00128104","TP0000882.Plate.4",2,5,"t",1,100,15.5764424282322,"TP0000882 Plate 4A.xlsx","cort" -"BF00128104","TP0000882.Plate.4",3,5,"t",1,100,16.1233854984187,"TP0000882 Plate 4A.xlsx","cort" -"BF00128105","TP0000884.Plate.3",6,7,"t",1,100,18.4125190378314,"TP0000884 Plate 3A.xlsx","cort" -"BF00128105","TP0000884.Plate.3",7,7,"t",1,100,15.7055766963553,"TP0000884 Plate 3A.xlsx","cort" -"BF00128106","20120829.Plate.4",2,4,"t",1,1,9.21569733758149,"20120829 Plate 4B.xlsx","cort" -"BF00128106","20120829.Plate.4",3,4,"t",1,1,11.7811045315576,"20120829 Plate 4B.xlsx","cort" -"BF00128107","20120829.Plate.4",4,6,"t",1,10,12.1710185911078,"20120829 Plate 4B.xlsx","cort" -"BF00128107","20120829.Plate.4",5,6,"t",1,10,12.5315847064133,"20120829 Plate 4B.xlsx","cort" -"BF00128108","20120829.Plate.5",6,9,"t",1,10,7.01143902813311,"20120829 Plate 5A.xlsx","cort" -"BF00128108","20120829.Plate.5",7,9,"t",1,10,5.85226508896475,"20120829 Plate 5A.xlsx","cort" -"BF00128109","TP0000884.Plate.3",4,6,"t",1,100,24.8981487651902,"TP0000884 Plate 3A.xlsx","cort" -"BF00128109","TP0000884.Plate.3",5,6,"t",1,100,24.5224532885601,"TP0000884 Plate 3A.xlsx","cort" -"BF00128110","20120829.Plate.4",6,10,"t",1,10,12.9193287279515,"20120829 Plate 4B.xlsx","cort" -"BF00128110","20120829.Plate.4",7,10,"t",1,10,10.1757469878359,"20120829 Plate 4B.xlsx","cort" -"BF00128111","TP0000884.Plate.3",4,7,"t",1,100,11.1507897511331,"TP0000884 Plate 3A.xlsx","cort" -"BF00128111","TP0000884.Plate.3",5,7,"t",1,100,10.7559491725482,"TP0000884 Plate 3A.xlsx","cort" -"BF00128112","TP0000884.Plate.2",2,5,"t",1,100,0.824290450408623,"TP0000884 Plate 2A.xlsx","cort" -"BF00128112","TP0000884.Plate.2",3,5,"t",1,100,0.611950105002756,"TP0000884 Plate 2A.xlsx","cort" -"BF00128114","20120829.Plate.3",6,5,"t",1,1,16.1558187486692,"20120829 Plate 3A.xlsx","cort" -"BF00128114","20120829.Plate.3",7,5,"t",1,1,13.7697056601479,"20120829 Plate 3A.xlsx","cort" -"BF00128115","TP0000882.Plate.3",6,8,"t",1,100,14.4474144052135,"TP0000882 Plate 3A.xlsx","cort" -"BF00128115","TP0000882.Plate.3",7,8,"t",1,100,13.7961061068497,"TP0000882 Plate 3A.xlsx","cort" -"BF00128116","TP0000883.Plate.4",2,4,"t",1,100,16.4927805531405,"TP0000883 Plate 4A.xlsx","cort" -"BF00128116","TP0000883.Plate.4",3,4,"t",1,100,16.0372031547958,"TP0000883 Plate 4A.xlsx","cort" -"BF00128117","TP0000882.Plate.1",6,9,"t",1,100,19.544726115519,"TP0000882 Plate 1A.xlsx","cort" -"BF00128117","TP0000882.Plate.1",7,9,"t",1,100,16.5898625513218,"TP0000882 Plate 1A.xlsx","cort" -"BF00128118","TP0000882.Plate.4",4,3,"t",1,100,16.4892537484636,"TP0000882 Plate 4A.xlsx","cort" -"BF00128118","TP0000882.Plate.4",5,3,"t",1,100,17.1203541593482,"TP0000882 Plate 4A.xlsx","cort" -"BF00128119","TP0000882.Plate.1",6,5,"t",1,100,23.4824673182237,"TP0000882 Plate 1A.xlsx","cort" -"BF00128119","TP0000882.Plate.1",7,5,"t",1,100,21.8664168870686,"TP0000882 Plate 1A.xlsx","cort" -"BF00128120","TP0000883.Plate.2",6,8,"t",1,100,15.4304680552113,"TP0000883 Plate 2A.xlsx","cort" -"BF00128120","TP0000883.Plate.2",7,8,"t",1,100,15.1168027421882,"TP0000883 Plate 2A.xlsx","cort" -"BF00128121","TP0000882.Plate.1",6,3,"t",1,100,16.6745148916112,"TP0000882 Plate 1A.xlsx","cort" -"BF00128121","TP0000882.Plate.1",7,3,"t",1,100,19.6125751886615,"TP0000882 Plate 1A.xlsx","cort" -"BF00128122","TP0000882.Plate.1",2,6,"t",1,100,13.574608252705,"TP0000882 Plate 1A.xlsx","cort" -"BF00128122","TP0000882.Plate.1",3,6,"t",1,100,15.8585832283296,"TP0000882 Plate 1A.xlsx","cort" -"BF00128123","TP0000883.Plate.4",4,6,"t",1,100,14.3418922564002,"TP0000883 Plate 4A.xlsx","cort" -"BF00128123","TP0000883.Plate.4",5,6,"t",1,100,16.0639443624543,"TP0000883 Plate 4A.xlsx","cort" -"BF00128124","TP0000882.Plate.1",2,8,"t",1,100,15.6580221225526,"TP0000882 Plate 1A.xlsx","cort" -"BF00128124","TP0000882.Plate.1",3,8,"t",1,100,15.7695151515886,"TP0000882 Plate 1A.xlsx","cort" -"BF00128125","20120829.Plate.3",4,3,"t",1,1,16.9058386431436,"20120829 Plate 3A.xlsx","cort" -"BF00128125","20120829.Plate.3",5,3,"t",1,1,13.9370487645611,"20120829 Plate 3A.xlsx","cort" -"BF00128126","TP0000884.Plate.2",2,6,"t",1,100,12.6143909762955,"TP0000884 Plate 2A.xlsx","cort" -"BF00128126","TP0000884.Plate.2",3,6,"t",1,100,12.2977308957657,"TP0000884 Plate 2A.xlsx","cort" -"BF00128127","20120829.Plate.2",4,5,"t",1,1,14.2853932552243,"20120829 Plate 2B.xlsx","cort" -"BF00128127","20120829.Plate.2",5,5,"t",1,1,13.0105660218856,"20120829 Plate 2B.xlsx","cort" -"BF00128128","TP0000882.Plate.4",6,6,"t",1,100,17.8565866812081,"TP0000882 Plate 4A.xlsx","cort" -"BF00128128","TP0000882.Plate.4",7,6,"t",1,100,16.5134958103057,"TP0000882 Plate 4A.xlsx","cort" -"BF00128129","20120829.Plate.5",2,3,"t",1,10,10.5455028175672,"20120829 Plate 5A.xlsx","cort" -"BF00128129","20120829.Plate.5",3,3,"t",1,10,11.0502877800129,"20120829 Plate 5A.xlsx","cort" -"BF00128130","TP0000884.Plate.4",6,7,"t",1,100,8.39745168573182,"TP0000884 Plate 4A.xlsx","cort" -"BF00128130","TP0000884.Plate.4",7,7,"t",1,100,9.78968896006306,"TP0000884 Plate 4A.xlsx","cort" -"BF00128131","TP0000885.Plate.1",6,4,"t",1,100,13.2068236414782,"TP0000885 Plate 1A.xlsx","cort" -"BF00128131","TP0000885.Plate.1",7,4,"t",1,100,11.0344716187953,"TP0000885 Plate 1A.xlsx","cort" -"BF00128132","TP0000885.Plate.1",4,8,"t",1,100,6.0463667699027,"TP0000885 Plate 1A.xlsx","cort" -"BF00128132","TP0000885.Plate.1",5,8,"t",1,100,7.01550657083447,"TP0000885 Plate 1A.xlsx","cort" -"BF00128133","TP0000883.Plate.1",2,4,"t",1,100,14.346180936663,"TP0000883 Plate 1A.xlsx","cort" -"BF00128133","TP0000883.Plate.1",3,4,"t",1,100,15.4728558408268,"TP0000883 Plate 1A.xlsx","cort" -"BF00128134","TP0000883.Plate.3",4,8,"t",1,100,15.1972720458361,"TP0000883 Plate 3A.xlsx","cort" -"BF00128134","TP0000883.Plate.3",5,8,"t",1,100,12.4245596596139,"TP0000883 Plate 3A.xlsx","cort" -"BF00128135","20120829.Plate.2",4,8,"t",1,1,12.5449358531816,"20120829 Plate 2B.xlsx","cort" -"BF00128135","20120829.Plate.2",5,8,"t",1,1,13.1577290132254,"20120829 Plate 2B.xlsx","cort" -"BF00128136","TP0000883.Plate.2",6,4,"t",1,100,14.8770880830025,"TP0000883 Plate 2A.xlsx","cort" -"BF00128136","TP0000883.Plate.2",7,4,"t",1,100,15.265214203621,"TP0000883 Plate 2A.xlsx","cort" -"BF00128137","TP0000882.Plate.4",4,6,"t",1,100,15.74392355375,"TP0000882 Plate 4A.xlsx","cort" -"BF00128137","TP0000882.Plate.4",5,6,"t",1,100,17.2329451501249,"TP0000882 Plate 4A.xlsx","cort" -"BF00128138","TP0000883.Plate.4",2,8,"t",1,100,14.9404109880658,"TP0000883 Plate 4A.xlsx","cort" -"BF00128138","TP0000883.Plate.4",3,8,"t",1,100,13.9478138553221,"TP0000883 Plate 4A.xlsx","cort" -"BF00128139","TP0000883.Plate.3",4,9,"t",1,100,12.7299701803743,"TP0000883 Plate 3A.xlsx","cort" -"BF00128139","TP0000883.Plate.3",5,9,"t",1,100,10.1503032526055,"TP0000883 Plate 3A.xlsx","cort" -"BF00128140","20120829.Plate.4",6,7,"t",1,10,4.6349290092932,"20120829 Plate 4B.xlsx","cort" -"BF00128140","20120829.Plate.4",7,7,"t",1,10,4.20708550872293,"20120829 Plate 4B.xlsx","cort" -"BF00128141","TP0000883.Plate.1",6,8,"t",1,100,13.5798756800571,"TP0000883 Plate 1A.xlsx","cort" -"BF00128141","TP0000883.Plate.1",7,8,"t",1,100,11.5379975506342,"TP0000883 Plate 1A.xlsx","cort" -"BF00128142","TP0000884.Plate.2",6,8,"t",1,100,12.2069232968298,"TP0000884 Plate 2A.xlsx","cort" -"BF00128142","TP0000884.Plate.2",7,8,"t",1,100,14.1906985872433,"TP0000884 Plate 2A.xlsx","cort" -"BF00128143","TP0000883.Plate.1",2,9,"t",1,100,11.5867608185878,"TP0000883 Plate 1A.xlsx","cort" -"BF00128143","TP0000883.Plate.1",3,9,"t",1,100,11.0517606964585,"TP0000883 Plate 1A.xlsx","cort" -"BF00128144","TP0000883.Plate.1",4,6,"t",1,100,14.302749972129,"TP0000883 Plate 1A.xlsx","cort" -"BF00128144","TP0000883.Plate.1",5,6,"t",1,100,28.5019946237135,"TP0000883 Plate 1A.xlsx","cort" -"BF00128145","TP0000883.Plate.1",2,8,"t",1,100,11.671679877329,"TP0000883 Plate 1A.xlsx","cort" -"BF00128145","TP0000883.Plate.1",3,8,"t",1,100,12.389251222644,"TP0000883 Plate 1A.xlsx","cort" -"BF00128146","20120829.Plate.3",2,10,"t",1,1,8.96624973869594,"20120829 Plate 3A.xlsx","cort" -"BF00128146","20120829.Plate.3",3,10,"t",1,1,12.5632689272303,"20120829 Plate 3A.xlsx","cort" -"BF00128147","TP0000883.Plate.4",6,9,"t",1,100,12.5655961967849,"TP0000883 Plate 4A.xlsx","cort" -"BF00128147","TP0000883.Plate.4",7,9,"t",1,100,11.6797688737044,"TP0000883 Plate 4A.xlsx","cort" -"BF00128148","TP0000884.Plate.3",6,9,"t",1,100,13.8050439345168,"TP0000884 Plate 3A.xlsx","cort" -"BF00128148","TP0000884.Plate.3",7,9,"t",1,100,12.2181460586725,"TP0000884 Plate 3A.xlsx","cort" -"BF00128149","TP0000882.Plate.3",4,9,"t",1,100,13.3651858089738,"TP0000882 Plate 3A.xlsx","cort" -"BF00128149","TP0000882.Plate.3",5,9,"t",1,100,13.7531900307244,"TP0000882 Plate 3A.xlsx","cort" -"BF00128165","TP0000885.Plate.1",2,9,"t",1,100,10.4379187080522,"TP0000885 Plate 1A.xlsx","cort" -"BF00128165","TP0000885.Plate.1",3,9,"t",1,100,9.22460056160046,"TP0000885 Plate 1A.xlsx","cort" -"BF00128166","TP0000883.Plate.1",6,5,"t",1,100,15.8226623891642,"TP0000883 Plate 1A.xlsx","cort" -"BF00128166","TP0000883.Plate.1",7,5,"t",1,100,18.1737554271148,"TP0000883 Plate 1A.xlsx","cort" -"BF00128167","20120829.Plate.3",2,3,"t",1,1,11.2897758122109,"20120829 Plate 3A.xlsx","cort" -"BF00128167","20120829.Plate.3",3,3,"t",1,1,13.4646699459606,"20120829 Plate 3A.xlsx","cort" -"BF00128168","TP0000884.Plate.1",6,10,"t",1,100,11.7344188968284,"TP0000884 Plate 1A.xlsx","cort" -"BF00128168","TP0000884.Plate.1",7,10,"t",1,100,12.7145613644337,"TP0000884 Plate 1A.xlsx","cort" -"BF00128169","20120829.Plate.5",4,5,"t",1,10,3.56516124832412,"20120829 Plate 5A.xlsx","cort" -"BF00128169","20120829.Plate.5",5,5,"t",1,10,3.67022093080801,"20120829 Plate 5A.xlsx","cort" -"BF00128170","20120829.Plate.2",2,8,"t",1,1,15.1274378873809,"20120829 Plate 2B.xlsx","cort" -"BF00128170","20120829.Plate.2",3,8,"t",1,1,13.7673357325801,"20120829 Plate 2B.xlsx","cort" -"BF00128171","20120829.Plate.4",4,5,"t",1,10,14.6837805243335,"20120829 Plate 4B.xlsx","cort" -"BF00128171","20120829.Plate.4",5,5,"t",1,10,14.1007838352387,"20120829 Plate 4B.xlsx","cort" -"BF00128172","TP0000882.Plate.1",2,9,"t",1,100,22.3054869831904,"TP0000882 Plate 1A.xlsx","cort" -"BF00128172","TP0000882.Plate.1",3,9,"t",1,100,22.3355622132845,"TP0000882 Plate 1A.xlsx","cort" -"BF00128173","TP0000883.Plate.3",2,7,"t",1,100,15.0491990343853,"TP0000883 Plate 3A.xlsx","cort" -"BF00128173","TP0000883.Plate.3",3,7,"t",1,100,13.8161734743069,"TP0000883 Plate 3A.xlsx","cort" -"BF00128174","20120829.Plate.2",6,8,"t",1,1,10.8537893989821,"20120829 Plate 2B.xlsx","cort" -"BF00128174","20120829.Plate.2",7,8,"t",1,1,12.4220450077362,"20120829 Plate 2B.xlsx","cort" -"BF00128175","TP0000882.Plate.2",2,6,"t",1,100,4.44474872596412,"TP0000882 Plate 2B.xlsx","cort" -"BF00128175","TP0000882.Plate.2",3,6,"t",1,100,4.5232196488795,"TP0000882 Plate 2B.xlsx","cort" -"BF00128176","TP0000883.Plate.2",4,4,"t",1,100,18.3307513642681,"TP0000883 Plate 2A.xlsx","cort" -"BF00128176","TP0000883.Plate.2",5,4,"t",1,100,18.7245914719709,"TP0000883 Plate 2A.xlsx","cort" -"BF00128177","20120829.Plate.6",2,5,"t",1,10,10.0862059525695,"20120829 Plate 6A.xlsx","cort" -"BF00128177","20120829.Plate.6",3,5,"t",1,10,9.01453749596173,"20120829 Plate 6A.xlsx","cort" -"BF00128178","TP0000884.Plate.3",4,10,"t",1,100,19.6200121158914,"TP0000884 Plate 3A.xlsx","cort" -"BF00128178","TP0000884.Plate.3",5,10,"t",1,100,20.8051800866031,"TP0000884 Plate 3A.xlsx","cort" -"BF00128179","TP0000882.Plate.2",4,3,"t",1,100,7.86175557807187,"TP0000882 Plate 2B.xlsx","cort" -"BF00128179","TP0000882.Plate.2",5,3,"t",1,100,6.95328850967516,"TP0000882 Plate 2B.xlsx","cort" -"BF00128180","TP0000884.Plate.3",4,4,"t",1,100,13.7933448770212,"TP0000884 Plate 3A.xlsx","cort" -"BF00128180","TP0000884.Plate.3",5,4,"t",1,100,15.453703689626,"TP0000884 Plate 3A.xlsx","cort" -"BF00128181","20120829.Plate.6",2,9,"t",1,10,12.8650619943797,"20120829 Plate 6A.xlsx","cort" -"BF00128181","20120829.Plate.6",3,9,"t",1,10,12.8931087007957,"20120829 Plate 6A.xlsx","cort" -"BF00128182","TP0000884.Plate.1",2,3,"t",1,100,17.2859027190031,"TP0000884 Plate 1A.xlsx","cort" -"BF00128182","TP0000884.Plate.1",3,3,"t",1,100,23.1905686269585,"TP0000884 Plate 1A.xlsx","cort" -"BF00128183","TP0000884.Plate.1",2,10,"t",1,100,12.4486002439955,"TP0000884 Plate 1A.xlsx","cort" -"BF00128183","TP0000884.Plate.1",3,10,"t",1,100,15.9763570166679,"TP0000884 Plate 1A.xlsx","cort" -"BF00128185","20120829.Plate.1",6,4,"t",1,1,9.7189283025216,"20120829 Plate 1A.xlsx","cort" -"BF00128185","20120829.Plate.1",7,4,"t",1,1,9.79407668596637,"20120829 Plate 1A.xlsx","cort" -"BF00128186","TP0000884.Plate.2",4,6,"t",1,100,9.97694254394725,"TP0000884 Plate 2A.xlsx","cort" -"BF00128186","TP0000884.Plate.2",5,6,"t",1,100,10.6052878299687,"TP0000884 Plate 2A.xlsx","cort" -"BF00128187","TP0000884.Plate.2",2,8,"t",1,100,7.37244141880974,"TP0000884 Plate 2A.xlsx","cort" -"BF00128187","TP0000884.Plate.2",3,8,"t",1,100,7.25506751822477,"TP0000884 Plate 2A.xlsx","cort" -"BF00128188","TP0000882.Plate.3",6,10,"t",1,100,13.789279931863,"TP0000882 Plate 3A.xlsx","cort" -"BF00128188","TP0000882.Plate.3",7,10,"t",1,100,13.2713688135959,"TP0000882 Plate 3A.xlsx","cort" -"BF00128189","20120829.Plate.1",4,8,"t",1,1,16.603512411304,"20120829 Plate 1A.xlsx","cort" -"BF00128189","20120829.Plate.1",5,8,"t",1,1,14.1664367491764,"20120829 Plate 1A.xlsx","cort" -"BF00128190","TP0000884.Plate.4",4,7,"t",1,100,11.6452559311454,"TP0000884 Plate 4A.xlsx","cort" -"BF00128190","TP0000884.Plate.4",5,7,"t",1,100,13.9159335476608,"TP0000884 Plate 4A.xlsx","cort" -"BF00128191","TP0000883.Plate.3",6,8,"t",1,100,12.2041194742183,"TP0000883 Plate 3A.xlsx","cort" -"BF00128191","TP0000883.Plate.3",7,8,"t",1,100,11.6317832116979,"TP0000883 Plate 3A.xlsx","cort" -"BF00128192","20120829.Plate.1",6,10,"t",1,1,3.13616016774491,"20120829 Plate 1A.xlsx","cort" -"BF00128192","20120829.Plate.1",7,10,"t",1,1,3.05962367222951,"20120829 Plate 1A.xlsx","cort" -"BF00128193","20120829.Plate.1",6,8,"t",1,1,2.96609824848377,"20120829 Plate 1A.xlsx","cort" -"BF00128193","20120829.Plate.1",7,8,"t",1,1,2.67327742980592,"20120829 Plate 1A.xlsx","cort" -"BF00128194","20120829.Plate.5",2,6,"t",1,10,7.60823438139991,"20120829 Plate 5A.xlsx","cort" -"BF00128194","20120829.Plate.5",3,6,"t",1,10,9.30484611358712,"20120829 Plate 5A.xlsx","cort" -"BF00128195","20120829.Plate.1",2,8,"t",1,1,0.652818187776789,"20120829 Plate 1A.xlsx","cort" -"BF00128195","20120829.Plate.1",3,8,"t",1,1,0.73531593110178,"20120829 Plate 1A.xlsx","cort" -"BF00128196","TP0000882.Plate.4",6,3,"t",1,100,8.45618175052582,"TP0000882 Plate 4A.xlsx","cort" -"BF00128196","TP0000882.Plate.4",7,3,"t",1,100,7.53237583153568,"TP0000882 Plate 4A.xlsx","cort" -"BF00128197","20120829.Plate.5",4,8,"t",1,10,17.3204752373585,"20120829 Plate 5A.xlsx","cort" -"BF00128197","20120829.Plate.5",5,8,"t",1,10,19.2454144779899,"20120829 Plate 5A.xlsx","cort" -"BF00128198","20120829.Plate.3",4,9,"t",1,1,14.2623065488017,"20120829 Plate 3A.xlsx","cort" -"BF00128198","20120829.Plate.3",5,9,"t",1,1,13.5095959897511,"20120829 Plate 3A.xlsx","cort" -"BF00128199","TP0000884.Plate.3",6,3,"t",1,100,13.5196901227835,"TP0000884 Plate 3A.xlsx","cort" -"BF00128199","TP0000884.Plate.3",7,3,"t",1,100,14.3167475325765,"TP0000884 Plate 3A.xlsx","cort" -"BF00128200","TP0000883.Plate.3",4,7,"t",1,20.1,16.5848920670221,"TP0000883 Plate 3A.xlsx","cort" -"BF00128200","TP0000883.Plate.3",5,7,"t",1,20.1,16.8999798477838,"TP0000883 Plate 3A.xlsx","cort" -"BF00128201","TP0000883.Plate.3",2,10,"t",1,100,11.3524026009654,"TP0000883 Plate 3A.xlsx","cort" -"BF00128201","TP0000883.Plate.3",3,10,"t",1,100,9.35636684930345,"TP0000883 Plate 3A.xlsx","cort" -"BF00128203","TP0000884.Plate.3",4,8,"t",1,50,9.04453403101683,"TP0000884 Plate 3A.xlsx","cort" -"BF00128203","TP0000884.Plate.3",5,8,"t",1,50,9.97108572711367,"TP0000884 Plate 3A.xlsx","cort" -"BF00128204","20120829.Plate.4",6,3,"t",1,0.1,16.0066587486485,"20120829 Plate 4B.xlsx","cort" -"BF00128204","20120829.Plate.4",7,3,"t",1,0.1,13.4852904890059,"20120829 Plate 4B.xlsx","cort" -"BF00128205","TP0000882.Plate.2",2,3,"t",1,100,12.9075567671014,"TP0000882 Plate 2B.xlsx","cort" -"BF00128205","TP0000882.Plate.2",3,3,"t",1,100,13.4458961761732,"TP0000882 Plate 2B.xlsx","cort" -"BF00128206","TP0000885.Plate.1",6,7,"t",1,100,11.8452351611176,"TP0000885 Plate 1A.xlsx","cort" -"BF00128206","TP0000885.Plate.1",7,7,"t",1,100,11.9152769357036,"TP0000885 Plate 1A.xlsx","cort" -"BF00128208","TP0000882.Plate.2",2,10,"t",1,100,14.5324724192688,"TP0000882 Plate 2B.xlsx","cort" -"BF00128208","TP0000882.Plate.2",3,10,"t",1,100,14.3870368700551,"TP0000882 Plate 2B.xlsx","cort" -"BF00128209","TP0000882.Plate.3",6,3,"t",1,100,11.8537378047603,"TP0000882 Plate 3A.xlsx","cort" -"BF00128209","TP0000882.Plate.3",7,3,"t",1,100,18.9157709184612,"TP0000882 Plate 3A.xlsx","cort" -"BF00128210","TP0000883.Plate.4",4,3,"t",1,100,17.8006845171211,"TP0000883 Plate 4A.xlsx","cort" -"BF00128210","TP0000883.Plate.4",5,3,"t",1,100,13.6606743770739,"TP0000883 Plate 4A.xlsx","cort" -"BF00128211","20120829.Plate.4",4,8,"t",1,1,15.0485158773766,"20120829 Plate 4B.xlsx","cort" -"BF00128211","20120829.Plate.4",5,8,"t",1,1,15.1326213824674,"20120829 Plate 4B.xlsx","cort" -"BF00128212","TP0000884.Plate.3",6,8,"t",1,100,14.2408922526416,"TP0000884 Plate 3A.xlsx","cort" -"BF00128212","TP0000884.Plate.3",7,8,"t",1,100,12.9549555544235,"TP0000884 Plate 3A.xlsx","cort" -"BF00128213","20120829.Plate.6",2,6,"t",1,10,9.94091211690018,"20120829 Plate 6A.xlsx","cort" -"BF00128213","20120829.Plate.6",3,6,"t",1,10,9.99441715115229,"20120829 Plate 6A.xlsx","cort" -"BF00128214","20120829.Plate.2",6,3,"t",1,1,11.5826007493852,"20120829 Plate 2B.xlsx","cort" -"BF00128214","20120829.Plate.2",7,3,"t",1,1,11.4226024272209,"20120829 Plate 2B.xlsx","cort" -"BF00128215","20120829.Plate.5",2,8,"t",1,10,3.92448500279315,"20120829 Plate 5A.xlsx","cort" -"BF00128215","20120829.Plate.5",3,8,"t",1,10,5.36928206487435,"20120829 Plate 5A.xlsx","cort" -"BF00128216","TP0000883.Plate.2",2,9,"t",1,100,13.3454990664099,"TP0000883 Plate 2A.xlsx","cort" -"BF00128216","TP0000883.Plate.2",3,9,"t",1,100,13.0161562579873,"TP0000883 Plate 2A.xlsx","cort" -"BF00128218","20120829.Plate.6",2,10,"t",1,10,7.82975689414701,"20120829 Plate 6A.xlsx","cort" -"BF00128218","20120829.Plate.6",3,10,"t",1,10,8.98199923302795,"20120829 Plate 6A.xlsx","cort" -"BF00128219","TP0000882.Plate.2",2,4,"t",1,100,13.4167909651273,"TP0000882 Plate 2B.xlsx","cort" -"BF00128219","TP0000882.Plate.2",3,4,"t",1,100,14.5502647828447,"TP0000882 Plate 2B.xlsx","cort" -"BF00128220","TP0000882.Plate.4",2,10,"t",0,100,NA,"TP0000882 Plate 4A.xlsx","cort" -"BF00128220","TP0000882.Plate.4",3,10,"t",0,100,NA,"TP0000882 Plate 4A.xlsx","cort" -"BF00128221","20120829.Plate.1",2,9,"t",1,1,9.72610167837486,"20120829 Plate 1A.xlsx","cort" -"BF00128221","20120829.Plate.1",3,9,"t",1,1,9.96312033028648,"20120829 Plate 1A.xlsx","cort" -"BF00128222","20120829.Plate.3",2,5,"t",1,1,10.5217628894009,"20120829 Plate 3A.xlsx","cort" -"BF00128222","20120829.Plate.3",3,5,"t",1,1,12.7148898242368,"20120829 Plate 3A.xlsx","cort" -"BF00128223","TP0000883.Plate.4",6,8,"t",1,100,13.2410526540503,"TP0000883 Plate 4A.xlsx","cort" -"BF00128223","TP0000883.Plate.4",7,8,"t",1,100,12.0713851075439,"TP0000883 Plate 4A.xlsx","cort" -"BF00128224","TP0000884.Plate.1",4,8,"t",1,100,13.9017567405846,"TP0000884 Plate 1A.xlsx","cort" -"BF00128224","TP0000884.Plate.1",5,8,"t",1,100,14.4556944830441,"TP0000884 Plate 1A.xlsx","cort" -"BF00128225","20120829.Plate.1",4,5,"t",1,1,4.24331494068633,"20120829 Plate 1A.xlsx","cort" -"BF00128225","20120829.Plate.1",5,5,"t",1,1,3.83084606953642,"20120829 Plate 1A.xlsx","cort" -"BF00128226","20120829.Plate.5",6,3,"t",1,10,12.5550375227975,"20120829 Plate 5A.xlsx","cort" -"BF00128226","20120829.Plate.5",7,3,"t",1,10,10.8068575308971,"20120829 Plate 5A.xlsx","cort" -"BF00128227","20120829.Plate.6",2,3,"t",1,10,10.5858640818762,"20120829 Plate 6A.xlsx","cort" -"BF00128227","20120829.Plate.6",3,3,"t",1,10,11.2997877620846,"20120829 Plate 6A.xlsx","cort" -"BF00128228","TP0000882.Plate.3",4,10,"t",1,100,10.4409217655153,"TP0000882 Plate 3A.xlsx","cort" -"BF00128228","TP0000882.Plate.3",5,10,"t",1,100,8.76303608568724,"TP0000882 Plate 3A.xlsx","cort" -"BF00128229","TP0000882.Plate.1",6,7,"t",1,100,12.6482066361535,"TP0000882 Plate 1A.xlsx","cort" -"BF00128229","TP0000882.Plate.1",7,7,"t",1,100,13.0223140954707,"TP0000882 Plate 1A.xlsx","cort" -"BF00128230","TP0000884.Plate.4",6,6,"t",1,100,12.0585472218446,"TP0000884 Plate 4A.xlsx","cort" -"BF00128230","TP0000884.Plate.4",7,6,"t",1,100,13.5969302547397,"TP0000884 Plate 4A.xlsx","cort" -"BF00128232","TP0000883.Plate.4",4,4,"t",1,100,19.3378113699948,"TP0000883 Plate 4A.xlsx","cort" -"BF00128232","TP0000883.Plate.4",5,4,"t",1,100,15.7830002487498,"TP0000883 Plate 4A.xlsx","cort" -"BF00128233","TP0000883.Plate.4",4,10,"t",1,100,17.8984249906419,"TP0000883 Plate 4A.xlsx","cort" -"BF00128233","TP0000883.Plate.4",5,10,"t",1,100,14.5337983257798,"TP0000883 Plate 4A.xlsx","cort" -"BF00128234","20120829.Plate.2",2,6,"t",1,1,9.72707100347671,"20120829 Plate 2B.xlsx","cort" -"BF00128234","20120829.Plate.2",3,6,"t",1,1,10.0447693126443,"20120829 Plate 2B.xlsx","cort" -"BF00128235","20120829.Plate.1",4,10,"t",1,1,0.616324194829925,"20120829 Plate 1A.xlsx","cort" -"BF00128235","20120829.Plate.1",5,10,"t",1,1,0.553920227689357,"20120829 Plate 1A.xlsx","cort" -"BF00128236","TP0000882.Plate.3",2,7,"t",1,100,17.388431115402,"TP0000882 Plate 3A.xlsx","cort" -"BF00128236","TP0000882.Plate.3",3,7,"t",1,100,13.0324280913108,"TP0000882 Plate 3A.xlsx","cort" -"BF00128237","20120829.Plate.4",4,9,"t",1,1,14.752174899745,"20120829 Plate 4B.xlsx","cort" -"BF00128237","20120829.Plate.4",5,9,"t",1,1,13.9987112945563,"20120829 Plate 4B.xlsx","cort" -"BF00128238","TP0000883.Plate.1",6,6,"t",1,100,10.0574540225071,"TP0000883 Plate 1A.xlsx","cort" -"BF00128238","TP0000883.Plate.1",7,6,"t",1,100,8.9332789970093,"TP0000883 Plate 1A.xlsx","cort" -"BF00128239","20120829.Plate.2",2,4,"t",1,1,13.5221745328193,"20120829 Plate 2B.xlsx","cort" -"BF00128239","20120829.Plate.2",3,4,"t",1,1,12.1468740977778,"20120829 Plate 2B.xlsx","cort" -"BF00128240","TP0000883.Plate.1",2,3,"t",1,100,13.7500564138702,"TP0000883 Plate 1A.xlsx","cort" -"BF00128240","TP0000883.Plate.1",3,3,"t",1,100,14.2670341808272,"TP0000883 Plate 1A.xlsx","cort" -"BF00128241","20120829.Plate.5",6,10,"t",1,10,7.30429491386304,"20120829 Plate 5A.xlsx","cort" -"BF00128241","20120829.Plate.5",7,10,"t",1,10,8.27111478184909,"20120829 Plate 5A.xlsx","cort" -"BF00128243","20120829.Plate.3",6,3,"t",1,1,15.2745015165189,"20120829 Plate 3A.xlsx","cort" -"BF00128243","20120829.Plate.3",7,3,"t",1,1,13.5008643332914,"20120829 Plate 3A.xlsx","cort" -"BF00128244","TP0000883.Plate.4",2,3,"t",1,100,16.5579550985069,"TP0000883 Plate 4A.xlsx","cort" -"BF00128244","TP0000883.Plate.4",3,3,"t",1,100,18.8269098311604,"TP0000883 Plate 4A.xlsx","cort" -"BF00128245","20120829.Plate.5",4,4,"t",1,10,12.1273532017635,"20120829 Plate 5A.xlsx","cort" -"BF00128245","20120829.Plate.5",5,4,"t",1,10,11.675730070589,"20120829 Plate 5A.xlsx","cort" -"BF00128246","TP0000884.Plate.4",6,4,"t",1,100,13.3980258942388,"TP0000884 Plate 4A.xlsx","cort" -"BF00128246","TP0000884.Plate.4",7,4,"t",1,100,14.2105398780832,"TP0000884 Plate 4A.xlsx","cort" -"BF00128247","TP0000882.Plate.3",2,6,"t",1,100,12.8192713002461,"TP0000882 Plate 3A.xlsx","cort" -"BF00128247","TP0000882.Plate.3",3,6,"t",1,100,11.8582445558361,"TP0000882 Plate 3A.xlsx","cort" -"BF00128248","20120829.Plate.1",4,9,"t",1,1,4.18208039888726,"20120829 Plate 1A.xlsx","cort" -"BF00128248","20120829.Plate.1",5,9,"t",1,1,3.04887273295433,"20120829 Plate 1A.xlsx","cort" -"BF00128249","TP0000884.Plate.2",2,3,"t",1,100,12.7274864703062,"TP0000884 Plate 2A.xlsx","cort" -"BF00128249","TP0000884.Plate.2",3,3,"t",1,100,13.9479564177179,"TP0000884 Plate 2A.xlsx","cort" -"BF00128250","TP0000882.Plate.3",6,7,"t",1,100,17.5291735003808,"TP0000882 Plate 3A.xlsx","cort" -"BF00128250","TP0000882.Plate.3",7,7,"t",1,100,16.3377178785432,"TP0000882 Plate 3A.xlsx","cort" -"BF00128251","20120829.Plate.4",2,7,"t",1,1,9.23121152425619,"20120829 Plate 4B.xlsx","cort" -"BF00128251","20120829.Plate.4",3,7,"t",1,1,10.3767373938854,"20120829 Plate 4B.xlsx","cort" -"BF00128252","TP0000883.Plate.1",6,10,"t",1,100,18.3592996598761,"TP0000883 Plate 1A.xlsx","cort" -"BF00128252","TP0000883.Plate.1",7,10,"t",1,100,15.0862230559828,"TP0000883 Plate 1A.xlsx","cort" -"BF00128253","20120829.Plate.2",6,5,"t",1,1,11.1845236921594,"20120829 Plate 2B.xlsx","cort" -"BF00128253","20120829.Plate.2",7,5,"t",1,1,11.8546864130386,"20120829 Plate 2B.xlsx","cort" -"BF00128255","TP0000882.Plate.3",6,4,"t",1,100,16.0927133749513,"TP0000882 Plate 3A.xlsx","cort" -"BF00128255","TP0000882.Plate.3",7,4,"t",1,100,17.1292533616594,"TP0000882 Plate 3A.xlsx","cort" -"BF00128256","TP0000882.Plate.1",2,10,"t",1,100,17.2205654475861,"TP0000882 Plate 1A.xlsx","cort" -"BF00128256","TP0000882.Plate.1",3,10,"t",1,100,20.6690111142314,"TP0000882 Plate 1A.xlsx","cort" -"BF00128257","TP0000884.Plate.2",2,7,"t",1,100,15.003210025046,"TP0000884 Plate 2A.xlsx","cort" -"BF00128257","TP0000884.Plate.2",3,7,"t",1,100,13.6300966924642,"TP0000884 Plate 2A.xlsx","cort" -"BF00128258","20120829.Plate.1",6,7,"t",1,1,10.5741860662758,"20120829 Plate 1A.xlsx","cort" -"BF00128258","20120829.Plate.1",7,7,"t",1,1,10.2053274287888,"20120829 Plate 1A.xlsx","cort" -"BF00128259","20120829.Plate.6",4,7,"t",1,10,7.34395892089901,"20120829 Plate 6A.xlsx","cort" -"BF00128259","20120829.Plate.6",5,7,"t",1,10,6.94502549182211,"20120829 Plate 6A.xlsx","cort" -"BF00128260","TP0000883.Plate.2",2,8,"t",1,100,14.2558486086791,"TP0000883 Plate 2A.xlsx","cort" -"BF00128260","TP0000883.Plate.2",3,8,"t",1,100,13.1952535962136,"TP0000883 Plate 2A.xlsx","cort" -"BF00128261","20120829.Plate.1",4,4,"t",1,1,14.9142838730659,"20120829 Plate 1A.xlsx","cort" -"BF00128261","20120829.Plate.1",5,4,"t",1,1,13.7130980570106,"20120829 Plate 1A.xlsx","cort" -"BF00128262","TP0000884.Plate.2",2,4,"t",1,100,12.3199270505757,"TP0000884 Plate 2A.xlsx","cort" -"BF00128262","TP0000884.Plate.2",3,4,"t",1,100,11.5398072986151,"TP0000884 Plate 2A.xlsx","cort" -"BF00128263","TP0000883.Plate.2",4,6,"t",1,100,16.5002959431298,"TP0000883 Plate 2A.xlsx","cort" -"BF00128263","TP0000883.Plate.2",5,6,"t",1,100,15.9940340052466,"TP0000883 Plate 2A.xlsx","cort" -"BF00128264","TP0000883.Plate.1",4,3,"t",1,100,14.2136772292472,"TP0000883 Plate 1A.xlsx","cort" -"BF00128264","TP0000883.Plate.1",5,3,"t",1,100,29.8584249460171,"TP0000883 Plate 1A.xlsx","cort" -"BF00128265","20120829.Plate.6",4,3,"t",1,10,14.2448524021036,"20120829 Plate 6A.xlsx","cort" -"BF00128265","20120829.Plate.6",5,3,"t",1,10,12.4036155785176,"20120829 Plate 6A.xlsx","cort" -"BF00128266","TP0000883.Plate.1",4,10,"t",1,100,9.54464602622535,"TP0000883 Plate 1A.xlsx","cort" -"BF00128266","TP0000883.Plate.1",5,10,"t",1,100,20.0582499104658,"TP0000883 Plate 1A.xlsx","cort" -"BF00128267","20120829.Plate.5",2,9,"t",1,10,9.36089848237109,"20120829 Plate 5A.xlsx","cort" -"BF00128267","20120829.Plate.5",3,9,"t",1,10,11.7871358949897,"20120829 Plate 5A.xlsx","cort" -"BF00128268","20120829.Plate.3",6,6,"t",1,1,2.43671023343768,"20120829 Plate 3A.xlsx","cort" -"BF00128268","20120829.Plate.3",7,6,"t",1,1,1.93871020225407,"20120829 Plate 3A.xlsx","cort" -"BF00128269","TP0000882.Plate.3",4,6,"t",1,100,15.3375439023762,"TP0000882 Plate 3A.xlsx","cort" -"BF00128269","TP0000882.Plate.3",5,6,"t",1,100,13.7151403195479,"TP0000882 Plate 3A.xlsx","cort" -"BF00128270","20120829.Plate.5",6,4,"t",1,10,12.2918310170181,"20120829 Plate 5A.xlsx","cort" -"BF00128270","20120829.Plate.5",7,4,"t",1,10,9.67392386192041,"20120829 Plate 5A.xlsx","cort" -"BF00128271","TP0000884.Plate.4",2,10,"t",1,100,11.1171411213087,"TP0000884 Plate 4A.xlsx","cort" -"BF00128271","TP0000884.Plate.4",3,10,"t",1,100,12.2706359234927,"TP0000884 Plate 4A.xlsx","cort" -"BF00128272","TP0000883.Plate.3",6,6,"t",1,100,16.1008204857685,"TP0000883 Plate 3A.xlsx","cort" -"BF00128272","TP0000883.Plate.3",7,6,"t",1,100,14.6207437963411,"TP0000883 Plate 3A.xlsx","cort" -"BF00128273","20120829.Plate.5",2,4,"t",1,10,11.9900529485115,"20120829 Plate 5A.xlsx","cort" -"BF00128273","20120829.Plate.5",3,4,"t",1,10,12.4311237011001,"20120829 Plate 5A.xlsx","cort" -"BF00128274","TP0000882.Plate.4",2,9,"t",1,100,17.3210155416166,"TP0000882 Plate 4A.xlsx","cort" -"BF00128274","TP0000882.Plate.4",3,9,"t",1,100,14.8270095093267,"TP0000882 Plate 4A.xlsx","cort" -"BF00128275","TP0000884.Plate.1",2,6,"t",1,100,10.8805289655394,"TP0000884 Plate 1A.xlsx","cort" -"BF00128275","TP0000884.Plate.1",3,6,"t",1,100,15.2382049622568,"TP0000884 Plate 1A.xlsx","cort" -"BF00128276","TP0000884.Plate.4",4,10,"t",1,100,13.8093549371349,"TP0000884 Plate 4A.xlsx","cort" -"BF00128276","TP0000884.Plate.4",5,10,"t",1,100,12.7267806221987,"TP0000884 Plate 4A.xlsx","cort" -"BF00128277","TP0000883.Plate.4",6,10,"t",1,100,12.1352760881753,"TP0000883 Plate 4A.xlsx","cort" -"BF00128277","TP0000883.Plate.4",7,10,"t",1,100,11.2774611752688,"TP0000883 Plate 4A.xlsx","cort" -"BF00128278","20120829.Plate.6",4,6,"t",1,10,14.2386234303999,"20120829 Plate 6A.xlsx","cort" -"BF00128278","20120829.Plate.6",5,6,"t",1,10,13.8907204679721,"20120829 Plate 6A.xlsx","cort" -"BF00128279","TP0000883.Plate.1",4,5,"t",1,100,12.2252019522405,"TP0000883 Plate 1A.xlsx","cort" -"BF00128279","TP0000883.Plate.1",5,5,"t",1,100,26.8414030634793,"TP0000883 Plate 1A.xlsx","cort" -"BF00128280","20120829.Plate.3",2,8,"t",1,1,11.9503426629155,"20120829 Plate 3A.xlsx","cort" -"BF00128280","20120829.Plate.3",3,8,"t",1,1,14.7929688732714,"20120829 Plate 3A.xlsx","cort" -"BF00128281","TP0000883.Plate.1",6,3,"t",1,100,10.146882748287,"TP0000883 Plate 1A.xlsx","cort" -"BF00128281","TP0000883.Plate.1",7,3,"t",1,100,8.95737565533834,"TP0000883 Plate 1A.xlsx","cort" -"BF00128282","TP0000882.Plate.4",2,7,"t",1,100,7.30972955617409,"TP0000882 Plate 4A.xlsx","cort" -"BF00128282","TP0000882.Plate.4",3,7,"t",1,100,7.89695009463086,"TP0000882 Plate 4A.xlsx","cort" -"BF00128283","TP0000884.Plate.4",6,5,"t",1,100,8.03919544991444,"TP0000884 Plate 4A.xlsx","cort" -"BF00128283","TP0000884.Plate.4",7,5,"t",1,100,9.22414833204907,"TP0000884 Plate 4A.xlsx","cort" -"BF00128285","TP0000884.Plate.4",4,4,"t",1,100,12.7197221840802,"TP0000884 Plate 4A.xlsx","cort" -"BF00128285","TP0000884.Plate.4",5,4,"t",1,100,11.6540670142824,"TP0000884 Plate 4A.xlsx","cort" -"BF00128286","TP0000882.Plate.4",6,4,"t",1,100,9.78230412724888,"TP0000882 Plate 4A.xlsx","cort" -"BF00128286","TP0000882.Plate.4",7,4,"t",1,100,8.88454210066059,"TP0000882 Plate 4A.xlsx","cort" -"BF00128287","20120829.Plate.1",2,5,"t",1,1,11.15963781884,"20120829 Plate 1A.xlsx","cort" -"BF00128287","20120829.Plate.1",3,5,"t",1,1,9.51466754822269,"20120829 Plate 1A.xlsx","cort" -"BF00128288","TP0000882.Plate.4",4,7,"t",1,100,20.1531743584416,"TP0000882 Plate 4A.xlsx","cort" -"BF00128288","TP0000882.Plate.4",5,7,"t",1,100,18.8399044885253,"TP0000882 Plate 4A.xlsx","cort" -"BF00128289","TP0000884.Plate.1",6,7,"t",1,100,24.3965534008159,"TP0000884 Plate 1A.xlsx","cort" -"BF00128289","TP0000884.Plate.1",7,7,"t",1,100,23.9648228493337,"TP0000884 Plate 1A.xlsx","cort" -"BF00128290","20120829.Plate.4",2,10,"t",1,1,11.0083878575181,"20120829 Plate 4B.xlsx","cort" -"BF00128290","20120829.Plate.4",3,10,"t",1,1,11.7016510831092,"20120829 Plate 4B.xlsx","cort" -"BF00128291","TP0000884.Plate.4",4,6,"t",1,100,8.60786131369177,"TP0000884 Plate 4A.xlsx","cort" -"BF00128291","TP0000884.Plate.4",5,6,"t",1,100,8.65281598781669,"TP0000884 Plate 4A.xlsx","cort" -"BF00128292","20120829.Plate.5",4,3,"t",1,10,8.87254890984396,"20120829 Plate 5A.xlsx","cort" -"BF00128292","20120829.Plate.5",5,3,"t",1,10,9.47316894335819,"20120829 Plate 5A.xlsx","cort" -"BF00128293","20120829.Plate.3",6,4,"t",1,1,15.1234758389655,"20120829 Plate 3A.xlsx","cort" -"BF00128293","20120829.Plate.3",7,4,"t",1,1,11.9890686808498,"20120829 Plate 3A.xlsx","cort" -"BF00128294","TP0000883.Plate.2",4,7,"t",1,100,16.3474490000947,"TP0000883 Plate 2A.xlsx","cort" -"BF00128294","TP0000883.Plate.2",5,7,"t",1,100,17.0195279551058,"TP0000883 Plate 2A.xlsx","cort" -"BF00128295","20120829.Plate.6",4,10,"t",1,10,8.07161212852335,"20120829 Plate 6A.xlsx","cort" -"BF00128295","20120829.Plate.6",5,10,"t",1,10,8.83960725614642,"20120829 Plate 6A.xlsx","cort" -"BF00128296","TP0000883.Plate.2",6,7,"t",1,50,12.1697467077881,"TP0000883 Plate 2A.xlsx","cort" -"BF00128296","TP0000883.Plate.2",7,7,"t",1,50,11.8613375684172,"TP0000883 Plate 2A.xlsx","cort" -"BF00128297","20120829.Plate.3",4,10,"t",1,1,11.3467755374183,"20120829 Plate 3A.xlsx","cort" -"BF00128297","20120829.Plate.3",5,10,"t",1,1,12.5730291478256,"20120829 Plate 3A.xlsx","cort" -"BF00128298","TP0000882.Plate.3",4,8,"t",1,100,16.8916105654116,"TP0000882 Plate 3A.xlsx","cort" -"BF00128298","TP0000882.Plate.3",5,8,"t",1,100,13.3444705711986,"TP0000882 Plate 3A.xlsx","cort" -"BF00128299","20120829.Plate.5",6,5,"t",1,10,13.9981390966419,"20120829 Plate 5A.xlsx","cort" -"BF00128299","20120829.Plate.5",7,5,"t",1,10,9.15719076944519,"20120829 Plate 5A.xlsx","cort" -"BF00128300","TP0000883.Plate.3",4,5,"t",1,100,14.1739202618384,"TP0000883 Plate 3A.xlsx","cort" -"BF00128300","TP0000883.Plate.3",5,5,"t",1,100,14.5887502759165,"TP0000883 Plate 3A.xlsx","cort" -"BF00128301","20120829.Plate.6",2,7,"t",1,10,9.05030813026264,"20120829 Plate 6A.xlsx","cort" -"BF00128301","20120829.Plate.6",3,7,"t",1,10,11.4265912579302,"20120829 Plate 6A.xlsx","cort" -"BF00128302","TP0000883.Plate.4",6,3,"t",1,100,13.8553951002195,"TP0000883 Plate 4A.xlsx","cort" -"BF00128302","TP0000883.Plate.4",7,3,"t",1,100,10.5300201030463,"TP0000883 Plate 4A.xlsx","cort" -"BF00128303","TP0000882.Plate.2",6,8,"t",1,100,13.43,"TP0000882 Plate 2B.xlsx","cort" -"BF00128303","TP0000882.Plate.2",7,8,"t",1,100,15.73,"TP0000882 Plate 2B.xlsx","cort" -"BF00128304","20120829.Plate.3",6,8,"t",1,1,4.64882381749125,"20120829 Plate 3A.xlsx","cort" -"BF00128304","20120829.Plate.3",7,8,"t",1,1,3.73205385694636,"20120829 Plate 3A.xlsx","cort" -"BF00128305","20120829.Plate.4",4,10,"t",1,1,11.4977639726716,"20120829 Plate 4B.xlsx","cort" -"BF00128305","20120829.Plate.4",5,10,"t",1,1,11.7255244583274,"20120829 Plate 4B.xlsx","cort" -"BF00128306","TP0000885.Plate.1",2,10,"t",1,100,15.3600483007434,"TP0000885 Plate 1A.xlsx","cort" -"BF00128306","TP0000885.Plate.1",3,10,"t",1,100,13.6317565239245,"TP0000885 Plate 1A.xlsx","cort" -"BF00128307","20120829.Plate.3",4,8,"t",1,1,15.7032851863154,"20120829 Plate 3A.xlsx","cort" -"BF00128307","20120829.Plate.3",5,8,"t",1,1,15.1108106957486,"20120829 Plate 3A.xlsx","cort" -"BF00128308","20120829.Plate.5",2,5,"t",1,10,10.8079980582168,"20120829 Plate 5A.xlsx","cort" -"BF00128308","20120829.Plate.5",3,5,"t",1,10,11.2999394585587,"20120829 Plate 5A.xlsx","cort" -"BF00128309","20120829.Plate.1",2,7,"t",1,1,10.2279801320962,"20120829 Plate 1A.xlsx","cort" -"BF00128309","20120829.Plate.1",3,7,"t",1,1,9.59879302243289,"20120829 Plate 1A.xlsx","cort" -"BF00128310","TP0000882.Plate.1",4,3,"t",1,100,20.4356268299682,"TP0000882 Plate 1A.xlsx","cort" -"BF00128310","TP0000882.Plate.1",5,3,"t",1,100,17.3331953525677,"TP0000882 Plate 1A.xlsx","cort" -"BF00128311","TP0000882.Plate.2",6,9,"t",1,100,14.420674942605,"TP0000882 Plate 2B.xlsx","cort" -"BF00128311","TP0000882.Plate.2",7,9,"t",1,100,16.4532789024609,"TP0000882 Plate 2B.xlsx","cort" -"BF00128312","TP0000884.Plate.4",4,8,"t",1,100,13.6258281760598,"TP0000884 Plate 4A.xlsx","cort" -"BF00128312","TP0000884.Plate.4",5,8,"t",1,100,13.784926891571,"TP0000884 Plate 4A.xlsx","cort" -"BF00128313","TP0000884.Plate.3",2,10,"t",1,100,18.7558676234958,"TP0000884 Plate 3A.xlsx","cort" -"BF00128313","TP0000884.Plate.3",3,10,"t",1,100,25.764934078625,"TP0000884 Plate 3A.xlsx","cort" -"BF00128314","TP0000883.Plate.2",6,3,"t",1,100,11.7370072424851,"TP0000883 Plate 2A.xlsx","cort" -"BF00128314","TP0000883.Plate.2",7,3,"t",1,100,11.9433523103891,"TP0000883 Plate 2A.xlsx","cort" -"BF00128315","20120829.Plate.4",2,6,"t",1,1,9.82398422580811,"20120829 Plate 4B.xlsx","cort" -"BF00128315","20120829.Plate.4",3,6,"t",1,1,9.99400927721466,"20120829 Plate 4B.xlsx","cort" -"BF00128317","20120829.Plate.3",2,4,"t",1,1,11.8298423718954,"20120829 Plate 3A.xlsx","cort" -"BF00128317","20120829.Plate.3",3,4,"t",1,1,13.8707781116851,"20120829 Plate 3A.xlsx","cort" -"BF00128318","TP0000883.Plate.1",4,7,"t",1,100,12.5970100382581,"TP0000883 Plate 1A.xlsx","cort" -"BF00128318","TP0000883.Plate.1",5,7,"t",1,100,28.0990702092627,"TP0000883 Plate 1A.xlsx","cort" -"BF00128319","TP0000884.Plate.4",6,8,"t",1,100,10.0752942463407,"TP0000884 Plate 4A.xlsx","cort" -"BF00128319","TP0000884.Plate.4",7,8,"t",1,100,11.6759796219693,"TP0000884 Plate 4A.xlsx","cort" -"BF00128320","20120829.Plate.4",2,3,"t",1,1,12.3358368222385,"20120829 Plate 4B.xlsx","cort" -"BF00128320","20120829.Plate.4",3,3,"t",1,1,14.1604477107769,"20120829 Plate 4B.xlsx","cort" -"BF00128321","TP0000884.Plate.2",4,8,"t",1,100,11.6910212425438,"TP0000884 Plate 2A.xlsx","cort" -"BF00128321","TP0000884.Plate.2",5,8,"t",1,100,11.4110893679188,"TP0000884 Plate 2A.xlsx","cort" -"BF00128322","TP0000882.Plate.4",6,5,"t",1,100,14.5439892489516,"TP0000882 Plate 4A.xlsx","cort" -"BF00128322","TP0000882.Plate.4",7,5,"t",1,100,11.9631027008879,"TP0000882 Plate 4A.xlsx","cort" -"BF00128323","20120829.Plate.4",6,6,"t",1,10,15.0885344125694,"20120829 Plate 4B.xlsx","cort" -"BF00128323","20120829.Plate.4",7,6,"t",1,10,11.6555838608805,"20120829 Plate 4B.xlsx","cort" -"BF00128324","20120829.Plate.1",6,6,"t",1,1,4.48527109592002,"20120829 Plate 1A.xlsx","cort" -"BF00128324","20120829.Plate.1",7,6,"t",1,1,4.26395411922823,"20120829 Plate 1A.xlsx","cort" -"BF00128325","TP0000882.Plate.4",6,8,"t",1,100,13.4062926698739,"TP0000882 Plate 4A.xlsx","cort" -"BF00128325","TP0000882.Plate.4",7,8,"t",1,100,12.6520093979473,"TP0000882 Plate 4A.xlsx","cort" -"BF00128326","TP0000883.Plate.1",6,7,"t",1,100,18.8853486159224,"TP0000883 Plate 1A.xlsx","cort" -"BF00128326","TP0000883.Plate.1",7,7,"t",1,100,17.8144418145075,"TP0000883 Plate 1A.xlsx","cort" -"BF00128328","20120829.Plate.3",2,9,"t",1,1,8.81884528580415,"20120829 Plate 3A.xlsx","cort" -"BF00128328","20120829.Plate.3",3,9,"t",1,1,11.0076587622832,"20120829 Plate 3A.xlsx","cort" -"BF00128329","TP0000883.Plate.1",4,8,"t",1,100,13.4998406285047,"TP0000883 Plate 1A.xlsx","cort" -"BF00128329","TP0000883.Plate.1",5,8,"t",1,100,27.6820682004132,"TP0000883 Plate 1A.xlsx","cort" -"BF00128330","20120829.Plate.5",4,7,"t",1,10,11.2735240533634,"20120829 Plate 5A.xlsx","cort" -"BF00128330","20120829.Plate.5",5,7,"t",1,10,11.0643469158669,"20120829 Plate 5A.xlsx","cort" -"BF00128331","TP0000883.Plate.4",2,7,"t",1,100,12.7973793040127,"TP0000883 Plate 4A.xlsx","cort" -"BF00128331","TP0000883.Plate.4",3,7,"t",1,100,13.7016124931649,"TP0000883 Plate 4A.xlsx","cort" -"BF00128332","TP0000885.Plate.1",4,9,"t",1,50,15.0504903484939,"TP0000885 Plate 1A.xlsx","cort" -"BF00128332","TP0000885.Plate.1",5,9,"t",1,50,16.6248097502182,"TP0000885 Plate 1A.xlsx","cort" -"BF00128333","TP0000883.Plate.4",2,6,"t",1,100,12.866750100182,"TP0000883 Plate 4A.xlsx","cort" -"BF00128333","TP0000883.Plate.4",3,6,"t",1,100,14.4266107537368,"TP0000883 Plate 4A.xlsx","cort" -"BF00128334","TP0000883.Plate.2",2,3,"t",1,100,13.3649683649723,"TP0000883 Plate 2A.xlsx","cort" -"BF00128334","TP0000883.Plate.2",3,3,"t",1,100,15.5428508985238,"TP0000883 Plate 2A.xlsx","cort" -"BF00128335","20120829.Plate.2",2,3,"t",1,1,14.4643590247039,"20120829 Plate 2B.xlsx","cort" -"BF00128335","20120829.Plate.2",3,3,"t",1,1,11.2780802457994,"20120829 Plate 2B.xlsx","cort" -"BF00128336","20120829.Plate.1",4,6,"t",1,0.5,13.4894802336301,"20120829 Plate 1A.xlsx","cort" -"BF00128336","20120829.Plate.1",5,6,"t",1,0.5,11.1105305733915,"20120829 Plate 1A.xlsx","cort" -"BF00128337","TP0000884.Plate.3",2,9,"t",1,100,11.697045137451,"TP0000884 Plate 3A.xlsx","cort" -"BF00128337","TP0000884.Plate.3",3,9,"t",1,100,15.3684373121732,"TP0000884 Plate 3A.xlsx","cort" -"BF00128339","TP0000882.Plate.2",4,4,"t",1,100,14.8180372962316,"TP0000882 Plate 2B.xlsx","cort" -"BF00128339","TP0000882.Plate.2",5,4,"t",1,100,13.9827609253543,"TP0000882 Plate 2B.xlsx","cort" -"BF00128340","TP0000883.Plate.4",6,5,"t",1,100,14.1551026041088,"TP0000883 Plate 4A.xlsx","cort" -"BF00128340","TP0000883.Plate.4",7,5,"t",1,100,13.955794412348,"TP0000883 Plate 4A.xlsx","cort" -"BF00128341","20120829.Plate.3",4,6,"t",1,0.5,10.7658800557741,"20120829 Plate 3A.xlsx","cort" -"BF00128341","20120829.Plate.3",5,6,"t",1,0.5,11.1440018459995,"20120829 Plate 3A.xlsx","cort" -"BF00128342","20120829.Plate.4",6,4,"t",1,0.01,14.9387092094199,"20120829 Plate 4B.xlsx","cort" -"BF00128342","20120829.Plate.4",7,4,"t",1,0.01,11.7046706722498,"20120829 Plate 4B.xlsx","cort" -"BF00128343","20120829.Plate.5",4,10,"t",1,10,10.7067068556353,"20120829 Plate 5A.xlsx","cort" -"BF00128343","20120829.Plate.5",5,10,"t",1,10,10.8732091310685,"20120829 Plate 5A.xlsx","cort" -"BF00128344","TP0000884.Plate.2",6,9,"t",1,100,41.2106947408938,"TP0000884 Plate 2A.xlsx","cort" -"BF00128344","TP0000884.Plate.2",7,9,"t",1,100,42.7787315059324,"TP0000884 Plate 2A.xlsx","cort" -"BF00128345","TP0000882.Plate.1",4,5,"t",1,100,18.1616705360051,"TP0000882 Plate 1A.xlsx","cort" -"BF00128345","TP0000882.Plate.1",5,5,"t",1,100,18.676206642347,"TP0000882 Plate 1A.xlsx","cort" -"BF00128346","TP0000883.Plate.3",2,3,"t",1,100,15.16,"TP0000883 Plate 3A.xlsx","cort" -"BF00128346","TP0000883.Plate.3",3,3,"t",1,100,12.67,"TP0000883 Plate 3A.xlsx","cort" -"BF00128347","TP0000883.Plate.3",4,3,"t",1,100,13.1563028807625,"TP0000883 Plate 3A.xlsx","cort" -"BF00128347","TP0000883.Plate.3",5,3,"t",1,100,14.1143268394919,"TP0000883 Plate 3A.xlsx","cort" -"BF00128348","TP0000884.Plate.3",2,7,"t",1,100,10.4450326514285,"TP0000884 Plate 3A.xlsx","cort" -"BF00128348","TP0000884.Plate.3",3,7,"t",1,100,13.485273917075,"TP0000884 Plate 3A.xlsx","cort" -"BF00128349","TP0000884.Plate.4",2,9,"t",1,100,21.0637135240357,"TP0000884 Plate 4A.xlsx","cort" -"BF00128349","TP0000884.Plate.4",3,9,"t",1,100,20.0476634877294,"TP0000884 Plate 4A.xlsx","cort" -"BF00128350","20120829.Plate.6",4,4,"t",1,10,13.391501953388,"20120829 Plate 6A.xlsx","cort" -"BF00128350","20120829.Plate.6",5,4,"t",1,10,12.3492909235467,"20120829 Plate 6A.xlsx","cort" -"BF00128351","TP0000883.Plate.2",5,9,"t",1,100,21.3752243973538,"TP0000883 Plate 2A.xlsx","cort" -"BF00128351","TP0000883.Plate.2",4,9,"t",1,100,18.0595391598819,"TP0000883 Plate 2A.xlsx","cort" -"BF00128352","20120829.Plate.3",6,10,"t",1,1,12.2182230535358,"20120829 Plate 3A.xlsx","cort" -"BF00128352","20120829.Plate.3",7,10,"t",1,1,10.4104603752047,"20120829 Plate 3A.xlsx","cort" -"BF00128353","20120829.Plate.5",6,7,"t",1,10,10.0301355835576,"20120829 Plate 5A.xlsx","cort" -"BF00128353","20120829.Plate.5",7,7,"t",1,10,8.26888654360707,"20120829 Plate 5A.xlsx","cort" -"BF00128354","TP0000882.Plate.3",6,6,"t",1,100,17.3053698037795,"TP0000882 Plate 3A.xlsx","cort" -"BF00128354","TP0000882.Plate.3",7,6,"t",1,100,16.709593748083,"TP0000882 Plate 3A.xlsx","cort" -"BF00128355","TP0000882.Plate.4",4,4,"t",1,100,13.8513012565507,"TP0000882 Plate 4A.xlsx","cort" -"BF00128355","TP0000882.Plate.4",5,4,"t",1,100,12.7931583759304,"TP0000882 Plate 4A.xlsx","cort" -"BF00128356","20120829.Plate.5",4,9,"t",1,10,3.03947184060423,"20120829 Plate 5A.xlsx","cort" -"BF00128356","20120829.Plate.5",5,9,"t",1,10,3.23255424666185,"20120829 Plate 5A.xlsx","cort" -"BF00128357","TP0000885.Plate.1",6,8,"t",1,100,9.30393729804302,"TP0000885 Plate 1A.xlsx","cort" -"BF00128357","TP0000885.Plate.1",7,8,"t",1,100,8.82460461753517,"TP0000885 Plate 1A.xlsx","cort" -"BF00128358","20120829.Plate.3",4,4,"t",1,1,13.9048788861195,"20120829 Plate 3A.xlsx","cort" -"BF00128358","20120829.Plate.3",5,4,"t",1,1,13.4960184417775,"20120829 Plate 3A.xlsx","cort" -"BF00128359","20120829.Plate.2",6,10,"t",1,1,11.1127643374803,"20120829 Plate 2B.xlsx","cort" -"BF00128359","20120829.Plate.2",7,10,"t",1,1,10.9982924574664,"20120829 Plate 2B.xlsx","cort" -"BF00131805","20120829.Plate.1",4,3,"t",1,1,16.035658340377,"20120829 Plate 1A.xlsx","cort" -"BF00131805","20120829.Plate.1",5,3,"t",1,1,14.0697226194312,"20120829 Plate 1A.xlsx","cort" -"BF00131806","TP0000882.Plate.3",2,5,"t",1,100,12.5239423990412,"TP0000882 Plate 3A.xlsx","cort" -"BF00131806","TP0000882.Plate.3",3,5,"t",1,100,13.1357208425022,"TP0000882 Plate 3A.xlsx","cort" -"BF00131807","TP0000882.Plate.3",2,9,"t",1,100,9.25156799294221,"TP0000882 Plate 3A.xlsx","cort" -"BF00131807","TP0000882.Plate.3",3,9,"t",1,100,9.76390303495519,"TP0000882 Plate 3A.xlsx","cort" -"BF00131808","TP0000884.Plate.4",2,3,"t",1,100,7.83986848796089,"TP0000884 Plate 4A.xlsx","cort" -"BF00131808","TP0000884.Plate.4",3,3,"t",1,100,8.27445451515058,"TP0000884 Plate 4A.xlsx","cort" -"BF10128127","20120829.Plate.2",4,4,"t",1,1,11.613599528072,"20120829 Plate 2B.xlsx","cort" -"BF10128127","20120829.Plate.2",5,4,"t",1,1,10.3526794954809,"20120829 Plate 2B.xlsx","cort" -"BF10128135","20120829.Plate.2",4,9,"t",1,1,10.1229982287116,"20120829 Plate 2B.xlsx","cort" -"BF10128135","20120829.Plate.2",5,9,"t",1,1,11.1283355139216,"20120829 Plate 2B.xlsx","cort" -"BF10128140","20120829.Plate.4",6,9,"t",1,10,4.71718337983745,"20120829 Plate 4B.xlsx","cort" -"BF10128140","20120829.Plate.4",7,9,"t",1,10,4.19057899671593,"20120829 Plate 4B.xlsx","cort" -"BF10128140","TP0000884.Plate.2",2,10,"t",1,10,0.872443763665897,"TP0000884 Plate 2A.xlsx","cort" -"BF10128140","TP0000884.Plate.2",3,10,"t",1,10,0.786257627822595,"TP0000884 Plate 2A.xlsx","cort" -"BF10128280","20120829.Plate.3",2,7,"t",1,1,9.88438389190423,"20120829 Plate 3A.xlsx","cort" -"BF10128280","20120829.Plate.3",3,7,"t",1,1,12.3908721698155,"20120829 Plate 3A.xlsx","cort" -"BF10128287","20120829.Plate.1",2,4,"t",1,1,12.0773773944777,"20120829 Plate 1A.xlsx","cort" -"BF10128287","20120829.Plate.1",3,4,"t",1,1,9.40076697914381,"20120829 Plate 1A.xlsx","cort" -"BF10128288","TP0000884.Plate.1",6,8,"t",1,100,14.8675689767792,"TP0000884 Plate 1A.xlsx","cort" -"BF10128288","TP0000884.Plate.1",7,8,"t",1,100,16.4872458554749,"TP0000884 Plate 1A.xlsx","cort" -"BF10128290","20120829.Plate.4",2,9,"t",1,1,10.2713739789444,"20120829 Plate 4B.xlsx","cort" -"BF10128290","20120829.Plate.4",3,9,"t",1,1,9.79036383240561,"20120829 Plate 4B.xlsx","cort" -"BF10128353","20120829.Plate.5",6,8,"t",1,10,13.033023201627,"20120829 Plate 5A.xlsx","cort" -"BF10128353","20120829.Plate.5",7,8,"t",1,10,10.2802653220061,"20120829 Plate 5A.xlsx","cort" -"BF10128353","TP0000884.Plate.4",6,10,"t",1,10,1.4496143121237,"TP0000884 Plate 4A.xlsx","cort" -"BF10128353","TP0000884.Plate.4",7,10,"t",1,10,1.66465104302488,"TP0000884 Plate 4A.xlsx","cort" -"BF20128127","20120829.Plate.2",4,3,"t",1,1,16.008561020272,"20120829 Plate 2B.xlsx","cort" -"BF20128127","20120829.Plate.2",5,3,"t",1,1,13.0849873422571,"20120829 Plate 2B.xlsx","cort" -"BF20128135","20120829.Plate.2",4,7,"t",1,1,11.8396989445982,"20120829 Plate 2B.xlsx","cort" -"BF20128135","20120829.Plate.2",5,7,"t",1,1,11.013420426177,"20120829 Plate 2B.xlsx","cort" -"BF20128140","20120829.Plate.4",6,8,"t",1,10,5.42358514971738,"20120829 Plate 4B.xlsx","cort" -"BF20128140","20120829.Plate.4",7,8,"t",1,10,4.66671222900398,"20120829 Plate 4B.xlsx","cort" -"BF20128140","TP0000884.Plate.4",6,9,"t",1,10,0.74840937179755,"TP0000884 Plate 4A.xlsx","cort" -"BF20128140","TP0000884.Plate.4",7,9,"t",1,10,0.703047532771706,"TP0000884 Plate 4A.xlsx","cort" -"BF20128280","20120829.Plate.3",2,6,"t",1,1,9.00764426559235,"20120829 Plate 3A.xlsx","cort" -"BF20128280","20120829.Plate.3",3,6,"t",1,1,10.9296202099883,"20120829 Plate 3A.xlsx","cort" -"BF20128287","20120829.Plate.1",2,3,"t",1,1,13.6916799809676,"20120829 Plate 1A.xlsx","cort" -"BF20128287","20120829.Plate.1",3,3,"t",1,1,11.8405932818961,"20120829 Plate 1A.xlsx","cort" -"BF20128288","TP0000885.Plate.1",4,7,"t",1,100,14.7285937220174,"TP0000885 Plate 1A.xlsx","cort" -"BF20128288","TP0000885.Plate.1",5,7,"t",1,100,17.1495228226489,"TP0000885 Plate 1A.xlsx","cort" -"BF20128290","20120829.Plate.4",2,8,"t",1,1,13.2870858899884,"20120829 Plate 4B.xlsx","cort" -"BF20128290","20120829.Plate.4",3,8,"t",1,1,10.679123731905,"20120829 Plate 4B.xlsx","cort" -"DMSO","20120829.Plate.1",6,11,"n",1,NA,14.7317698917739,"20120829 Plate 1A.xlsx","cort" -"DMSO","20120829.Plate.1",7,11,"n",1,NA,14.0260541728852,"20120829 Plate 1A.xlsx","cort" -"DMSO","20120829.Plate.2",6,11,"n",1,NA,12.4021903093459,"20120829 Plate 2B.xlsx","cort" -"DMSO","20120829.Plate.2",7,11,"n",1,NA,12.0117422718471,"20120829 Plate 2B.xlsx","cort" -"DMSO","20120829.Plate.3",6,11,"n",1,NA,13.0643994434786,"20120829 Plate 3A.xlsx","cort" -"DMSO","20120829.Plate.3",7,11,"n",1,NA,10.9624744059084,"20120829 Plate 3A.xlsx","cort" -"DMSO","20120829.Plate.4",6,11,"n",1,NA,13.0284923587718,"20120829 Plate 4B.xlsx","cort" -"DMSO","20120829.Plate.4",7,11,"n",1,NA,10.4819908234422,"20120829 Plate 4B.xlsx","cort" -"DMSO","20120829.Plate.5",6,11,"n",1,NA,12.8710221601468,"20120829 Plate 5A.xlsx","cort" -"DMSO","20120829.Plate.5",7,11,"n",1,NA,10.0204158543117,"20120829 Plate 5A.xlsx","cort" -"DMSO","20120829.Plate.6",6,11,"n",1,NA,12.1080434935232,"20120829 Plate 6A.xlsx","cort" -"DMSO","20120829.Plate.6",7,11,"n",1,NA,11.6078572576673,"20120829 Plate 6A.xlsx","cort" -"DMSO","TP0000882.Plate.1",6,11,"n",1,NA,19.4572989096746,"TP0000882 Plate 1A.xlsx","cort" -"DMSO","TP0000882.Plate.1",7,11,"n",1,NA,16.7339070896128,"TP0000882 Plate 1A.xlsx","cort" -"DMSO","TP0000882.Plate.2",6,11,"n",1,NA,12.5361036844585,"TP0000882 Plate 2B.xlsx","cort" -"DMSO","TP0000882.Plate.2",7,11,"n",1,NA,16.0075546357186,"TP0000882 Plate 2B.xlsx","cort" -"DMSO","TP0000882.Plate.3",6,11,"n",1,NA,15.8812773027416,"TP0000882 Plate 3A.xlsx","cort" -"DMSO","TP0000882.Plate.3",7,11,"n",1,NA,14.9330340859974,"TP0000882 Plate 3A.xlsx","cort" -"DMSO","TP0000882.Plate.4",6,11,"n",1,NA,18.8498534014689,"TP0000882 Plate 4A.xlsx","cort" -"DMSO","TP0000882.Plate.4",7,11,"n",1,NA,17.7880978325932,"TP0000882 Plate 4A.xlsx","cort" -"DMSO","TP0000883.Plate.1",6,11,"n",1,NA,19.4280587294852,"TP0000883 Plate 1A.xlsx","cort" -"DMSO","TP0000883.Plate.1",7,11,"n",1,NA,13.981912781991,"TP0000883 Plate 1A.xlsx","cort" -"DMSO","TP0000883.Plate.2",6,11,"n",1,NA,19.0312143922795,"TP0000883 Plate 2A.xlsx","cort" -"DMSO","TP0000883.Plate.2",7,11,"n",1,NA,16.8718989928819,"TP0000883 Plate 2A.xlsx","cort" -"DMSO","TP0000883.Plate.3",6,11,"n",1,NA,14.2286278026196,"TP0000883 Plate 3A.xlsx","cort" -"DMSO","TP0000883.Plate.3",7,11,"n",1,NA,13.9704142055078,"TP0000883 Plate 3A.xlsx","cort" -"DMSO","TP0000883.Plate.4",6,11,"n",1,NA,14.1666105415805,"TP0000883 Plate 4A.xlsx","cort" -"DMSO","TP0000883.Plate.4",7,11,"n",1,NA,12.0860071699212,"TP0000883 Plate 4A.xlsx","cort" -"DMSO","TP0000884.Plate.1",6,11,"n",1,NA,11.5713085942053,"TP0000884 Plate 1A.xlsx","cort" -"DMSO","TP0000884.Plate.1",7,11,"n",1,NA,11.9891308939159,"TP0000884 Plate 1A.xlsx","cort" -"DMSO","TP0000884.Plate.2",6,11,"n",1,NA,13.7977766908647,"TP0000884 Plate 2A.xlsx","cort" -"DMSO","TP0000884.Plate.2",7,11,"n",1,NA,14.6037028094551,"TP0000884 Plate 2A.xlsx","cort" -"DMSO","TP0000884.Plate.3",6,11,"n",1,NA,15.7477619478389,"TP0000884 Plate 3A.xlsx","cort" -"DMSO","TP0000884.Plate.3",7,11,"n",1,NA,12.3619541378129,"TP0000884 Plate 3A.xlsx","cort" -"DMSO","TP0000884.Plate.4",6,11,"n",1,NA,10.7634802884169,"TP0000884 Plate 4A.xlsx","cort" -"DMSO","TP0000884.Plate.4",7,11,"n",1,NA,10.9027160845466,"TP0000884 Plate 4A.xlsx","cort" -"DMSO","TP0000885.Plate.1",6,11,"n",1,NA,8.08347331528234,"TP0000885 Plate 1A.xlsx","cort" -"DMSO","TP0000885.Plate.1",7,11,"n",1,NA,10.9435805666764,"TP0000885 Plate 1A.xlsx","cort" -"DMSO","TP0001109.Plate.1",6,11,"n",1,NA,68.43,"TP0001109 Plate 1_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.1",7,11,"n",1,NA,67.49,"TP0001109 Plate 1_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.1",6,12,"n",1,NA,59.84,"TP0001109 Plate 1_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.1",7,12,"n",1,NA,64.77,"TP0001109 Plate 1_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.2",6,11,"n",1,NA,63.05,"TP0001109 Plate 2_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.2",7,11,"n",1,NA,58.2,"TP0001109 Plate 2_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.2",6,12,"n",1,NA,60.32,"TP0001109 Plate 2_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.2",7,12,"n",1,NA,57.57,"TP0001109 Plate 2_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.3",6,11,"n",1,NA,64.63,"TP0001109 Plate 3_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.3",7,11,"n",1,NA,63.29,"TP0001109 Plate 3_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.3",6,12,"n",1,NA,66.6,"TP0001109 Plate 3_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.3",7,12,"n",1,NA,58.3,"TP0001109 Plate 3_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.4",6,11,"n",1,NA,64.14,"TP0001109 Plate 4_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.4",7,11,"n",1,NA,62.04,"TP0001109 Plate 4_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.4",6,12,"n",1,NA,59.54,"TP0001109 Plate 4_Ceetox.csv","cort" -"DMSO","TP0001109.Plate.4",7,12,"n",1,NA,59.53,"TP0001109 Plate 4_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.5",6,11,"n",1,NA,73.03,"TP0001110 Plate 5_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.5",7,11,"n",1,NA,63.02,"TP0001110 Plate 5_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.5",6,12,"n",1,NA,72.77,"TP0001110 Plate 5_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.5",7,12,"n",1,NA,57.25,"TP0001110 Plate 5_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.6",6,11,"n",1,NA,64.67,"TP0001110 Plate 6_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.6",7,11,"n",1,NA,61.83,"TP0001110 Plate 6_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.6",6,12,"n",1,NA,56.81,"TP0001110 Plate 6_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.6",7,12,"n",1,NA,61.49,"TP0001110 Plate 6_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.7",6,11,"n",1,NA,60.26,"TP0001110 Plate 7_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.7",7,11,"n",1,NA,51.32,"TP0001110 Plate 7_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.7",6,12,"n",1,NA,55.33,"TP0001110 Plate 7_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.7",7,12,"n",1,NA,53.99,"TP0001110 Plate 7_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.8",6,11,"n",1,NA,70.06,"TP0001110 Plate 8_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.8",7,11,"n",1,NA,65.23,"TP0001110 Plate 8_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.8",6,12,"n",1,NA,64.73,"TP0001110 Plate 8_Ceetox.csv","cort" -"DMSO","TP0001110.Plate.8",7,12,"n",1,NA,61.11,"TP0001110 Plate 8_Ceetox.csv","cort" 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-"DMSO","E1K.VR.Plate.11",6,11,"n",1,NA,13.67,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"DMSO","E1K.VR.Plate.11",7,11,"n",1,NA,12.88,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"DMSO","E1K.VR.Plate.9",6,11,"n",1,NA,12.45,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"DMSO","E1K.VR.Plate.9",7,11,"n",1,NA,14.52,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.1",6,11,"n",1,NA,60.77,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.1",7,11,"n",1,NA,66.14,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.1",6,12,"n",1,NA,71.83,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.1",7,12,"n",1,NA,74.87,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.2",6,11,"n",1,NA,49.19,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.2",7,11,"n",1,NA,52.92,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.2",6,12,"n",1,NA,44.8,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.2",7,12,"n",1,NA,50.76,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.3",6,11,"n",1,NA,49.09,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.3",7,11,"n",1,NA,50.4,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.3",6,12,"n",1,NA,55.18,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.3",7,12,"n",1,NA,55.08,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.4",6,11,"n",1,NA,60.68,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.4",7,11,"n",1,NA,53.46,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.4",6,12,"n",1,NA,55.1,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"DMSO","PhaseIIe1k.VR.Plate.4",7,12,"n",1,NA,56.11,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.1",6,11,"n",1,NA,13.55,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.1",7,11,"n",1,NA,12.82,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.2",6,11,"n",1,NA,12.23,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.2",7,11,"n",1,NA,13.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.3",6,11,"n",1,NA,12.37,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.3",7,11,"n",1,NA,13.39,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.4",6,11,"n",1,NA,13.75,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.4",7,11,"n",1,NA,11.18,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.5",6,11,"n",1,NA,12.66,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.5",7,11,"n",1,NA,13.98,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.6",6,11,"n",1,NA,10.51,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.6",7,11,"n",1,NA,12.5,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.7",6,11,"n",1,NA,12.75,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.7",7,11,"n",1,NA,13.27,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.8",6,11,"n",1,NA,11.26,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"DMSO","PhaseII.VR.Plate.8",7,11,"n",1,NA,12.96,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"DMSO","phIII.e1k.Plate.1",6,11,"n",1,NA,51.47,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.1",7,11,"n",1,NA,51.37,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.10",6,11,"n",1,NA,21.85,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.10",7,11,"n",1,NA,25.28,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.11",6,11,"n",1,NA,26.79,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.11",7,11,"n",1,NA,24.59,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.12",6,11,"n",1,NA,23.54,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.12",7,11,"n",1,NA,23.92,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.13",6,11,"n",1,NA,30.19,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.13",7,11,"n",1,NA,25.34,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.14",6,11,"n",1,NA,26.81,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.14",7,11,"n",1,NA,23.29,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.15",6,11,"n",1,NA,24.77,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.15",7,11,"n",1,NA,25.71,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.16",6,11,"n",1,NA,25.92,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.16",7,11,"n",1,NA,23.81,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.17",6,11,"n",1,NA,25.98,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.17",7,11,"n",1,NA,21.78,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.18",6,11,"n",1,NA,24.68,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.18",7,11,"n",1,NA,27.89,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.2",6,11,"n",1,NA,25.67,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.2",7,11,"n",1,NA,24.82,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.3",6,11,"n",1,NA,24.6,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.3",7,11,"n",1,NA,19.77,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.4",6,11,"n",1,NA,26.43,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.4",7,11,"n",1,NA,29.09,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.5",6,11,"n",1,NA,26.11,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.5",7,11,"n",1,NA,22.26,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.6",6,11,"n",1,NA,25.01,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.6",7,11,"n",1,NA,22.23,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.7",6,11,"n",1,NA,22.09,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.7",7,11,"n",1,NA,25.88,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.8",6,11,"n",1,NA,26.39,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.8",7,11,"n",1,NA,23.06,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.9",6,11,"n",1,NA,27.63,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"DMSO","phIII.e1k.Plate.9",7,11,"n",1,NA,22.71,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"DMSO","phIII.e1k.VR.Plate.1",6,11,"n",1,NA,109.05,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"DMSO","phIII.e1k.VR.Plate.1",7,11,"n",1,NA,58.23,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"DMSO","phIII.e1k.VR.Plate.2",6,11,"n",0,NA,NA,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"DMSO","phIII.e1k.VR.Plate.2",7,11,"n",1,NA,47.95,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"DMSO","phIII.e1k.VR.Plate.3",6,11,"n",1,NA,56.28,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"DMSO","phIII.e1k.VR.Plate.3",7,11,"n",1,NA,59.59,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"FOR","20120829.Plate.1",4,11,"p",1,10,43.2372673177652,"20120829 Plate 1A.xlsx","cort" -"FOR","20120829.Plate.1",5,11,"p",1,10,43.576754720032,"20120829 Plate 1A.xlsx","cort" -"FOR","20120829.Plate.2",4,11,"p",1,10,43.5725018547524,"20120829 Plate 2B.xlsx","cort" -"FOR","20120829.Plate.2",5,11,"p",1,10,42.3410361910527,"20120829 Plate 2B.xlsx","cort" -"FOR","20120829.Plate.3",4,11,"p",1,10,41.5053556501284,"20120829 Plate 3A.xlsx","cort" -"FOR","20120829.Plate.3",5,11,"p",1,10,44.41240107023,"20120829 Plate 3A.xlsx","cort" -"FOR","20120829.Plate.4",4,11,"p",1,10,44.5457658178313,"20120829 Plate 4B.xlsx","cort" -"FOR","20120829.Plate.4",5,11,"p",1,10,45.4351873073413,"20120829 Plate 4B.xlsx","cort" -"FOR","20120829.Plate.5",4,11,"p",1,10,38.6146515879616,"20120829 Plate 5A.xlsx","cort" -"FOR","20120829.Plate.5",5,11,"p",1,10,39.5636878232533,"20120829 Plate 5A.xlsx","cort" -"FOR","20120829.Plate.6",4,11,"p",1,10,39.8536023404572,"20120829 Plate 6A.xlsx","cort" -"FOR","20120829.Plate.6",5,11,"p",1,10,44.3056706880695,"20120829 Plate 6A.xlsx","cort" -"FOR","TP0000882.Plate.1",4,11,"p",1,10,50.0680124291033,"TP0000882 Plate 1A.xlsx","cort" -"FOR","TP0000882.Plate.1",5,11,"p",1,10,49.2613809241447,"TP0000882 Plate 1A.xlsx","cort" -"FOR","TP0000882.Plate.2",4,11,"p",1,10,54.8162417570621,"TP0000882 Plate 2B.xlsx","cort" -"FOR","TP0000882.Plate.2",5,11,"p",1,10,42.2016523448652,"TP0000882 Plate 2B.xlsx","cort" -"FOR","TP0000882.Plate.3",4,11,"p",1,10,50.0283541225737,"TP0000882 Plate 3A.xlsx","cort" -"FOR","TP0000882.Plate.3",5,11,"p",1,10,49.756404868849,"TP0000882 Plate 3A.xlsx","cort" -"FOR","TP0000882.Plate.4",4,11,"p",1,10,48.3792414143403,"TP0000882 Plate 4A.xlsx","cort" -"FOR","TP0000882.Plate.4",5,11,"p",1,10,54.7475595744524,"TP0000882 Plate 4A.xlsx","cort" -"FOR","TP0000883.Plate.1",4,11,"p",1,10,48.8089565807079,"TP0000883 Plate 1A.xlsx","cort" -"FOR","TP0000883.Plate.1",5,11,"p",1,10,105.82,"TP0000883 Plate 1A.xlsx","cort" -"FOR","TP0000883.Plate.2",4,11,"p",1,10,46.403751466806,"TP0000883 Plate 2A.xlsx","cort" -"FOR","TP0000883.Plate.2",5,11,"p",1,10,52.8712461144377,"TP0000883 Plate 2A.xlsx","cort" -"FOR","TP0000883.Plate.3",4,11,"p",1,10,47.7189480840776,"TP0000883 Plate 3A.xlsx","cort" -"FOR","TP0000883.Plate.3",5,11,"p",1,10,42.0198274942392,"TP0000883 Plate 3A.xlsx","cort" -"FOR","TP0000883.Plate.4",4,11,"p",1,10,44.51716368927,"TP0000883 Plate 4A.xlsx","cort" -"FOR","TP0000883.Plate.4",5,11,"p",1,10,43.7063229723135,"TP0000883 Plate 4A.xlsx","cort" -"FOR","TP0000884.Plate.1",4,11,"p",1,10,55.8580610558202,"TP0000884 Plate 1A.xlsx","cort" -"FOR","TP0000884.Plate.1",5,11,"p",1,10,52.1758701417473,"TP0000884 Plate 1A.xlsx","cort" -"FOR","TP0000884.Plate.2",4,11,"p",1,10,43.093940807131,"TP0000884 Plate 2A.xlsx","cort" -"FOR","TP0000884.Plate.2",5,11,"p",1,10,45.487502439651,"TP0000884 Plate 2A.xlsx","cort" -"FOR","TP0000884.Plate.3",4,11,"p",1,10,45.8498529836939,"TP0000884 Plate 3A.xlsx","cort" -"FOR","TP0000884.Plate.3",5,11,"p",1,10,47.4738876307514,"TP0000884 Plate 3A.xlsx","cort" -"FOR","TP0000884.Plate.4",4,11,"p",1,10,47.4522501821034,"TP0000884 Plate 4A.xlsx","cort" -"FOR","TP0000884.Plate.4",5,11,"p",1,10,41.1886948833685,"TP0000884 Plate 4A.xlsx","cort" -"FOR","TP0000885.Plate.1",4,11,"p",1,10,28.5188094221805,"TP0000885 Plate 1A.xlsx","cort" -"FOR","TP0000885.Plate.1",5,11,"p",1,10,34.8794901264068,"TP0000885 Plate 1A.xlsx","cort" -"FOR","TP0001109.Plate.1",4,11,"p",1,NA,189.69,"TP0001109 Plate 1_Ceetox.csv","cort" -"FOR","TP0001109.Plate.1",5,11,"p",1,NA,201.96,"TP0001109 Plate 1_Ceetox.csv","cort" -"FOR","TP0001109.Plate.2",4,11,"p",1,NA,209.38,"TP0001109 Plate 2_Ceetox.csv","cort" -"FOR","TP0001109.Plate.2",5,11,"p",1,NA,189.47,"TP0001109 Plate 2_Ceetox.csv","cort" -"FOR","TP0001109.Plate.3",4,11,"p",1,NA,214.95,"TP0001109 Plate 3_Ceetox.csv","cort" -"FOR","TP0001109.Plate.3",5,11,"p",1,NA,161.21,"TP0001109 Plate 3_Ceetox.csv","cort" -"FOR","TP0001109.Plate.4",4,11,"p",1,NA,212.32,"TP0001109 Plate 4_Ceetox.csv","cort" -"FOR","TP0001109.Plate.4",5,11,"p",1,NA,202.21,"TP0001109 Plate 4_Ceetox.csv","cort" -"FOR","TP0001110.Plate.5",4,11,"p",1,NA,190.24,"TP0001110 Plate 5_Ceetox.csv","cort" -"FOR","TP0001110.Plate.5",5,11,"p",1,NA,184.84,"TP0001110 Plate 5_Ceetox.csv","cort" -"FOR","TP0001110.Plate.6",4,11,"p",1,NA,215.31,"TP0001110 Plate 6_Ceetox.csv","cort" -"FOR","TP0001110.Plate.6",5,11,"p",1,NA,193.08,"TP0001110 Plate 6_Ceetox.csv","cort" -"FOR","TP0001110.Plate.7",4,11,"p",1,NA,178.54,"TP0001110 Plate 7_Ceetox.csv","cort" -"FOR","TP0001110.Plate.7",5,11,"p",1,NA,195.18,"TP0001110 Plate 7_Ceetox.csv","cort" -"FOR","TP0001110.Plate.8",4,11,"p",1,NA,206.99,"TP0001110 Plate 8_Ceetox.csv","cort" -"FOR","TP0001110.Plate.8",5,11,"p",1,NA,211.51,"TP0001110 Plate 8_Ceetox.csv","cort" -"FOR","TP0001111.Plate.10",4,11,"p",1,NA,185.62,"TP0001111 Plate 10_Ceetox.csv","cort" -"FOR","TP0001111.Plate.10",5,11,"p",1,NA,199.54,"TP0001111 Plate 10_Ceetox.csv","cort" -"FOR","TP0001111.Plate.11",4,11,"p",1,NA,206.36,"TP0001111 Plate 11_Ceetox.csv","cort" -"FOR","TP0001111.Plate.11",5,11,"p",1,NA,190.29,"TP0001111 Plate 11_Ceetox.csv","cort" -"FOR","TP0001111.Plate.12",4,11,"p",1,NA,183.65,"TP0001111 Plate 12_Ceetox.csv","cort" -"FOR","TP0001111.Plate.12",5,11,"p",1,NA,171.49,"TP0001111 Plate 12_Ceetox.csv","cort" -"FOR","TP0001111.Plate.9",4,11,"p",1,NA,175.22,"TP0001111 Plate 9_Ceetox.csv","cort" -"FOR","TP0001111.Plate.9",5,11,"p",1,NA,203.66,"TP0001111 Plate 9_Ceetox.csv","cort" -"FOR","TP0001112.Plate.13",4,11,"p",1,NA,208.67,"TP0001112 Plate 13_Ceetox.csv","cort" -"FOR","TP0001112.Plate.13",5,11,"p",1,NA,211,"TP0001112 Plate 13_Ceetox.csv","cort" -"FOR","TP0001112.Plate.14",4,11,"p",1,NA,209.18,"TP0001112 Plate 14_Ceetox.csv","cort" -"FOR","TP0001112.Plate.14",5,11,"p",1,NA,212.25,"TP0001112 Plate 14_Ceetox.csv","cort" -"FOR","TP0001112.Plate.15",4,11,"p",1,NA,183.79,"TP0001112 Plate 15_Ceetox.csv","cort" -"FOR","TP0001112.Plate.15",5,11,"p",1,NA,196.7,"TP0001112 Plate 15_Ceetox.csv","cort" -"FOR","TP0001112.Plate.16",4,11,"p",1,NA,166.7,"TP0001112 Plate 16_Ceetox.csv","cort" -"FOR","TP0001112.Plate.16",5,11,"p",1,NA,173.06,"TP0001112 Plate 16_Ceetox.csv","cort" -"FOR","TP0001113.Plate.17",4,11,"p",1,NA,164.28,"TP0001113 Plate 17_Ceetox.csv","cort" -"FOR","TP0001113.Plate.17",5,11,"p",1,NA,133.28,"TP0001113 Plate 17_Ceetox.csv","cort" -"FOR","TP0001113.Plate.18",4,11,"p",1,NA,174.95,"TP0001113 Plate 18_Ceetox.csv","cort" -"FOR","TP0001113.Plate.18",5,11,"p",1,NA,189,"TP0001113 Plate 18_Ceetox.csv","cort" -"FOR","TP0001113.Plate.19",4,11,"p",1,NA,178.96,"TP0001113 Plate 19_Ceetox.csv","cort" -"FOR","TP0001113.Plate.19",5,11,"p",1,NA,199.97,"TP0001113 Plate 19_Ceetox.csv","cort" -"FOR","TP0001113.Plate.20",4,11,"p",1,NA,162.76,"TP0001113 Plate 20_Ceetox.csv","cort" -"FOR","TP0001113.Plate.20",5,11,"p",1,NA,184.68,"TP0001113 Plate 20_Ceetox.csv","cort" -"FOR","TP0001114.Plate.21",4,11,"p",1,NA,186.58,"TP0001114 Plate 21_Ceetox.csv","cort" -"FOR","TP0001114.Plate.21",5,11,"p",1,NA,185.38,"TP0001114 Plate 21_Ceetox.csv","cort" -"FOR","TP0001114.Plate.22",4,11,"p",1,NA,213.64,"TP0001114 Plate 22_Ceetox.csv","cort" -"FOR","TP0001114.Plate.22",5,11,"p",1,NA,197.67,"TP0001114 Plate 22_Ceetox.csv","cort" -"FOR","TP0001114.Plate.23",4,11,"p",1,NA,185.16,"TP0001114 Plate 23_Ceetox.csv","cort" 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-"FOR","TP0001056.Plate.12",2,2,"p",1,10,67.25,"TP0001056 Plate 12_CeeTox.csv","cort" -"FOR","TP0001056.Plate.12",3,2,"p",1,10,66.67,"TP0001056 Plate 12_CeeTox.csv","cort" -"FOR","TP0001056.Plate.9",2,2,"p",1,10,61.01,"TP0001056 Plate 9_CeeTox.csv","cort" -"FOR","TP0001056.Plate.9",3,2,"p",1,10,68.18,"TP0001056 Plate 9_CeeTox.csv","cort" -"FOR","TP0001057.Plate.13",2,2,"p",1,10,62.76,"TP0001057 Plate 13_CeeTox.csv","cort" -"FOR","TP0001057.Plate.13",3,2,"p",1,10,67.62,"TP0001057 Plate 13_CeeTox.csv","cort" -"FOR","TP0001057.Plate.14",2,2,"p",1,10,67.75,"TP0001057 Plate 14_CeeTox.csv","cort" -"FOR","TP0001057.Plate.14",3,2,"p",1,10,65.87,"TP0001057 Plate 14_CeeTox.csv","cort" -"FOR","TP0001057.Plate.15",2,2,"p",1,10,67.4,"TP0001057 Plate 15_CeeTox.csv","cort" -"FOR","TP0001057.Plate.15",3,2,"p",1,10,70.19,"TP0001057 Plate 15_CeeTox.csv","cort" -"FOR","TP0001057.Plate.16",2,2,"p",1,10,60.69,"TP0001057 Plate 16_CeeTox.csv","cort" -"FOR","TP0001057.Plate.16",3,2,"p",1,10,74.59,"TP0001057 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-"FOR","TP0001062.Plate.18",2,2,"p",1,10,70.7,"TP0001062_Plate_18_Ceetox.csv","cort" -"FOR","TP0001062.Plate.18",3,2,"p",1,10,73.95,"TP0001062_Plate_18_Ceetox.csv","cort" -"FOR","E1K.VR.Plate.10",4,11,"p",1,NA,52.82,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"FOR","E1K.VR.Plate.10",5,11,"p",1,NA,64.22,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"FOR","E1K.VR.Plate.11",4,11,"p",1,NA,57.09,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"FOR","E1K.VR.Plate.11",5,11,"p",1,NA,62.68,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"FOR","E1K.VR.Plate.9",4,11,"p",1,NA,63.06,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"FOR","E1K.VR.Plate.9",5,11,"p",1,NA,57.19,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"FOR","PhaseIIe1k.VR.Plate.1",4,11,"p",1,NA,69.61,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"FOR","PhaseIIe1k.VR.Plate.1",5,11,"p",1,NA,70.42,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"FOR","PhaseIIe1k.VR.Plate.2",4,11,"p",1,NA,69.58,"2900-TO3 Phase II and 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-"FOR","PhaseII.VR.Plate.3",4,11,"p",1,10,60.76,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.3",5,11,"p",1,10,55.01,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.4",4,11,"p",1,10,58.7,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.4",5,11,"p",1,10,61.99,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.5",4,11,"p",1,10,58.06,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.5",5,11,"p",1,10,61.67,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.6",4,11,"p",1,10,57.94,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.6",5,11,"p",1,10,53.07,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.7",4,11,"p",1,10,49.03,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.7",5,11,"p",1,10,48.41,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.8",4,11,"p",1,10,55.76,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"FOR","PhaseII.VR.Plate.8",5,11,"p",1,10,58.11,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"FOR","phIII.e1k.Plate.1",4,11,"p",1,NA,201.72,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.1",5,11,"p",1,NA,199.75,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.10",4,11,"p",1,NA,120.24,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.10",5,11,"p",1,NA,121.74,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.11",4,11,"p",1,NA,123.04,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.11",5,11,"p",1,NA,116.02,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.12",4,11,"p",1,NA,116.92,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.12",5,11,"p",1,NA,104.14,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.13",4,11,"p",1,NA,123.15,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.13",5,11,"p",0,NA,NA,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.14",4,11,"p",1,NA,116.15,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.14",5,11,"p",1,NA,112.17,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.15",4,11,"p",1,NA,102.54,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.15",5,11,"p",1,NA,105.24,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.16",4,11,"p",1,NA,125.49,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.16",5,11,"p",1,NA,105.07,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.17",4,11,"p",1,NA,110.58,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.17",5,11,"p",1,NA,110.25,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.18",4,11,"p",1,NA,116.63,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.18",5,11,"p",1,NA,100.02,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.2",4,11,"p",1,NA,126.53,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.2",5,11,"p",1,NA,114.15,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.3",4,11,"p",1,NA,128.56,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.3",5,11,"p",1,NA,105.5,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.4",4,11,"p",1,NA,103.75,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.4",5,11,"p",1,NA,96.68,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.5",4,11,"p",1,NA,101.06,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.5",5,11,"p",1,NA,93.54,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.6",4,11,"p",1,NA,114.81,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.6",5,11,"p",1,NA,100.83,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.7",4,11,"p",1,NA,93.91,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.7",5,11,"p",1,NA,115.28,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.8",4,11,"p",1,NA,112.19,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.8",5,11,"p",1,NA,113.23,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.9",4,11,"p",1,NA,133.36,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"FOR","phIII.e1k.Plate.9",5,11,"p",1,NA,108.47,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"FOR","phIII.e1k.VR.Plate.1",4,11,"p",1,NA,213.11,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"FOR","phIII.e1k.VR.Plate.1",5,11,"p",1,NA,209.67,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"FOR","phIII.e1k.VR.Plate.2",4,11,"p",1,NA,203.74,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"FOR","phIII.e1k.VR.Plate.2",5,11,"p",1,NA,180.12,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"FOR","phIII.e1k.VR.Plate.3",4,11,"p",1,NA,215.53,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"FOR","phIII.e1k.VR.Plate.3",5,11,"p",1,NA,221.37,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"PRO","20120829.Plate.1",2,11,"m",1,3,0.567128208635768,"20120829 Plate 1A.xlsx","cort" -"PRO","20120829.Plate.1",3,11,"m",1,3,0.588618219120001,"20120829 Plate 1A.xlsx","cort" -"PRO","20120829.Plate.2",2,11,"m",1,3,0.535489267718073,"20120829 Plate 2B.xlsx","cort" -"PRO","20120829.Plate.2",3,11,"m",1,3,0.53874606439567,"20120829 Plate 2B.xlsx","cort" -"PRO","20120829.Plate.3",2,11,"m",1,3,0.47,"20120829 Plate 3A.xlsx","cort" -"PRO","20120829.Plate.3",3,11,"m",1,3,0.50060681965791,"20120829 Plate 3A.xlsx","cort" -"PRO","20120829.Plate.4",2,11,"m",1,3,0.513933034840466,"20120829 Plate 4B.xlsx","cort" -"PRO","20120829.Plate.4",3,11,"m",1,3,0.45,"20120829 Plate 4B.xlsx","cort" -"PRO","20120829.Plate.5",2,11,"m",1,3,0.56183241183814,"20120829 Plate 5A.xlsx","cort" -"PRO","20120829.Plate.5",3,11,"m",1,3,0.54260884797301,"20120829 Plate 5A.xlsx","cort" -"PRO","20120829.Plate.6",2,11,"m",1,3,0.555406482140959,"20120829 Plate 6A.xlsx","cort" -"PRO","20120829.Plate.6",3,11,"m",1,3,0.47,"20120829 Plate 6A.xlsx","cort" -"PRO","TP0000882.Plate.1",2,11,"m",1,3,0.64825012590846,"TP0000882 Plate 1A.xlsx","cort" -"PRO","TP0000882.Plate.1",3,11,"m",1,3,0.755560856184828,"TP0000882 Plate 1A.xlsx","cort" -"PRO","TP0000882.Plate.2",2,11,"m",1,3,0.44,"TP0000882 Plate 2B.xlsx","cort" -"PRO","TP0000882.Plate.2",3,11,"m",1,3,0.521063104048986,"TP0000882 Plate 2B.xlsx","cort" -"PRO","TP0000882.Plate.3",2,11,"m",1,3,0.46,"TP0000882 Plate 3A.xlsx","cort" -"PRO","TP0000882.Plate.3",3,11,"m",1,3,0.49,"TP0000882 Plate 3A.xlsx","cort" -"PRO","TP0000882.Plate.4",2,11,"m",1,3,0.500864820636551,"TP0000882 Plate 4A.xlsx","cort" -"PRO","TP0000882.Plate.4",3,11,"m",1,3,0.530979000840192,"TP0000882 Plate 4A.xlsx","cort" -"PRO","TP0000883.Plate.1",2,11,"m",1,3,0.43,"TP0000883 Plate 1A.xlsx","cort" -"PRO","TP0000883.Plate.1",3,11,"m",1,3,0.505998380187313,"TP0000883 Plate 1A.xlsx","cort" -"PRO","TP0000883.Plate.2",2,11,"m",1,3,0.527957139185097,"TP0000883 Plate 2A.xlsx","cort" -"PRO","TP0000883.Plate.2",3,11,"m",1,3,0.578671247315383,"TP0000883 Plate 2A.xlsx","cort" -"PRO","TP0000883.Plate.3",2,11,"m",1,3,0.571954877594603,"TP0000883 Plate 3A.xlsx","cort" -"PRO","TP0000883.Plate.3",3,11,"m",1,3,0.552060316620954,"TP0000883 Plate 3A.xlsx","cort" -"PRO","TP0000883.Plate.4",2,11,"m",1,3,0.524841297622991,"TP0000883 Plate 4A.xlsx","cort" -"PRO","TP0000883.Plate.4",3,11,"m",1,3,0.592289276382768,"TP0000883 Plate 4A.xlsx","cort" -"PRO","TP0000884.Plate.1",2,11,"m",1,3,0.46,"TP0000884 Plate 1A.xlsx","cort" -"PRO","TP0000884.Plate.1",3,11,"m",1,3,0.45,"TP0000884 Plate 1A.xlsx","cort" -"PRO","TP0000884.Plate.2",2,11,"m",1,3,0.527163681941058,"TP0000884 Plate 2A.xlsx","cort" -"PRO","TP0000884.Plate.2",3,11,"m",1,3,0.46,"TP0000884 Plate 2A.xlsx","cort" -"PRO","TP0000884.Plate.3",2,11,"m",1,3,0.46,"TP0000884 Plate 3A.xlsx","cort" -"PRO","TP0000884.Plate.3",3,11,"m",1,3,0.43,"TP0000884 Plate 3A.xlsx","cort" -"PRO","TP0000884.Plate.4",2,11,"m",1,3,0.44,"TP0000884 Plate 4A.xlsx","cort" -"PRO","TP0000884.Plate.4",3,11,"m",1,3,0.45,"TP0000884 Plate 4A.xlsx","cort" -"PRO","TP0000885.Plate.1",2,11,"m",1,3,0.41,"TP0000885 Plate 1A.xlsx","cort" -"PRO","TP0000885.Plate.1",3,11,"m",1,3,0.39,"TP0000885 Plate 1A.xlsx","cort" -"PRO","TP0001109.Plate.1",2,11,"m",1,NA,0.71,"TP0001109 Plate 1_Ceetox.csv","cort" -"PRO","TP0001109.Plate.1",3,11,"m",1,NA,0.76,"TP0001109 Plate 1_Ceetox.csv","cort" -"PRO","TP0001109.Plate.2",2,11,"m",1,NA,0.93,"TP0001109 Plate 2_Ceetox.csv","cort" -"PRO","TP0001109.Plate.2",3,11,"m",1,NA,0.76,"TP0001109 Plate 2_Ceetox.csv","cort" -"PRO","TP0001109.Plate.3",2,11,"m",1,NA,0.7,"TP0001109 Plate 3_Ceetox.csv","cort" -"PRO","TP0001109.Plate.3",3,11,"m",1,NA,0.67,"TP0001109 Plate 3_Ceetox.csv","cort" -"PRO","TP0001109.Plate.4",2,11,"m",1,NA,0.62,"TP0001109 Plate 4_Ceetox.csv","cort" -"PRO","TP0001109.Plate.4",3,11,"m",1,NA,0.66,"TP0001109 Plate 4_Ceetox.csv","cort" -"PRO","TP0001110.Plate.5",2,11,"m",1,NA,0.58,"TP0001110 Plate 5_Ceetox.csv","cort" -"PRO","TP0001110.Plate.5",3,11,"m",0,NA,NA,"TP0001110 Plate 5_Ceetox.csv","cort" -"PRO","TP0001110.Plate.6",2,11,"m",1,NA,0.54,"TP0001110 Plate 6_Ceetox.csv","cort" -"PRO","TP0001110.Plate.6",3,11,"m",1,NA,0.63,"TP0001110 Plate 6_Ceetox.csv","cort" -"PRO","TP0001110.Plate.7",2,11,"m",1,NA,0.58,"TP0001110 Plate 7_Ceetox.csv","cort" -"PRO","TP0001110.Plate.7",3,11,"m",1,NA,0.57,"TP0001110 Plate 7_Ceetox.csv","cort" -"PRO","TP0001110.Plate.8",2,11,"m",1,NA,0.73,"TP0001110 Plate 8_Ceetox.csv","cort" -"PRO","TP0001110.Plate.8",3,11,"m",1,NA,0.55,"TP0001110 Plate 8_Ceetox.csv","cort" -"PRO","TP0001111.Plate.10",2,11,"m",1,NA,0.78,"TP0001111 Plate 10_Ceetox.csv","cort" -"PRO","TP0001111.Plate.10",3,11,"m",1,NA,0.68,"TP0001111 Plate 10_Ceetox.csv","cort" -"PRO","TP0001111.Plate.11",2,11,"m",1,NA,0.57,"TP0001111 Plate 11_Ceetox.csv","cort" -"PRO","TP0001111.Plate.11",3,11,"m",1,NA,0.59,"TP0001111 Plate 11_Ceetox.csv","cort" -"PRO","TP0001111.Plate.12",2,11,"m",1,NA,0.67,"TP0001111 Plate 12_Ceetox.csv","cort" -"PRO","TP0001111.Plate.12",3,11,"m",1,NA,0.62,"TP0001111 Plate 12_Ceetox.csv","cort" -"PRO","TP0001111.Plate.9",2,11,"m",1,NA,0.62,"TP0001111 Plate 9_Ceetox.csv","cort" -"PRO","TP0001111.Plate.9",3,11,"m",1,NA,0.61,"TP0001111 Plate 9_Ceetox.csv","cort" -"PRO","TP0001112.Plate.13",2,11,"m",1,NA,0.64,"TP0001112 Plate 13_Ceetox.csv","cort" -"PRO","TP0001112.Plate.13",3,11,"m",1,NA,0.56,"TP0001112 Plate 13_Ceetox.csv","cort" -"PRO","TP0001112.Plate.14",2,11,"m",1,NA,0.71,"TP0001112 Plate 14_Ceetox.csv","cort" -"PRO","TP0001112.Plate.14",3,11,"m",1,NA,0.69,"TP0001112 Plate 14_Ceetox.csv","cort" -"PRO","TP0001112.Plate.15",2,11,"m",1,NA,0.71,"TP0001112 Plate 15_Ceetox.csv","cort" -"PRO","TP0001112.Plate.15",3,11,"m",1,NA,0.57,"TP0001112 Plate 15_Ceetox.csv","cort" -"PRO","TP0001112.Plate.16",2,11,"m",1,NA,0.7,"TP0001112 Plate 16_Ceetox.csv","cort" -"PRO","TP0001112.Plate.16",3,11,"m",1,NA,1.04,"TP0001112 Plate 16_Ceetox.csv","cort" -"PRO","TP0001113.Plate.17",2,11,"m",1,NA,0.65,"TP0001113 Plate 17_Ceetox.csv","cort" -"PRO","TP0001113.Plate.17",3,11,"m",1,NA,0.61,"TP0001113 Plate 17_Ceetox.csv","cort" -"PRO","TP0001113.Plate.18",2,11,"m",1,NA,0.67,"TP0001113 Plate 18_Ceetox.csv","cort" -"PRO","TP0001113.Plate.18",3,11,"m",1,NA,0.6,"TP0001113 Plate 18_Ceetox.csv","cort" -"PRO","TP0001113.Plate.19",2,11,"m",1,NA,0.69,"TP0001113 Plate 19_Ceetox.csv","cort" -"PRO","TP0001113.Plate.19",3,11,"m",1,NA,0.64,"TP0001113 Plate 19_Ceetox.csv","cort" -"PRO","TP0001113.Plate.20",2,11,"m",1,NA,0.68,"TP0001113 Plate 20_Ceetox.csv","cort" -"PRO","TP0001113.Plate.20",3,11,"m",1,NA,0.69,"TP0001113 Plate 20_Ceetox.csv","cort" -"PRO","TP0001114.Plate.21",2,11,"m",1,NA,0.56,"TP0001114 Plate 21_Ceetox.csv","cort" -"PRO","TP0001114.Plate.21",3,11,"m",0,NA,NA,"TP0001114 Plate 21_Ceetox.csv","cort" -"PRO","TP0001114.Plate.22",2,11,"m",1,NA,0.66,"TP0001114 Plate 22_Ceetox.csv","cort" -"PRO","TP0001114.Plate.22",3,11,"m",1,NA,0.57,"TP0001114 Plate 22_Ceetox.csv","cort" -"PRO","TP0001114.Plate.23",2,11,"m",1,NA,0.6,"TP0001114 Plate 23_Ceetox.csv","cort" -"PRO","TP0001114.Plate.23",3,11,"m",1,NA,0.56,"TP0001114 Plate 23_Ceetox.csv","cort" -"PRO","TP0001114.Plate.24",2,11,"m",1,NA,0.65,"TP0001114 Plate 24_Ceetox.csv","cort" -"PRO","TP0001114.Plate.24",3,11,"m",1,NA,0.65,"TP0001114 Plate 24_Ceetox.csv","cort" -"PRO","TP0001054.Plate.1",4,2,"m",1,3,0.6,"TP0001054 Plate 1_CeeTox.csv","cort" -"PRO","TP0001054.Plate.1",5,2,"m",1,3,0.68,"TP0001054 Plate 1_CeeTox.csv","cort" -"PRO","TP0001054.Plate.2",4,2,"m",1,3,0.71,"TP0001054 Plate 2_CeeTox.csv","cort" -"PRO","TP0001054.Plate.2",5,2,"m",1,3,0.71,"TP0001054 Plate 2_CeeTox.csv","cort" -"PRO","TP0001054.Plate.3",4,2,"m",1,3,0.76,"TP0001054 Plate 3_CeeTox.csv","cort" -"PRO","TP0001054.Plate.3",5,2,"m",1,3,0.67,"TP0001054 Plate 3_CeeTox.csv","cort" -"PRO","TP0001054.Plate.4",4,2,"m",1,3,0.76,"TP0001054 Plate 4_CeeTox.csv","cort" -"PRO","TP0001054.Plate.4",5,2,"m",1,3,0.66,"TP0001054 Plate 4_CeeTox.csv","cort" -"PRO","TP0001055.Plate.5",4,2,"m",1,3,0.6,"TP0001055 Plate 5_CeeTox.csv","cort" -"PRO","TP0001055.Plate.5",5,2,"m",1,3,0.6,"TP0001055 Plate 5_CeeTox.csv","cort" -"PRO","TP0001055.Plate.6",4,2,"m",1,3,0.74,"TP0001055 Plate 6_CeeTox.csv","cort" -"PRO","TP0001055.Plate.6",5,2,"m",1,3,0.72,"TP0001055 Plate 6_CeeTox.csv","cort" -"PRO","TP0001054.Plate.7",4,2,"m",1,3,0.89,"TP0001055 Plate 7_CeeTox.csv","cort" -"PRO","TP0001054.Plate.7",5,2,"m",1,3,0.78,"TP0001055 Plate 7_CeeTox.csv","cort" -"PRO","TP0001054.Plate.8",4,2,"m",1,3,0.72,"TP0001055 Plate 8_CeeTox.csv","cort" -"PRO","TP0001054.Plate.8",5,2,"m",1,3,0.77,"TP0001055 Plate 8_CeeTox.csv","cort" -"PRO","TP0001056.Plate.10",4,2,"m",1,3,0.65,"TP0001056 Plate 10_CeeTox.csv","cort" -"PRO","TP0001056.Plate.10",5,2,"m",1,3,0.64,"TP0001056 Plate 10_CeeTox.csv","cort" -"PRO","TP0001056.Plate.11",4,2,"m",1,3,0.73,"TP0001056 Plate 11_CeeTox.csv","cort" -"PRO","TP0001056.Plate.11",5,2,"m",1,3,0.79,"TP0001056 Plate 11_CeeTox.csv","cort" -"PRO","TP0001056.Plate.12",4,2,"m",1,3,0.78,"TP0001056 Plate 12_CeeTox.csv","cort" -"PRO","TP0001056.Plate.12",5,2,"m",1,3,0.59,"TP0001056 Plate 12_CeeTox.csv","cort" -"PRO","TP0001056.Plate.9",4,2,"m",1,3,0.65,"TP0001056 Plate 9_CeeTox.csv","cort" -"PRO","TP0001056.Plate.9",5,2,"m",1,3,0.69,"TP0001056 Plate 9_CeeTox.csv","cort" -"PRO","TP0001057.Plate.13",4,2,"m",1,3,0.59,"TP0001057 Plate 13_CeeTox.csv","cort" -"PRO","TP0001057.Plate.13",5,2,"m",1,3,0.65,"TP0001057 Plate 13_CeeTox.csv","cort" -"PRO","TP0001057.Plate.14",4,2,"m",1,3,0.7,"TP0001057 Plate 14_CeeTox.csv","cort" -"PRO","TP0001057.Plate.14",5,2,"m",1,3,0.63,"TP0001057 Plate 14_CeeTox.csv","cort" -"PRO","TP0001057.Plate.15",4,2,"m",1,3,0.6,"TP0001057 Plate 15_CeeTox.csv","cort" -"PRO","TP0001057.Plate.15",5,2,"m",1,3,0.62,"TP0001057 Plate 15_CeeTox.csv","cort" -"PRO","TP0001057.Plate.16",4,2,"m",1,3,0.74,"TP0001057 Plate 16_CeeTox.csv","cort" -"PRO","TP0001057.Plate.16",5,2,"m",1,3,0.69,"TP0001057 Plate 16_CeeTox.csv","cort" -"PRO","TP0001058.Plate.1",4,2,"m",1,3,0.45,"TP0001058 Plate 1_Ceetox.csv","cort" -"PRO","TP0001058.Plate.1",5,2,"m",1,3,0.46,"TP0001058 Plate 1_Ceetox.csv","cort" -"PRO","TP0001058.Plate.2",4,2,"m",1,3,0.52,"TP0001058 Plate 2_CeeTox.csv","cort" -"PRO","TP0001058.Plate.2",5,2,"m",1,3,0.64,"TP0001058 Plate 2_CeeTox.csv","cort" -"PRO","TP0001058.Plate.3",4,2,"m",1,3,0.66,"TP0001058 Plate 3_CeeTox.csv","cort" -"PRO","TP0001058.Plate.3",5,2,"m",1,3,0.7,"TP0001058 Plate 3_CeeTox.csv","cort" -"PRO","TP0001058.Plate.4",4,2,"m",1,3,0.65,"TP0001058 Plate 4_CeeTox.csv","cort" -"PRO","TP0001058.Plate.4",5,2,"m",1,3,0.64,"TP0001058 Plate 4_CeeTox.csv","cort" -"PRO","TP0001059.Plate.5",4,2,"m",1,3,0.6,"TP0001059 Plate 5_CeeTox.csv","cort" -"PRO","TP0001059.Plate.5",5,2,"m",1,3,0.63,"TP0001059 Plate 5_CeeTox.csv","cort" -"PRO","TP0001059.Plate.6",4,2,"m",1,3,0.63,"TP0001059 Plate 6_CeeTox.csv","cort" -"PRO","TP0001059.Plate.6",5,2,"m",1,3,0.59,"TP0001059 Plate 6_CeeTox.csv","cort" -"PRO","TP0001059.Plate.7",4,2,"m",1,3,0.63,"TP0001059 Plate 7_CeeTox.csv","cort" -"PRO","TP0001059.Plate.7",5,2,"m",1,3,0.66,"TP0001059 Plate 7_CeeTox.csv","cort" -"PRO","TP0001059.Plate.8",4,2,"m",1,3,0.63,"TP0001059 Plate 8_CeeTox.csv","cort" -"PRO","TP0001059.Plate.8",5,2,"m",1,3,0.68,"TP0001059 Plate 8_CeeTox.csv","cort" -"PRO","TP0001060.Plate.10",4,2,"m",1,3,0.53,"TP0001060 Plate 10_CeeTox.csv","cort" -"PRO","TP0001060.Plate.10",5,2,"m",1,3,0.57,"TP0001060 Plate 10_CeeTox.csv","cort" -"PRO","TP0001060.Plate.11",4,2,"m",1,3,0.64,"TP0001060 Plate 11_CeeTox.csv","cort" -"PRO","TP0001060.Plate.11",5,2,"m",1,3,0.66,"TP0001060 Plate 11_CeeTox.csv","cort" -"PRO","TP0001060.Plate.12",4,2,"m",1,3,0.66,"TP0001060 Plate 12_CeeTox.csv","cort" -"PRO","TP0001060.Plate.12",5,2,"m",1,3,0.77,"TP0001060 Plate 12_CeeTox.csv","cort" -"PRO","TP0001060.Plate.9",4,2,"m",1,3,0.58,"TP0001060 Plate 9_CeeTox.csv","cort" -"PRO","TP0001060.Plate.9",5,2,"m",1,3,0.62,"TP0001060 Plate 9_CeeTox.csv","cort" -"PRO","TP0001061.Plate.13",4,2,"m",1,3,0.65,"TP0001061 Plate 13_CeeTox.csv","cort" -"PRO","TP0001061.Plate.13",5,2,"m",1,3,0.77,"TP0001061 Plate 13_CeeTox.csv","cort" -"PRO","TP0001061.Plate.14",4,2,"m",1,3,0.58,"TP0001061 Plate 14_CeeTox.csv","cort" -"PRO","TP0001061.Plate.14",5,2,"m",0,3,NA,"TP0001061 Plate 14_CeeTox.csv","cort" -"PRO","TP0001061.Plate.15",4,2,"m",1,3,0.65,"TP0001061 Plate 15_CeeTox.csv","cort" -"PRO","TP0001061.Plate.15",5,2,"m",1,3,0.59,"TP0001061 Plate 15_CeeTox.csv","cort" -"PRO","TP0001061.Plate.16",4,2,"m",1,3,0.65,"TP0001061 Plate 16_CeeTox.csv","cort" -"PRO","TP0001061.Plate.16",5,2,"m",1,3,0.65,"TP0001061 Plate 16_CeeTox.csv","cort" -"PRO","TP0001062.Plate.17",4,2,"m",1,3,0.65,"TP0001062_Plate_17_Ceetox.csv","cort" -"PRO","TP0001062.Plate.17",5,2,"m",1,3,0.6,"TP0001062_Plate_17_Ceetox.csv","cort" -"PRO","TP0001062.Plate.18",4,2,"m",1,3,0.56,"TP0001062_Plate_18_Ceetox.csv","cort" -"PRO","TP0001062.Plate.18",5,2,"m",1,3,0.65,"TP0001062_Plate_18_Ceetox.csv","cort" -"PRO","E1K.VR.Plate.10",2,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"PRO","E1K.VR.Plate.10",3,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"PRO","E1K.VR.Plate.11",2,11,"m",1,NA,0.53,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"PRO","E1K.VR.Plate.11",3,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"PRO","E1K.VR.Plate.9",2,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"PRO","E1K.VR.Plate.9",3,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"PRO","PhaseIIe1k.VR.Plate.1",2,11,"m",1,NA,0.75,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"PRO","PhaseIIe1k.VR.Plate.1",3,11,"m",1,NA,0.66,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"PRO","PhaseIIe1k.VR.Plate.2",2,11,"m",1,NA,0.62,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"PRO","PhaseIIe1k.VR.Plate.2",3,11,"m",1,NA,0.82,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"PRO","PhaseIIe1k.VR.Plate.3",2,11,"m",1,NA,0.67,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"PRO","PhaseIIe1k.VR.Plate.3",3,11,"m",1,NA,0.73,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"PRO","PhaseIIe1k.VR.Plate.4",2,11,"m",1,NA,0.65,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"PRO","PhaseIIe1k.VR.Plate.4",3,11,"m",1,NA,0.75,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.1",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.1",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.2",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.2",3,11,"m",1,3,0.51,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.3",2,11,"m",1,3,0.54,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.3",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.4",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.4",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.5",2,11,"m",1,3,0.51,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.5",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.6",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.6",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.7",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.7",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.8",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"PRO","PhaseII.VR.Plate.8",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"PRO","phIII.e1k.Plate.1",2,11,"m",1,NA,0.9,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.1",3,11,"m",1,NA,0.89,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.10",2,11,"m",1,NA,0.59,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.10",3,11,"m",1,NA,0.61,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.11",2,11,"m",1,NA,0.59,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.11",3,11,"m",1,NA,0.92,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.12",2,11,"m",1,NA,0.59,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.12",3,11,"m",1,NA,0.61,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.13",2,11,"m",1,NA,0.57,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.13",3,11,"m",1,NA,0.52,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.14",2,11,"m",1,NA,0.59,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.14",3,11,"m",1,NA,0.57,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.15",2,11,"m",0,NA,NA,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.15",3,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.16",2,11,"m",1,NA,0.57,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.16",3,11,"m",1,NA,0.69,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.17",2,11,"m",1,NA,0.5,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.17",3,11,"m",1,NA,0.52,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.18",2,11,"m",1,NA,0.63,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.18",3,11,"m",1,NA,0.57,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.2",2,11,"m",1,NA,0.54,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.2",3,11,"m",0,NA,NA,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.3",2,11,"m",1,NA,0.56,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.3",3,11,"m",1,NA,0.6,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.4",2,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.4",3,11,"m",1,NA,0.51,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.5",2,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.5",3,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.6",2,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.6",3,11,"m",1,NA,0.61,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.7",2,11,"m",1,NA,0.52,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.7",3,11,"m",1,NA,0.54,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.8",2,11,"m",1,NA,0.65,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.8",3,11,"m",1,NA,0.62,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.9",2,11,"m",1,NA,0.67,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"PRO","phIII.e1k.Plate.9",3,11,"m",1,NA,0.62,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"PRO","phIII.e1k.VR.Plate.1",2,11,"m",1,NA,0.84,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"PRO","phIII.e1k.VR.Plate.1",3,11,"m",1,NA,0.96,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"PRO","phIII.e1k.VR.Plate.2",2,11,"m",1,NA,0.8,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"PRO","phIII.e1k.VR.Plate.2",3,11,"m",1,NA,0.85,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"PRO","phIII.e1k.VR.Plate.3",2,11,"m",1,NA,0.91,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"PRO","phIII.e1k.VR.Plate.3",3,11,"m",1,NA,1.06,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX000097","TP0001058.Plate.2",2,6,"t",1,20,18.58,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX000097","TP0001058.Plate.2",3,6,"t",1,20,23.79,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX000777","20120829.Plate.2",6,9,"t",1,0.2,11.1711447266845,"20120829 Plate 2B.xlsx","cort" -"TX000777","20120829.Plate.2",7,9,"t",1,0.2,9.57857067701961,"20120829 Plate 2B.xlsx","cort" -"TX000789","TP0000882.Plate.3",6,5,"t",1,20,11.8375753935395,"TP0000882 Plate 3A.xlsx","cort" -"TX000789","TP0000882.Plate.3",7,5,"t",1,20,10.9617204960161,"TP0000882 Plate 3A.xlsx","cort" -"TX000991","TP0001111.Plate.11",6,5,"t",1,100,69.22,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX000991","TP0001111.Plate.11",7,5,"t",1,100,75.5,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX001026","TP0001111.Plate.11",2,9,"t",1,100,55.29,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX001026","TP0001111.Plate.11",3,9,"t",1,100,60.4,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX001028","TP0001110.Plate.8",4,3,"t",1,100,100.14,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX001028","TP0001110.Plate.8",5,3,"t",1,100,58.73,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX001030","TP0001110.Plate.7",4,6,"t",1,100,61.22,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX001030","TP0001110.Plate.7",5,6,"t",1,100,65.19,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX001034","TP0001109.Plate.2",4,5,"t",1,20,68.38,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX001034","TP0001109.Plate.2",5,5,"t",1,20,64.14,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX001038","TP0001054.Plate.7",6,6,"t",1,20,26.51,"TP0001055 Plate 7_CeeTox.csv","cort" -"TX001038","TP0001054.Plate.7",7,6,"t",1,20,28.31,"TP0001055 Plate 7_CeeTox.csv","cort" -"TX001040","TP0001114.Plate.22",2,10,"t",1,105.96,52.3,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX001040","TP0001114.Plate.22",3,10,"t",1,105.96,55.44,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX001052","TP0001112.Plate.13",4,6,"t",1,100,66.23,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX001052","TP0001112.Plate.13",5,6,"t",1,100,67.69,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX001060","TP0001112.Plate.15",6,9,"t",1,100,58.75,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX001060","TP0001112.Plate.15",7,9,"t",1,100,61.71,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX001064","TP0001114.Plate.21",6,3,"t",1,100,66.37,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX001064","TP0001114.Plate.21",7,3,"t",1,100,51.39,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX001068","TP0001113.Plate.19",2,3,"t",1,100,59.29,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX001068","TP0001113.Plate.19",3,3,"t",1,100,64.85,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX001069","TP0001056.Plate.11",6,4,"t",1,20,28.94,"TP0001056 Plate 11_CeeTox.csv","cort" -"TX001069","TP0001056.Plate.11",7,4,"t",1,20,28.11,"TP0001056 Plate 11_CeeTox.csv","cort" -"TX001072","TP0001114.Plate.22",6,8,"t",1,100,56.84,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX001072","TP0001114.Plate.22",7,8,"t",1,100,61.53,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX001074","TP0001110.Plate.6",6,10,"t",1,100,68.15,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX001074","TP0001110.Plate.6",7,10,"t",1,100,71.32,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX001083","phIII.e1k.Plate.4",2,3,"t",1,20,15.05,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX001083","phIII.e1k.Plate.4",3,3,"t",1,20,15.22,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX001086","TP0001111.Plate.12",6,4,"t",1,100,65.25,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX001086","TP0001111.Plate.12",7,4,"t",1,100,55.93,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX001087","phIII.e1k.VR.Plate.1",6,10,"t",1,2,71.58,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX001087","phIII.e1k.VR.Plate.1",7,10,"t",1,2,48.12,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX001106","TP0001109.Plate.1",4,3,"t",1,100,51.02,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX001106","TP0001109.Plate.1",5,3,"t",1,100,49.08,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX001112","TP0001114.Plate.24",2,6,"t",1,20,55.57,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX001112","TP0001114.Plate.24",3,6,"t",1,20,64.69,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX001118","TP0001113.Plate.18",2,10,"t",1,100,57.08,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX001118","TP0001113.Plate.18",3,10,"t",1,100,68.97,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX001132","TP0001112.Plate.16",6,9,"t",1,100,21.46,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX001132","TP0001112.Plate.16",7,9,"t",1,100,19.76,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX001134","E1K.VR.Plate.10",2,4,"t",1,1,16.74,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX001134","E1K.VR.Plate.10",3,4,"t",1,1,14.14,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX001140","TP0001109.Plate.3",2,6,"t",1,50,35,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX001140","TP0001109.Plate.3",3,6,"t",1,50,39.83,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX001166","TP0001111.Plate.12",4,3,"t",1,100,59.66,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX001166","TP0001111.Plate.12",5,3,"t",1,100,57.34,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX001178","TP0001112.Plate.16",2,9,"t",1,100,45.45,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX001178","TP0001112.Plate.16",3,9,"t",1,100,50.57,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX001184","TP0001111.Plate.9",4,6,"t",1,50,36.73,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX001184","TP0001111.Plate.9",5,6,"t",1,50,33.31,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX001222","TP0001110.Plate.7",2,6,"t",1,100,52.26,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX001222","TP0001110.Plate.7",3,6,"t",1,100,61.85,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX001230","TP0001109.Plate.3",4,10,"t",1,100,79.29,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX001230","TP0001109.Plate.3",5,10,"t",1,100,66.47,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX001247","phIII.e1k.Plate.14",4,6,"t",1,20,24.95,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX001247","phIII.e1k.Plate.14",5,6,"t",1,20,25.31,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX0012711","TP0001110.Plate.5",4,6,"t",1,100,70.75,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX0012711","TP0001110.Plate.5",5,6,"t",1,100,66.66,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX0012712","TP0001110.Plate.8",6,10,"t",1,100,53.49,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX0012712","TP0001110.Plate.8",7,10,"t",1,100,57.07,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX0012713","TP0001113.Plate.18",6,9,"t",1,100,55.15,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX0012713","TP0001113.Plate.18",7,9,"t",1,100,50.53,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX0012714","TP0001114.Plate.22",4,3,"t",1,100,60.67,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX0012714","TP0001114.Plate.22",5,3,"t",1,100,65.17,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX0012715","TP0001112.Plate.16",2,8,"t",1,20,55.96,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX0012715","TP0001112.Plate.16",3,8,"t",1,20,60.31,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX0012716","TP0001112.Plate.16",6,8,"t",1,100,55.81,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX0012716","TP0001112.Plate.16",7,8,"t",1,100,58.91,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX0012717","TP0001113.Plate.17",6,4,"t",1,100,49.68,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX0012717","TP0001113.Plate.17",7,4,"t",1,100,46.23,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX0012718","TP0001112.Plate.15",2,10,"t",1,100,62.05,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX0012718","TP0001112.Plate.15",3,10,"t",1,100,64.27,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX0012719","TP0001111.Plate.9",2,10,"t",1,100,53.86,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX0012719","TP0001111.Plate.9",3,10,"t",1,100,64.23,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX0012720","TP0001113.Plate.20",2,4,"t",1,50,56.69,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX0012720","TP0001113.Plate.20",3,4,"t",1,50,64.43,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX0012721","TP0001110.Plate.7",6,3,"t",1,50,58.83,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX0012721","TP0001110.Plate.7",7,3,"t",1,50,57.21,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX0012722","TP0001110.Plate.8",2,7,"t",1,77.62,73.59,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX0012722","TP0001110.Plate.8",3,7,"t",1,77.62,69.02,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX0012723","TP0001110.Plate.8",4,7,"t",1,50,66.6,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX0012723","TP0001110.Plate.8",5,7,"t",1,50,72.04,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX0012724","TP0001113.Plate.17",2,5,"t",1,100,51.95,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX0012724","TP0001113.Plate.17",3,5,"t",1,100,64.92,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX0012725","TP0001114.Plate.23",2,8,"t",1,100,67.11,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX0012725","TP0001114.Plate.23",3,8,"t",1,100,62.23,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX0012726","TP0001112.Plate.14",4,3,"t",1,100,64.5,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX0012726","TP0001112.Plate.14",5,3,"t",1,100,59.39,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX0012727","TP0001111.Plate.12",6,9,"t",1,20,65.28,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX0012727","TP0001111.Plate.12",7,9,"t",1,20,52.39,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX0012728","TP0001114.Plate.23",6,9,"t",1,100,68.85,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX0012728","TP0001114.Plate.23",7,9,"t",1,100,60.76,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX0012729","TP0001112.Plate.14",4,9,"t",1,100,57.41,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX0012729","TP0001112.Plate.14",5,9,"t",1,100,63.74,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX0012730","TP0001113.Plate.19",4,10,"t",1,100,58.15,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX0012730","TP0001113.Plate.19",5,10,"t",1,100,62.33,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX0012731","TP0001109.Plate.3",2,5,"t",1,100,62.55,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX0012731","TP0001109.Plate.3",3,5,"t",1,100,61.9,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX0012732","TP0001111.Plate.9",2,5,"t",1,100,53.29,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX0012732","TP0001111.Plate.9",3,5,"t",1,100,67.26,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX0012733","TP0001109.Plate.3",2,8,"t",1,100,30.48,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX0012733","TP0001109.Plate.3",3,8,"t",1,100,31.99,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX0012734","TP0001110.Plate.7",6,7,"t",1,100,64.35,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX0012734","TP0001110.Plate.7",7,7,"t",1,100,61.18,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX0012735","TP0001114.Plate.21",2,3,"t",1,100,49.46,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX0012735","TP0001114.Plate.21",3,3,"t",1,100,59.6,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX0012736","TP0001111.Plate.11",6,8,"t",1,20,61.29,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX0012736","TP0001111.Plate.11",7,8,"t",1,20,63.3,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX0012737","TP0001109.Plate.1",4,4,"t",1,100,62.05,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX0012737","TP0001109.Plate.1",5,4,"t",1,100,61.37,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX0012738","TP0001113.Plate.20",2,8,"t",1,100,55.65,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX0012738","TP0001113.Plate.20",3,8,"t",1,100,63.57,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX0012739","PhaseIIe1k.VR.Plate.2",6,3,"t",1,10,19.44,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"TX0012739","PhaseIIe1k.VR.Plate.2",7,3,"t",1,10,20.18,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"TX0012741","phIII.e1k.Plate.3",6,5,"t",1,20,19.13,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX0012741","phIII.e1k.Plate.3",7,5,"t",1,20,15.91,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX0012745","phIII.e1k.VR.Plate.3",4,4,"t",1,0.5,55.43,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX0012745","phIII.e1k.VR.Plate.3",5,4,"t",1,0.5,61.22,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX0012750","phIII.e1k.Plate.17",4,5,"t",1,100,20.91,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX0012750","phIII.e1k.Plate.17",5,5,"t",1,100,27.35,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX0012757","phIII.e1k.Plate.13",4,8,"t",1,11.8,29.95,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX0012757","phIII.e1k.Plate.13",5,8,"t",1,11.8,28.22,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX0012762","phIII.e1k.Plate.2",4,8,"t",1,100,29.36,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX0012762","phIII.e1k.Plate.2",5,8,"t",1,100,22.12,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX0012769","phIII.e1k.Plate.3",2,5,"t",1,20,25.91,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX0012769","phIII.e1k.Plate.3",3,5,"t",1,20,24.34,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX0012774","phIII.e1k.Plate.3",2,4,"t",1,20,26.49,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX0012774","phIII.e1k.Plate.3",3,4,"t",1,20,21.91,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX0012777","phIII.e1k.VR.Plate.1",2,8,"t",1,1,53.92,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX0012777","phIII.e1k.VR.Plate.1",3,8,"t",1,1,54.44,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX001343","TP0001114.Plate.23",4,4,"t",1,100,79.41,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX001343","TP0001114.Plate.23",5,4,"t",1,100,82.22,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX001350","TP0001111.Plate.12",4,7,"t",1,100,72.2,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX001350","TP0001111.Plate.12",5,7,"t",1,100,71.51,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX001394","TP0001061.Plate.15",6,5,"t",1,20,19.58,"TP0001061 Plate 15_CeeTox.csv","cort" -"TX001394","TP0001061.Plate.15",7,5,"t",1,20,20.64,"TP0001061 Plate 15_CeeTox.csv","cort" -"TX001399","TP0001111.Plate.9",4,5,"t",1,50,64.38,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX001399","TP0001111.Plate.9",5,5,"t",1,50,65.73,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX001400","TP0001113.Plate.19",6,9,"t",1,100,62.95,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX001400","TP0001113.Plate.19",7,9,"t",1,100,68.21,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX001440","TP0000884.Plate.2",4,5,"t",1,20,12.0320587224838,"TP0000884 Plate 2A.xlsx","cort" -"TX001440","TP0000884.Plate.2",5,5,"t",1,20,15.7949672085805,"TP0000884 Plate 2A.xlsx","cort" -"TX001556","TP0001060.Plate.9",6,8,"t",1,8.4,21.69,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX001556","TP0001060.Plate.9",7,8,"t",1,8.4,24.28,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX001593","TP0000882.Plate.2",2,9,"t",1,10,3.43833999435551,"TP0000882 Plate 2B.xlsx","cort" -"TX001593","TP0000882.Plate.2",3,9,"t",1,10,2.57288501419098,"TP0000882 Plate 2B.xlsx","cort" -"TX001595","TP0000882.Plate.2",6,4,"t",1,10,12.7851363207248,"TP0000882 Plate 2B.xlsx","cort" -"TX001595","TP0000882.Plate.2",7,4,"t",1,10,12.1933768779136,"TP0000882 Plate 2B.xlsx","cort" -"TX001598","20120829.Plate.2",6,7,"t",1,0.2,10.1851560611486,"20120829 Plate 2B.xlsx","cort" -"TX001598","20120829.Plate.2",7,7,"t",1,0.2,9.68224223863252,"20120829 Plate 2B.xlsx","cort" -"TX001609","TP0000884.Plate.1",4,7,"t",1,10,15.8120201628609,"TP0000884 Plate 1A.xlsx","cort" -"TX001609","TP0000884.Plate.1",5,7,"t",1,10,14.748941094338,"TP0000884 Plate 1A.xlsx","cort" -"TX001612","TP0000885.Plate.1",4,6,"t",1,8.9,11.290006305084,"TP0000885 Plate 1A.xlsx","cort" -"TX001612","TP0000885.Plate.1",5,6,"t",1,8.9,12.2219929957969,"TP0000885 Plate 1A.xlsx","cort" -"TX001620","20120829.Plate.2",2,7,"t",1,0.24,9.88945940698784,"20120829 Plate 2B.xlsx","cort" -"TX001620","20120829.Plate.2",3,7,"t",1,0.24,10.3088407748688,"20120829 Plate 2B.xlsx","cort" -"TX001632","TP0001113.Plate.19",2,6,"t",1,100,60.75,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX001632","TP0001113.Plate.19",3,6,"t",1,100,66.08,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX001689","TP0001113.Plate.20",6,5,"t",1,50,24.32,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX001689","TP0001113.Plate.20",7,5,"t",1,50,21.88,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX001697","TP0001109.Plate.4",6,4,"t",1,100,65.93,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX001697","TP0001109.Plate.4",7,4,"t",1,100,68.99,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX001698","TP0001054.Plate.8",6,10,"t",1,20,25.04,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX001698","TP0001054.Plate.8",7,10,"t",1,20,24.33,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX001701","TP0001114.Plate.21",2,8,"t",1,100,58.28,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX001701","TP0001114.Plate.21",3,8,"t",1,100,63.86,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX001705","TP0001057.Plate.14",4,5,"t",1,100,27.73,"TP0001057 Plate 14_CeeTox.csv","cort" -"TX001705","TP0001057.Plate.14",5,5,"t",1,100,25.91,"TP0001057 Plate 14_CeeTox.csv","cort" -"TX001708","TP0001061.Plate.13",6,10,"t",1,100,23.48,"TP0001061 Plate 13_CeeTox.csv","cort" -"TX001708","TP0001061.Plate.13",7,10,"t",1,100,24.85,"TP0001061 Plate 13_CeeTox.csv","cort" -"TX001712","TP0001059.Plate.8",2,4,"t",1,20,21.09,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX001712","TP0001059.Plate.8",3,4,"t",1,20,25.94,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX001716","TP0001056.Plate.9",2,6,"t",1,100,19.95,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX001716","TP0001056.Plate.9",3,6,"t",1,100,20.76,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX001735","TP0001055.Plate.5",4,10,"t",1,10.2,21.9,"TP0001055 Plate 5_CeeTox.csv","cort" -"TX001735","TP0001055.Plate.5",5,10,"t",1,10.2,23.77,"TP0001055 Plate 5_CeeTox.csv","cort" -"TX001757","phIII.e1k.Plate.4",4,7,"t",1,20,23.33,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX001757","phIII.e1k.Plate.4",5,7,"t",1,20,18.77,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX001775","TP0001113.Plate.20",2,5,"t",1,100,56.5,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX001775","TP0001113.Plate.20",3,5,"t",1,100,67.85,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX001784","TP0001059.Plate.5",2,4,"t",1,20,26.24,"TP0001059 Plate 5_CeeTox.csv","cort" -"TX001784","TP0001059.Plate.5",3,4,"t",1,20,24.07,"TP0001059 Plate 5_CeeTox.csv","cort" -"TX001787","TP0001110.Plate.7",2,5,"t",1,100,47.38,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX001787","TP0001110.Plate.7",3,5,"t",1,100,53.46,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX001793","TP0001111.Plate.11",2,5,"t",1,100,58.88,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX001793","TP0001111.Plate.11",3,5,"t",1,100,68.36,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX001796","TP0001109.Plate.1",2,10,"t",1,100,65.96,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX001796","TP0001109.Plate.1",3,10,"t",1,100,67.09,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX001801","TP0001054.Plate.4",2,4,"t",1,20,25.57,"TP0001054 Plate 4_CeeTox.csv","cort" -"TX001801","TP0001054.Plate.4",3,4,"t",1,20,29.3,"TP0001054 Plate 4_CeeTox.csv","cort" -"TX001810","TP0001111.Plate.9",6,5,"t",1,100,53.87,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX001810","TP0001111.Plate.9",7,5,"t",1,100,58.57,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX001830","TP0001057.Plate.14",2,6,"t",1,20,28.4,"TP0001057 Plate 14_CeeTox.csv","cort" -"TX001830","TP0001057.Plate.14",3,6,"t",1,20,30.99,"TP0001057 Plate 14_CeeTox.csv","cort" -"TX001843","TP0001054.Plate.2",4,8,"t",1,20,18.97,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX001843","TP0001054.Plate.2",5,8,"t",1,20,21.3,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX001876","TP0001061.Plate.14",2,5,"t",1,100,21.11,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX001876","TP0001061.Plate.14",3,5,"t",1,100,22.1,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX001881","TP0001112.Plate.15",4,3,"t",1,100,53.52,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX001881","TP0001112.Plate.15",5,3,"t",1,100,57.88,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX001882","TP0001054.Plate.1",2,8,"t",1,20.7,23.65,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX001882","TP0001054.Plate.1",3,8,"t",1,20.7,21.12,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX001887","TP0001058.Plate.1",2,7,"t",1,100,22.94,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX001887","TP0001058.Plate.1",3,7,"t",1,100,24.8,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX001903","TP0001060.Plate.12",6,10,"t",1,100,21.47,"TP0001060 Plate 12_CeeTox.csv","cort" -"TX001903","TP0001060.Plate.12",7,10,"t",1,100,21.51,"TP0001060 Plate 12_CeeTox.csv","cort" -"TX001907","TP0001054.Plate.8",4,5,"t",1,20,22.35,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX001907","TP0001054.Plate.8",5,5,"t",1,20,23.13,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX001919","TP0001114.Plate.23",2,5,"t",1,100,55.15,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX001919","TP0001114.Plate.23",3,5,"t",1,100,60.05,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX001921","TP0001054.Plate.3",6,6,"t",1,100,38.54,"TP0001054 Plate 3_CeeTox.csv","cort" -"TX001921","TP0001054.Plate.3",7,6,"t",1,100,30.16,"TP0001054 Plate 3_CeeTox.csv","cort" -"TX002104","TP0001055.Plate.5",2,4,"t",1,20.8,26.6,"TP0001055 Plate 5_CeeTox.csv","cort" -"TX002104","TP0001055.Plate.5",3,4,"t",1,20.8,24.64,"TP0001055 Plate 5_CeeTox.csv","cort" -"TX002114","TP0001110.Plate.8",2,10,"t",1,100,77.8,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX002114","TP0001110.Plate.8",3,10,"t",1,100,73.64,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX002126","TP0001110.Plate.6",4,4,"t",1,100,73.19,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX002126","TP0001110.Plate.6",5,4,"t",1,100,70.08,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX002131","TP0001113.Plate.17",6,10,"t",1,100,61.28,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX002131","TP0001113.Plate.17",7,10,"t",1,100,49.13,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX002132","TP0001057.Plate.16",2,5,"t",1,100,27.51,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX002132","TP0001057.Plate.16",3,5,"t",1,100,27.57,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX002152","TP0001111.Plate.10",6,9,"t",1,100,65.96,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002152","TP0001111.Plate.10",7,9,"t",1,100,65.87,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002177","TP0001113.Plate.18",4,10,"t",1,100,66.09,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002177","TP0001113.Plate.18",5,10,"t",1,100,65.68,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002193","TP0001058.Plate.3",2,4,"t",1,20,17.33,"TP0001058 Plate 3_CeeTox.csv","cort" -"TX002193","TP0001058.Plate.3",3,4,"t",1,20,16.9,"TP0001058 Plate 3_CeeTox.csv","cort" -"TX002202","TP0001114.Plate.21",4,7,"t",1,100,55.14,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002202","TP0001114.Plate.21",5,7,"t",1,100,68.9,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002205","TP0001111.Plate.9",2,7,"t",1,100,54.65,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX002205","TP0001111.Plate.9",3,7,"t",1,100,62.53,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX002210","TP0001114.Plate.22",2,4,"t",1,100,69.26,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX002210","TP0001114.Plate.22",3,4,"t",1,100,62.57,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX002231","TP0001114.Plate.21",2,5,"t",1,100,54.1,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002231","TP0001114.Plate.21",3,5,"t",1,100,76.1,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002249","TP0001111.Plate.9",6,9,"t",1,100,68.17,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX002249","TP0001111.Plate.9",7,9,"t",1,100,60.82,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX002286","TP0001109.Plate.3",6,9,"t",1,20,62.03,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX002286","TP0001109.Plate.3",7,9,"t",1,20,58.06,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX002304","TP0001113.Plate.18",4,9,"t",1,100,61.22,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002304","TP0001113.Plate.18",5,9,"t",1,100,56.92,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002308","TP0001114.Plate.23",6,7,"t",1,100,68.32,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX002308","TP0001114.Plate.23",7,7,"t",1,100,72.04,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX002330","TP0001112.Plate.16",2,10,"t",1,100,44.71,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX002330","TP0001112.Plate.16",3,10,"t",1,100,55.89,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX002331","TP0001059.Plate.6",6,10,"t",1,20,21.65,"TP0001059 Plate 6_CeeTox.csv","cort" -"TX002331","TP0001059.Plate.6",7,10,"t",1,20,21.48,"TP0001059 Plate 6_CeeTox.csv","cort" -"TX002390","TP0001111.Plate.11",6,9,"t",1,100,54.82,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX002390","TP0001111.Plate.11",7,9,"t",1,100,61.92,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX002400","TP0001110.Plate.7",4,4,"t",1,100,63.06,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX002400","TP0001110.Plate.7",5,4,"t",1,100,62.8,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX002408","E1K.VR.Plate.10",4,4,"t",1,1,13.62,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX002408","E1K.VR.Plate.10",5,4,"t",1,1,17.44,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX002412","TP0001111.Plate.10",2,3,"t",1,50,56.89,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002412","TP0001111.Plate.10",3,3,"t",1,50,69.98,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002414","TP0001114.Plate.21",6,6,"t",1,100,79.01,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002414","TP0001114.Plate.21",7,6,"t",1,100,53.36,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002416","TP0001110.Plate.5",2,10,"t",1,100,67.73,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX002416","TP0001110.Plate.5",3,10,"t",1,100,67.85,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX002436","TP0001111.Plate.9",2,6,"t",1,100,50.05,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX002436","TP0001111.Plate.9",3,6,"t",1,100,64.54,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX002449","TP0001060.Plate.10",2,5,"t",1,20,24.6,"TP0001060 Plate 10_CeeTox.csv","cort" -"TX002449","TP0001060.Plate.10",3,5,"t",1,20,23.88,"TP0001060 Plate 10_CeeTox.csv","cort" -"TX002452","TP0001113.Plate.20",4,3,"t",1,100,48.37,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX002452","TP0001113.Plate.20",5,3,"t",1,100,48.36,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX002454","TP0001109.Plate.4",4,7,"t",1,100,60.65,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX002454","TP0001109.Plate.4",5,7,"t",1,100,75.17,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX002460","TP0001111.Plate.10",6,8,"t",1,100,64.34,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002460","TP0001111.Plate.10",7,8,"t",1,100,61.2,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002467","TP0001113.Plate.20",2,9,"t",1,100,56.12,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX002467","TP0001113.Plate.20",3,9,"t",1,100,65.28,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX002472","TP0001060.Plate.11",2,5,"t",1,20,18.78,"TP0001060 Plate 11_CeeTox.csv","cort" -"TX002472","TP0001060.Plate.11",3,5,"t",1,20,21.25,"TP0001060 Plate 11_CeeTox.csv","cort" -"TX002488","phIII.e1k.Plate.13",4,9,"t",1,10,26.78,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX002488","phIII.e1k.Plate.13",5,9,"t",1,10,27.12,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX002496","TP0001055.Plate.6",2,5,"t",1,6.1,20.76,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX002496","TP0001055.Plate.6",3,5,"t",1,6.1,17.15,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX002507","TP0001110.Plate.8",2,8,"t",1,100,75.37,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX002507","TP0001110.Plate.8",3,8,"t",1,100,79.54,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX002517","TP0001110.Plate.6",2,4,"t",1,50,66.46,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX002517","TP0001110.Plate.6",3,4,"t",1,50,64.22,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX002519","TP0001110.Plate.6",2,9,"t",1,100,64.3,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX002519","TP0001110.Plate.6",3,9,"t",1,100,66.87,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX002527","TP0001113.Plate.18",6,7,"t",1,20,60.25,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002527","TP0001113.Plate.18",7,7,"t",1,20,48.52,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002572","TP0001109.Plate.2",4,6,"t",1,100,64.58,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX002572","TP0001109.Plate.2",5,6,"t",1,100,67.54,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX002616","TP0001111.Plate.10",2,10,"t",1,100,63.11,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002616","TP0001111.Plate.10",3,10,"t",1,100,72.6,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002640","TP0001112.Plate.13",6,10,"t",1,50,89.69,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX002640","TP0001112.Plate.13",7,10,"t",1,50,92.23,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX002664","TP0001109.Plate.2",2,5,"t",1,50,58.48,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX002664","TP0001109.Plate.2",3,5,"t",1,50,60.44,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX002666","TP0001113.Plate.19",4,8,"t",1,100,61.77,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX002666","TP0001113.Plate.19",5,8,"t",1,100,66.86,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX002668","TP0001112.Plate.16",4,9,"t",1,100,57.19,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX002668","TP0001112.Plate.16",5,9,"t",1,100,56.63,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX002674","TP0001113.Plate.18",6,8,"t",1,100,94.02,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002674","TP0001113.Plate.18",7,8,"t",1,100,80.05,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002700","TP0001110.Plate.6",6,6,"t",1,50,76.59,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX002700","TP0001110.Plate.6",7,6,"t",1,50,74.15,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX002714","TP0001112.Plate.14",6,4,"t",1,100,76.82,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX002714","TP0001112.Plate.14",7,4,"t",1,100,72.25,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX002740","TP0001114.Plate.22",4,5,"t",1,100,70.17,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX002740","TP0001114.Plate.22",5,5,"t",1,100,74.79,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX002742","E1K.VR.Plate.10",2,7,"t",1,1,16.77,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX002742","E1K.VR.Plate.10",3,7,"t",1,1,16.47,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX002764","E1K.VR.Plate.10",6,7,"t",1,0.2,15.73,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX002764","E1K.VR.Plate.10",7,7,"t",1,0.2,13.12,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX002797","TP0001110.Plate.8",6,6,"t",1,100,69.23,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX002797","TP0001110.Plate.8",7,6,"t",1,100,73.87,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX002798","TP0001061.Plate.14",4,3,"t",1,10.5,26.22,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX002798","TP0001061.Plate.14",5,3,"t",1,10.5,26.62,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX002849","TP0001112.Plate.16",4,4,"t",1,100,56.33,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX002849","TP0001112.Plate.16",5,4,"t",1,100,57.41,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX002851","TP0001112.Plate.16",4,5,"t",1,100,51.46,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX002851","TP0001112.Plate.16",5,5,"t",1,100,58.83,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX002858","TP0001109.Plate.1",6,8,"t",1,100,68.9,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX002858","TP0001109.Plate.1",7,8,"t",1,100,81.4,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX002866","TP0001109.Plate.2",4,7,"t",1,100,63.33,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX002866","TP0001109.Plate.2",5,7,"t",1,100,68.86,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX002890","TP0001109.Plate.4",4,4,"t",1,100,66.88,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX002890","TP0001109.Plate.4",5,4,"t",1,100,61.06,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX002892","TP0001109.Plate.1",6,5,"t",1,100,68.85,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX002892","TP0001109.Plate.1",7,5,"t",1,100,65.37,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX002896","TP0001109.Plate.3",4,5,"t",1,100,70.06,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX002896","TP0001109.Plate.3",5,5,"t",1,100,66.89,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX002902","TP0001109.Plate.1",2,6,"t",1,100,55,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX002902","TP0001109.Plate.1",3,6,"t",1,100,64.15,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX002904","E1K.VR.Plate.11",2,6,"t",1,1,9.22,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX002904","E1K.VR.Plate.11",3,6,"t",1,1,10.76,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX002908","TP0001114.Plate.21",2,10,"t",1,20,59.75,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002908","TP0001114.Plate.21",3,10,"t",1,20,66.72,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002910","TP0001113.Plate.20",6,9,"t",1,100,92.85,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX002910","TP0001113.Plate.20",7,9,"t",1,100,84.96,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX002923","TP0001057.Plate.16",4,6,"t",1,20,34.25,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX002923","TP0001057.Plate.16",5,6,"t",1,20,30.1,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX002934","TP0001113.Plate.19",6,4,"t",1,100,46.77,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX002934","TP0001113.Plate.19",7,4,"t",1,100,47.93,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX002938","TP0001110.Plate.7",4,8,"t",1,100,63.22,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX002938","TP0001110.Plate.7",5,8,"t",1,100,62.12,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX002950","TP0001113.Plate.18",4,7,"t",1,50,63.91,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002950","TP0001113.Plate.18",5,7,"t",1,50,51.16,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX002960","TP0001111.Plate.10",2,6,"t",1,100,55.91,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002960","TP0001111.Plate.10",3,6,"t",1,100,73.31,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX002972","TP0001114.Plate.21",2,9,"t",1,100,56.36,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002972","TP0001114.Plate.21",3,9,"t",1,100,70.98,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX002978","TP0001112.Plate.14",4,7,"t",1,100,60.35,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX002978","TP0001112.Plate.14",5,7,"t",1,100,59.01,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX002988","TP0001113.Plate.17",4,6,"t",1,100,54.44,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX002988","TP0001113.Plate.17",5,6,"t",1,100,57.27,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX002994","TP0001111.Plate.9",2,3,"t",1,100,75.57,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX002994","TP0001111.Plate.9",3,3,"t",1,100,92.3,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX003066","TP0001055.Plate.5",6,7,"t",1,100,26.85,"TP0001055 Plate 5_CeeTox.csv","cort" -"TX003066","TP0001055.Plate.5",7,7,"t",1,100,29.12,"TP0001055 Plate 5_CeeTox.csv","cort" -"TX003076","TP0001110.Plate.5",6,10,"t",1,50,46.73,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003076","TP0001110.Plate.5",7,10,"t",1,50,52.29,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003085","TP0001059.Plate.8",6,5,"t",1,20,18.19,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX003085","TP0001059.Plate.8",7,5,"t",1,20,24.78,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX003128","E1K.VR.Plate.9",6,7,"t",1,10,14.6,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX003128","E1K.VR.Plate.9",7,7,"t",1,10,16.16,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX003134","E1K.VR.Plate.9",4,10,"t",1,10,14.95,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX003134","E1K.VR.Plate.9",5,10,"t",1,10,19.16,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX003151","phIII.e1k.Plate.14",4,7,"t",1,20,23.68,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX003151","phIII.e1k.Plate.14",5,7,"t",1,20,22.85,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX003154","TP0001110.Plate.8",4,6,"t",1,100,120.71,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003154","TP0001110.Plate.8",5,6,"t",1,100,128.16,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003156","TP0001109.Plate.4",6,3,"t",1,100,63.65,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003156","TP0001109.Plate.4",7,3,"t",1,100,62.45,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003158","TP0001109.Plate.2",2,8,"t",1,50,66.86,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003158","TP0001109.Plate.2",3,8,"t",1,50,70.34,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003160","TP0001109.Plate.2",4,3,"t",1,50,33.53,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003160","TP0001109.Plate.2",5,3,"t",1,50,37.92,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003164","TP0001112.Plate.15",2,3,"t",1,100,37.37,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX003164","TP0001112.Plate.15",3,3,"t",1,100,55.56,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX003168","TP0001111.Plate.9",6,4,"t",1,100,56.06,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX003168","TP0001111.Plate.9",7,4,"t",1,100,61.49,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX003170","TP0001112.Plate.16",4,3,"t",1,100,73.19,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX003170","TP0001112.Plate.16",5,3,"t",1,100,76.46,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX003177","TP0001109.Plate.2",2,3,"t",1,100,59.42,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003177","TP0001109.Plate.2",3,3,"t",1,100,68.52,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003184","TP0001109.Plate.2",2,10,"t",1,100,68.72,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003184","TP0001109.Plate.2",3,10,"t",1,100,69.6,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003188","TP0001113.Plate.18",2,6,"t",1,50,49.43,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX003188","TP0001113.Plate.18",3,6,"t",1,50,62.33,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX003190","TP0001110.Plate.8",6,8,"t",1,100,79.37,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003190","TP0001110.Plate.8",7,8,"t",1,100,73.77,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003196","TP0001113.Plate.19",4,5,"t",1,100,66.05,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX003196","TP0001113.Plate.19",5,5,"t",1,100,66.98,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX003204","TP0001112.Plate.15",4,8,"t",1,100,62.07,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX003204","TP0001112.Plate.15",5,8,"t",1,100,72.95,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX003208","TP0001110.Plate.7",2,7,"t",1,100,51.05,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX003208","TP0001110.Plate.7",3,7,"t",1,100,67.75,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX003214","TP0001110.Plate.5",2,6,"t",1,100,55.1,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003214","TP0001110.Plate.5",3,6,"t",1,100,56,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003216","TP0001110.Plate.8",2,3,"t",1,50,61.38,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003216","TP0001110.Plate.8",3,3,"t",1,50,64.48,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003232","TP0001109.Plate.4",2,8,"t",1,100,69.32,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003232","TP0001109.Plate.4",3,8,"t",1,100,81.38,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003236","TP0001114.Plate.21",4,8,"t",1,100,59.95,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX003236","TP0001114.Plate.21",5,8,"t",1,100,63.83,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX003238","E1K.VR.Plate.11",4,9,"t",1,10,19.58,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX003238","E1K.VR.Plate.11",5,9,"t",1,10,12.9,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX003240","TP0001110.Plate.8",2,9,"t",1,100,114.34,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003240","TP0001110.Plate.8",3,9,"t",1,100,109.58,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003253","phIII.e1k.Plate.4",6,4,"t",1,24.6,19.93,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX003253","phIII.e1k.Plate.4",7,4,"t",1,24.6,20.34,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX003266","TP0001112.Plate.14",4,8,"t",1,100,35.56,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX003266","TP0001112.Plate.14",5,8,"t",1,100,33.43,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX003276","TP0001109.Plate.4",6,7,"t",1,100,73.05,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003276","TP0001109.Plate.4",7,7,"t",1,100,76.86,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003280","TP0001112.Plate.15",6,8,"t",1,100,62.68,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX003280","TP0001112.Plate.15",7,8,"t",1,100,60.56,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX003282","TP0001111.Plate.11",6,7,"t",1,100,55.82,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX003282","TP0001111.Plate.11",7,7,"t",1,100,56.05,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX003292","TP0001113.Plate.20",4,10,"t",1,100,48.83,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX003292","TP0001113.Plate.20",5,10,"t",1,100,52.41,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX003294","TP0001109.Plate.2",4,10,"t",1,100,77.37,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003294","TP0001109.Plate.2",5,10,"t",1,100,75.6,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003320","PhaseIIe1k.VR.Plate.3",6,9,"t",1,10,51.82,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"TX003320","PhaseIIe1k.VR.Plate.3",7,9,"t",1,10,51.48,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"TX003326","TP0001114.Plate.23",2,4,"t",1,50,60.74,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX003326","TP0001114.Plate.23",3,4,"t",1,50,60.28,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX003338","E1K.VR.Plate.11",2,4,"t",1,1,14.85,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX003338","E1K.VR.Plate.11",3,4,"t",1,1,16.05,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX003350","TP0001112.Plate.15",4,10,"t",1,100,23.83,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX003350","TP0001112.Plate.15",5,10,"t",1,100,21.01,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX003370","TP0001113.Plate.17",2,4,"t",1,100,46.1,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX003370","TP0001113.Plate.17",3,4,"t",1,100,41.28,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX003374","TP0001114.Plate.21",2,7,"t",1,100,59.87,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX003374","TP0001114.Plate.21",3,7,"t",1,100,64.21,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX003383","TP0001054.Plate.7",4,3,"t",1,20,22.85,"TP0001055 Plate 7_CeeTox.csv","cort" -"TX003383","TP0001054.Plate.7",5,3,"t",1,20,30.22,"TP0001055 Plate 7_CeeTox.csv","cort" -"TX003404","TP0001110.Plate.7",4,5,"t",1,100,61.57,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX003404","TP0001110.Plate.7",5,5,"t",1,100,66.08,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX003426","TP0001114.Plate.21",4,3,"t",1,100,56.32,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX003426","TP0001114.Plate.21",5,3,"t",1,100,63.59,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX003432","TP0001112.Plate.14",2,3,"t",1,100,69.4,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX003432","TP0001112.Plate.14",3,3,"t",1,100,64.25,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX003436","TP0001112.Plate.13",2,8,"t",1,100,62.74,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX003436","TP0001112.Plate.13",3,8,"t",1,100,65.53,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX003449","phIII.e1k.VR.Plate.3",4,6,"t",1,2,54.18,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX003449","phIII.e1k.VR.Plate.3",5,6,"t",1,2,60.02,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX003458","TP0001111.Plate.10",6,6,"t",1,20,62.67,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX003458","TP0001111.Plate.10",7,6,"t",1,20,70.58,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX003472","TP0001112.Plate.14",6,9,"t",1,50,55.26,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX003472","TP0001112.Plate.14",7,9,"t",1,50,51.4,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX003506","TP0001109.Plate.1",6,9,"t",1,92.13,64.59,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX003506","TP0001109.Plate.1",7,9,"t",1,92.13,66.75,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX003522","TP0001109.Plate.4",6,5,"t",1,100,61.24,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003522","TP0001109.Plate.4",7,5,"t",1,100,53.99,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003547","TP0001113.Plate.20",6,4,"t",1,100,73.57,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX003547","TP0001113.Plate.20",7,4,"t",1,100,65.05,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX003572","TP0001111.Plate.12",4,9,"t",1,20,0.86,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX003572","TP0001111.Plate.12",5,9,"t",1,20,0.99,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX003721","TP0000883.Plate.4",6,7,"t",1,100,12.09574040424,"TP0000883 Plate 4A.xlsx","cort" -"TX003721","TP0000883.Plate.4",7,7,"t",1,100,13.9106520138602,"TP0000883 Plate 4A.xlsx","cort" -"TX003751","phIII.e1k.Plate.4",4,3,"t",1,20,19.39,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX003751","phIII.e1k.Plate.4",5,3,"t",1,20,16.77,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX003824","TP0001057.Plate.14",4,3,"t",1,10,30.1,"TP0001057 Plate 14_CeeTox.csv","cort" -"TX003824","TP0001057.Plate.14",5,3,"t",1,10,31.42,"TP0001057 Plate 14_CeeTox.csv","cort" -"TX003846","TP0001057.Plate.13",4,7,"t",1,20,25.97,"TP0001057 Plate 13_CeeTox.csv","cort" -"TX003846","TP0001057.Plate.13",5,7,"t",1,20,27.53,"TP0001057 Plate 13_CeeTox.csv","cort" -"TX003863","TP0001109.Plate.2",4,4,"t",1,100,64.24,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003863","TP0001109.Plate.2",5,4,"t",1,100,68.95,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX003871","TP0001109.Plate.4",6,6,"t",1,50,23.76,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003871","TP0001109.Plate.4",7,6,"t",1,50,25.68,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003873","TP0001111.Plate.9",2,4,"t",1,100,64.72,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX003873","TP0001111.Plate.9",3,4,"t",1,100,73.4,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX003879","TP0001110.Plate.8",4,9,"t",1,50,43.73,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003879","TP0001110.Plate.8",5,9,"t",1,50,41.84,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX003887","TP0001110.Plate.5",4,3,"t",1,100,55.75,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003887","TP0001110.Plate.5",5,3,"t",1,100,62.01,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003893","E1K.VR.Plate.10",6,9,"t",1,1,10.09,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX003893","E1K.VR.Plate.10",7,9,"t",1,1,9.03,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX003896","TP0001061.Plate.14",2,6,"t",1,20,21.66,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX003896","TP0001061.Plate.14",3,6,"t",1,20,21.93,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX003909","TP0001114.Plate.22",4,8,"t",1,20,60.74,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX003909","TP0001114.Plate.22",5,8,"t",1,20,65.08,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX003911","E1K.VR.Plate.9",4,6,"t",1,10,12.86,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX003911","E1K.VR.Plate.9",5,6,"t",1,10,12.93,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX003913","TP0001110.Plate.5",6,3,"t",1,100,60.16,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003913","TP0001110.Plate.5",7,3,"t",1,100,56.2,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003917","TP0001114.Plate.22",4,4,"t",1,100,64.05,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX003917","TP0001114.Plate.22",5,4,"t",1,100,65.83,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX003949","TP0001109.Plate.1",2,4,"t",1,100,63.22,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX003949","TP0001109.Plate.1",3,4,"t",1,100,66.99,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX003951","E1K.VR.Plate.9",2,4,"t",1,10,16.83,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX003951","E1K.VR.Plate.9",3,4,"t",1,10,14.63,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX003957","TP0001113.Plate.19",2,4,"t",1,100,63.71,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX003957","TP0001113.Plate.19",3,4,"t",1,100,67.89,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX003961","TP0001110.Plate.5",4,5,"t",1,100,62.36,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003961","TP0001110.Plate.5",5,5,"t",1,100,59.86,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX003964","TP0001062.Plate.17",2,10,"t",1,15.1,25.24,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX003964","TP0001062.Plate.17",3,10,"t",1,15.1,34.2,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX003967","TP0001109.Plate.4",4,8,"t",1,50,47.57,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003967","TP0001109.Plate.4",5,8,"t",1,50,53.63,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX003969","TP0001112.Plate.13",6,9,"t",1,100,74.57,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX003969","TP0001112.Plate.13",7,9,"t",1,100,74.83,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX003980","TP0001057.Plate.14",6,5,"t",1,19.9,31.25,"TP0001057 Plate 14_CeeTox.csv","cort" -"TX003980","TP0001057.Plate.14",7,5,"t",1,19.9,23.89,"TP0001057 Plate 14_CeeTox.csv","cort" -"TX004022","phIII.e1k.Plate.14",4,9,"t",1,41.6,17.22,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX004022","phIII.e1k.Plate.14",5,9,"t",1,41.6,16.37,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX004047","TP0001110.Plate.6",2,10,"t",1,100,64.16,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX004047","TP0001110.Plate.6",3,10,"t",1,100,58.82,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX004059","TP0001113.Plate.20",6,10,"t",1,100,48.87,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX004059","TP0001113.Plate.20",7,10,"t",1,100,53.52,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX004067","TP0001112.Plate.16",2,4,"t",1,100,51.85,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX004067","TP0001112.Plate.16",3,4,"t",1,100,58.64,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX004086","phIII.e1k.Plate.4",4,8,"t",1,20,20.16,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX004086","phIII.e1k.Plate.4",5,8,"t",1,20,16.72,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX004105","E1K.VR.Plate.9",2,8,"t",1,10,16.05,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX004105","E1K.VR.Plate.9",3,8,"t",1,10,17.7,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX004193","TP0001109.Plate.2",2,6,"t",1,100,71.58,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX004193","TP0001109.Plate.2",3,6,"t",1,100,71.33,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX004197","TP0001109.Plate.1",6,6,"t",1,50,55.36,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX004197","TP0001109.Plate.1",7,6,"t",1,50,64.38,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX004206","phIII.e1k.Plate.14",6,9,"t",1,20,11.16,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX004206","phIII.e1k.Plate.14",7,9,"t",1,20,9.27,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX004209","TP0001113.Plate.17",4,9,"t",1,100,32.18,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX004209","TP0001113.Plate.17",5,9,"t",1,100,56.45,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX004217","TP0001114.Plate.24",2,10,"t",1,100,71.87,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX004217","TP0001114.Plate.24",3,10,"t",1,100,76.9,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX004227","TP0001113.Plate.19",4,3,"t",1,100,48.14,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX004227","TP0001113.Plate.19",5,3,"t",1,100,49.11,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX004228","phIII.e1k.VR.Plate.1",6,5,"t",1,0.1,98.39,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX004228","phIII.e1k.VR.Plate.1",7,5,"t",1,0.1,48.72,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX004259","TP0001111.Plate.11",4,6,"t",1,100,66.8,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX004259","TP0001111.Plate.11",5,6,"t",1,100,73.55,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX004297","TP0001056.Plate.11",4,8,"t",1,100,32.09,"TP0001056 Plate 11_CeeTox.csv","cort" -"TX004297","TP0001056.Plate.11",5,8,"t",1,100,33.93,"TP0001056 Plate 11_CeeTox.csv","cort" -"TX004301","TP0001110.Plate.7",2,9,"t",1,100,54.23,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX004301","TP0001110.Plate.7",3,9,"t",1,100,66.19,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX004310","phIII.e1k.Plate.5",2,7,"t",1,20,28.14,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX004310","phIII.e1k.Plate.5",3,7,"t",1,20,30.41,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX004330","TP0001112.Plate.16",6,6,"t",1,100,58.87,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX004330","TP0001112.Plate.16",7,6,"t",1,100,56.17,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX004334","TP0001114.Plate.22",4,6,"t",1,50,52.69,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX004334","TP0001114.Plate.22",5,6,"t",1,50,57.98,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX004356","TP0001110.Plate.6",4,7,"t",1,50,69.75,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX004356","TP0001110.Plate.6",5,7,"t",1,50,63.97,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX004358","TP0001114.Plate.24",2,9,"t",1,100,44.9,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX004358","TP0001114.Plate.24",3,9,"t",1,100,45.55,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX004362","TP0001109.Plate.2",6,9,"t",1,100,59.83,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX004362","TP0001109.Plate.2",7,9,"t",1,100,65.23,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX004364","PhaseIIe1k.VR.Plate.4",4,5,"t",1,0.5,50.09,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX004364","PhaseIIe1k.VR.Plate.4",5,5,"t",1,0.5,47.35,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX004370","TP0001112.Plate.14",4,4,"t",1,50,73.21,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX004370","TP0001112.Plate.14",5,4,"t",1,50,74.38,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX004380","TP0001113.Plate.20",2,3,"t",1,41.74,56.93,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX004380","TP0001113.Plate.20",3,3,"t",1,41.74,63.54,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX004392","E1K.VR.Plate.11",2,10,"t",1,1,18.26,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX004392","E1K.VR.Plate.11",3,10,"t",1,1,18.01,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX004396","TP0001109.Plate.4",2,7,"t",1,50,63.14,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX004396","TP0001109.Plate.4",3,7,"t",1,50,69.64,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX004402","TP0001114.Plate.23",6,3,"t",1,100,60.01,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX004402","TP0001114.Plate.23",7,3,"t",0,100,NA,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX004404","TP0001109.Plate.2",2,9,"t",1,100,52.4,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX004404","TP0001109.Plate.2",3,9,"t",1,100,59.39,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX004416","TP0001109.Plate.2",4,8,"t",1,100,64.72,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX004416","TP0001109.Plate.2",5,8,"t",1,100,66.79,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX004428","TP0001112.Plate.13",2,9,"t",1,100,44.74,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX004428","TP0001112.Plate.13",3,9,"t",1,100,45.46,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX004438","E1K.VR.Plate.10",2,3,"t",1,1,16.15,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX004438","E1K.VR.Plate.10",3,3,"t",1,1,12.77,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX004451","phIII.e1k.Plate.4",4,9,"t",1,20,23.5,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX004451","phIII.e1k.Plate.4",5,9,"t",1,20,19.07,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX004466","TP0001111.Plate.11",6,6,"t",1,100,62.26,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX004466","TP0001111.Plate.11",7,6,"t",1,100,72.06,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX004479","TP0001114.Plate.21",6,7,"t",1,100,60.38,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX004479","TP0001114.Plate.21",7,7,"t",1,100,61.23,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX004481","TP0001114.Plate.22",2,6,"t",1,100,57.03,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX004481","TP0001114.Plate.22",3,6,"t",1,100,53.1,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX004485","TP0001111.Plate.10",4,8,"t",1,100,23.81,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX004485","TP0001111.Plate.10",5,8,"t",1,100,26.72,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX004507","TP0001113.Plate.20",6,8,"t",1,100,69.28,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX004507","TP0001113.Plate.20",7,8,"t",1,100,71.41,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX004511","TP0001112.Plate.13",2,5,"t",1,100,40.59,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX004511","TP0001112.Plate.13",3,5,"t",1,100,40.12,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX004513","TP0001112.Plate.14",4,10,"t",1,100,12.31,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX004513","TP0001112.Plate.14",5,10,"t",1,100,11.82,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX004516","phIII.e1k.Plate.4",2,4,"t",1,20,7.05,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX004516","phIII.e1k.Plate.4",3,4,"t",1,20,6.66,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX004525","TP0001112.Plate.13",2,10,"t",1,20,17.63,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX004525","TP0001112.Plate.13",3,10,"t",1,20,18.19,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX004539","PhaseIIe1k.VR.Plate.2",4,3,"t",1,10,0.69,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"TX004539","PhaseIIe1k.VR.Plate.2",5,3,"t",1,10,0.66,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"TX004541","TP0001111.Plate.12",2,9,"t",1,100,27.12,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX004541","TP0001111.Plate.12",3,9,"t",1,100,37.31,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX004545","TP0001110.Plate.5",4,10,"t",1,100,25.37,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX004545","TP0001110.Plate.5",5,10,"t",1,100,25.9,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX004547","TP0001112.Plate.15",6,5,"t",1,100,18.75,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX004547","TP0001112.Plate.15",7,5,"t",1,100,19.09,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX004563","TP0001113.Plate.20",4,6,"t",1,20,59.3,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX004563","TP0001113.Plate.20",5,6,"t",1,20,62.42,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX004572","PhaseII.VR.Plate.5",6,6,"t",1,0.15,16.18,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"TX004572","PhaseII.VR.Plate.5",7,6,"t",1,0.15,13.69,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"TX004579","TP0001109.Plate.4",2,3,"t",1,100,63.1,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX004579","TP0001109.Plate.4",3,3,"t",1,100,53.51,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX004611","TP0001110.Plate.6",2,6,"t",1,100,58.95,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX004611","TP0001110.Plate.6",3,6,"t",1,100,72.49,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX004615","TP0001111.Plate.11",4,5,"t",1,100,69.08,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX004615","TP0001111.Plate.11",5,5,"t",1,100,69.17,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX004631","TP0001111.Plate.10",4,4,"t",1,100,42.6,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX004631","TP0001111.Plate.10",5,4,"t",1,100,42.56,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX004639","TP0001110.Plate.8",4,10,"t",1,100,78.73,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX004639","TP0001110.Plate.8",5,10,"t",1,100,84.36,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX004809","TP0001113.Plate.18",2,7,"t",1,100,103,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX004809","TP0001113.Plate.18",3,7,"t",1,100,126.99,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX004833","TP0001111.Plate.12",2,7,"t",1,100,56.96,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX004833","TP0001111.Plate.12",3,7,"t",1,100,64.77,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX004883","TP0001113.Plate.17",6,5,"t",1,100,53.18,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX004883","TP0001113.Plate.17",7,5,"t",1,100,48.64,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX004891","E1K.VR.Plate.10",2,8,"t",1,1,15.18,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX004891","E1K.VR.Plate.10",3,8,"t",1,1,15.12,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX004903","TP0001112.Plate.14",4,5,"t",1,100,75.58,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX004903","TP0001112.Plate.14",5,5,"t",1,100,75.3,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX004907","TP0001109.Plate.3",2,9,"t",1,100,54.82,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX004907","TP0001109.Plate.3",3,9,"t",1,100,64.5,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX004943","TP0001111.Plate.10",4,10,"t",1,50,67.57,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX004943","TP0001111.Plate.10",5,10,"t",1,50,76.8,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX004947","E1K.VR.Plate.10",6,8,"t",1,1,19.4,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX004947","E1K.VR.Plate.10",7,8,"t",1,1,17.76,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX004950","TP0001110.Plate.7",4,10,"t",1,91.03,79.27,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX004950","TP0001110.Plate.7",5,10,"t",1,91.03,71.94,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX004955","TP0001113.Plate.18",2,3,"t",1,50,38.84,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX004955","TP0001113.Plate.18",3,3,"t",1,50,41.64,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX004973","TP0001114.Plate.21",6,5,"t",1,100,43.45,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX004973","TP0001114.Plate.21",7,5,"t",1,100,34.08,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX005018","phIII.e1k.VR.Plate.3",4,8,"t",1,2,63.66,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX005018","phIII.e1k.VR.Plate.3",5,8,"t",1,2,65.89,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX005053","TP0001109.Plate.4",2,4,"t",1,100,58.62,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX005053","TP0001109.Plate.4",3,4,"t",1,100,65.06,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX005055","TP0001111.Plate.9",4,7,"t",1,100,71.53,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX005055","TP0001111.Plate.9",5,7,"t",1,100,74.22,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX005069","E1K.VR.Plate.10",2,10,"t",1,1,21.88,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX005069","E1K.VR.Plate.10",3,10,"t",1,1,19.01,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX005115","TP0001112.Plate.14",4,6,"t",1,100,60.61,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX005115","TP0001112.Plate.14",5,6,"t",1,100,64.77,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX005122","TP0001062.Plate.17",6,9,"t",1,100,30.06,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX005122","TP0001062.Plate.17",7,9,"t",1,100,33.39,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX005144","TP0001059.Plate.7",2,3,"t",1,100,30.89,"TP0001059 Plate 7_CeeTox.csv","cort" -"TX005144","TP0001059.Plate.7",3,3,"t",1,100,27.97,"TP0001059 Plate 7_CeeTox.csv","cort" -"TX005147","TP0001114.Plate.21",6,8,"t",1,100,64.83,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX005147","TP0001114.Plate.21",7,8,"t",1,100,65.82,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX005170","TP0001110.Plate.6",6,8,"t",1,100,66.29,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX005170","TP0001110.Plate.6",7,8,"t",1,100,70.32,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX005224","TP0001111.Plate.12",2,3,"t",1,100,58.7,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX005224","TP0001111.Plate.12",3,3,"t",1,100,64.86,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX005228","TP0001111.Plate.9",4,9,"t",1,100,28.57,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX005228","TP0001111.Plate.9",5,9,"t",1,100,30.7,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX005248","TP0001056.Plate.9",2,5,"t",1,100,20.87,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX005248","TP0001056.Plate.9",3,5,"t",1,100,19.77,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX005251","TP0001112.Plate.13",4,4,"t",1,100,67.31,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX005251","TP0001112.Plate.13",5,4,"t",1,100,67.16,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX005252","TP0001058.Plate.3",6,9,"t",1,100,21.07,"TP0001058 Plate 3_CeeTox.csv","cort" -"TX005252","TP0001058.Plate.3",7,9,"t",1,100,21.16,"TP0001058 Plate 3_CeeTox.csv","cort" -"TX005257","TP0001111.Plate.12",6,8,"t",1,100,64.22,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX005257","TP0001111.Plate.12",7,8,"t",1,100,63.84,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX005263","TP0001110.Plate.7",6,8,"t",1,100,65.17,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX005263","TP0001110.Plate.7",7,8,"t",1,100,58.02,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX005327","TP0001110.Plate.5",2,8,"t",1,100,66.31,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005327","TP0001110.Plate.5",3,8,"t",1,100,61.05,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005338","phIII.e1k.VR.Plate.1",2,4,"t",1,1.62,46.76,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX005338","phIII.e1k.VR.Plate.1",3,4,"t",1,1.62,48.55,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX005400","phIII.e1k.VR.Plate.1",4,9,"t",1,2,32.51,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX005400","phIII.e1k.VR.Plate.1",5,9,"t",1,2,34.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX005405","E1K.VR.Plate.9",4,7,"t",1,10,13.62,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX005405","E1K.VR.Plate.9",5,7,"t",1,10,19.49,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX005406","TP0001054.Plate.2",2,5,"t",1,20,22.15,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX005406","TP0001054.Plate.2",3,5,"t",1,20,23.49,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX005417","TP0001109.Plate.2",4,9,"t",1,100,68.29,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX005417","TP0001109.Plate.2",5,9,"t",1,100,62.68,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX005423","E1K.VR.Plate.9",2,9,"t",1,10,13.5,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX005423","E1K.VR.Plate.9",3,9,"t",1,10,12.76,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX005457","TP0001111.Plate.9",2,8,"t",1,100,57.81,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX005457","TP0001111.Plate.9",3,8,"t",1,100,68.36,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX005465","TP0001113.Plate.17",2,9,"t",1,100,43.51,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX005465","TP0001113.Plate.17",3,9,"t",1,100,57.5,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX005469","PhaseIIe1k.VR.Plate.4",2,3,"t",1,10,57.31,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX005469","PhaseIIe1k.VR.Plate.4",3,3,"t",1,10,57.28,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX005471","TP0001114.Plate.22",6,5,"t",1,94.41,61.77,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX005471","TP0001114.Plate.22",7,5,"t",1,94.41,66.48,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX005479","TP0001110.Plate.5",2,7,"t",1,100,73.19,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005479","TP0001110.Plate.5",3,7,"t",1,100,66.54,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005481","TP0001113.Plate.20",2,7,"t",1,100,56.43,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX005481","TP0001113.Plate.20",3,7,"t",1,100,67.91,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX005483","TP0001110.Plate.6",2,7,"t",1,100,69.16,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX005483","TP0001110.Plate.6",3,7,"t",1,100,62.32,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX005491","E1K.VR.Plate.11",2,7,"t",1,1,15.44,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX005491","E1K.VR.Plate.11",3,7,"t",1,1,17.63,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX005501","TP0001109.Plate.1",4,6,"t",1,100,63.84,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX005501","TP0001109.Plate.1",5,6,"t",1,100,69.61,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX005516","TP0001110.Plate.8",6,3,"t",1,100,67.91,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX005516","TP0001110.Plate.8",7,3,"t",1,100,75.16,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX005519","TP0001111.Plate.11",4,9,"t",1,100,64.52,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX005519","TP0001111.Plate.11",5,9,"t",1,100,62.62,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX005531","TP0001110.Plate.5",2,9,"t",1,100,57.65,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005531","TP0001110.Plate.5",3,9,"t",1,100,54.89,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005537","TP0001110.Plate.7",4,7,"t",1,20,65.72,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX005537","TP0001110.Plate.7",5,7,"t",1,20,64.99,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX005560","TP0001109.Plate.3",6,4,"t",1,50,63.5,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX005560","TP0001109.Plate.3",7,4,"t",1,50,58.63,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX005562","TP0001110.Plate.6",4,6,"t",1,100,64.35,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX005562","TP0001110.Plate.6",5,6,"t",1,100,55.29,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX005566","E1K.VR.Plate.9",6,8,"t",1,10,12.01,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX005566","E1K.VR.Plate.9",7,8,"t",1,10,14.07,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX005668","TP0001112.Plate.15",6,4,"t",1,100,70.42,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX005668","TP0001112.Plate.15",7,4,"t",1,100,68.26,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX005680","TP0001113.Plate.18",2,8,"t",1,100,49.38,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX005680","TP0001113.Plate.18",3,8,"t",1,100,61.57,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX005729","TP0001113.Plate.20",4,8,"t",1,100,58.7,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX005729","TP0001113.Plate.20",5,8,"t",1,100,60.6,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX005743","TP0001113.Plate.19",6,3,"t",1,100,58.47,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX005743","TP0001113.Plate.19",7,3,"t",1,100,67.59,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX005749","TP0001114.Plate.22",4,7,"t",1,100,48.01,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX005749","TP0001114.Plate.22",5,7,"t",1,100,53.63,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX005751","TP0001054.Plate.2",4,4,"t",1,8.8,22.62,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX005751","TP0001054.Plate.2",5,4,"t",1,8.8,25.02,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX005758","PhaseII.VR.Plate.4",4,6,"t",1,10,10.16,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"TX005758","PhaseII.VR.Plate.4",5,6,"t",1,10,11.26,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" -"TX005767","TP0001113.Plate.17",4,4,"t",1,100,2.92,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX005767","TP0001113.Plate.17",5,4,"t",1,100,2.96,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX005779","TP0001110.Plate.5",4,8,"t",1,100,74.87,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005779","TP0001110.Plate.5",5,8,"t",1,100,70.98,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005790","TP0001109.Plate.3",2,10,"t",1,50,50.91,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX005790","TP0001109.Plate.3",3,10,"t",1,50,59.1,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX005795","TP0001112.Plate.14",2,10,"t",1,100,52.25,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX005795","TP0001112.Plate.14",3,10,"t",1,100,51.26,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX005797","TP0001110.Plate.5",6,6,"t",1,100,76.37,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005797","TP0001110.Plate.5",7,6,"t",1,100,79.36,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005815","TP0001114.Plate.23",2,10,"t",1,100,67.47,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX005815","TP0001114.Plate.23",3,10,"t",1,100,68.08,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX005817","TP0001110.Plate.5",6,4,"t",1,20,65.97,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005817","TP0001110.Plate.5",7,4,"t",1,20,66.18,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005828","TP0001111.Plate.11",4,4,"t",1,100,70.25,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX005828","TP0001111.Plate.11",5,4,"t",1,100,69.38,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX005850","TP0001112.Plate.15",4,7,"t",1,50,71.11,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX005850","TP0001112.Plate.15",5,7,"t",1,50,70.99,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX005887","phIII.e1k.Plate.13",4,10,"t",1,5,25.08,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX005887","phIII.e1k.Plate.13",5,10,"t",1,5,24.38,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX005921","TP0001110.Plate.5",2,3,"t",1,20,65.78,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005921","TP0001110.Plate.5",3,3,"t",1,20,63.68,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX005927","TP0001113.Plate.18",4,6,"t",1,100,58.31,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX005927","TP0001113.Plate.18",5,6,"t",1,100,62.3,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX005945","TP0001062.Plate.17",4,9,"t",1,100,27.17,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX005945","TP0001062.Plate.17",5,9,"t",1,100,25.12,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX005947","TP0001111.Plate.11",4,7,"t",1,50,68.32,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX005947","TP0001111.Plate.11",5,7,"t",1,50,65.93,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX005971","TP0001110.Plate.6",4,3,"t",1,50,63.65,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX005971","TP0001110.Plate.6",5,3,"t",1,50,63.33,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX005975","PhaseIIe1k.VR.Plate.4",2,5,"t",1,1,55.65,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX005975","PhaseIIe1k.VR.Plate.4",3,5,"t",1,1,46.78,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX005983","TP0001109.Plate.1",4,9,"t",1,100,71.4,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX005983","TP0001109.Plate.1",5,9,"t",1,100,66.57,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX006035","TP0001111.Plate.10",6,3,"t",1,100,65.44,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX006035","TP0001111.Plate.10",7,3,"t",1,100,65.89,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX006045","TP0001109.Plate.3",6,7,"t",1,100,91.4,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX006045","TP0001109.Plate.3",7,7,"t",1,100,90.78,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX006050","phIII.e1k.Plate.13",2,3,"t",1,10,29.2,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX006050","phIII.e1k.Plate.13",3,3,"t",1,10,23.24,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX006056","phIII.e1k.Plate.4",2,9,"t",1,20,15.97,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX006056","phIII.e1k.Plate.4",3,9,"t",1,20,16.8,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX006091","TP0001114.Plate.23",2,3,"t",1,100,58.53,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX006091","TP0001114.Plate.23",3,3,"t",1,100,65.95,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX006093","TP0001110.Plate.6",6,3,"t",1,20,67.23,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX006093","TP0001110.Plate.6",7,3,"t",1,20,64.78,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX006101","TP0001109.Plate.4",2,10,"t",1,50,68.64,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX006101","TP0001109.Plate.4",3,10,"t",1,50,70.08,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX006105","TP0001114.Plate.21",2,4,"t",1,100,57.41,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX006105","TP0001114.Plate.21",3,4,"t",1,100,64.6,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX006121","TP0001113.Plate.19",4,6,"t",1,20,67.61,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX006121","TP0001113.Plate.19",5,6,"t",1,20,70.19,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX006129","TP0001109.Plate.3",4,4,"t",1,100,66.96,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX006129","TP0001109.Plate.3",5,4,"t",1,100,64.49,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX006139","E1K.VR.Plate.9",4,3,"t",1,10,12.98,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX006139","E1K.VR.Plate.9",5,3,"t",1,10,14.11,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX006143","PhaseII.VR.Plate.2",6,8,"t",1,2,19.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX006143","PhaseII.VR.Plate.2",7,8,"t",1,2,19.63,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX006145","TP0001061.Plate.13",4,3,"t",1,20,24.59,"TP0001061 Plate 13_CeeTox.csv","cort" -"TX006145","TP0001061.Plate.13",5,3,"t",1,20,28.74,"TP0001061 Plate 13_CeeTox.csv","cort" -"TX006146","TP0001058.Plate.1",4,4,"t",1,20,18.53,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX006146","TP0001058.Plate.1",5,4,"t",1,20,16.72,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX006147","TP0001054.Plate.4",4,3,"t",1,20,23.58,"TP0001054 Plate 4_CeeTox.csv","cort" -"TX006147","TP0001054.Plate.4",5,3,"t",1,20,20.4,"TP0001054 Plate 4_CeeTox.csv","cort" -"TX006153","TP0001055.Plate.6",6,7,"t",1,10,15.86,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX006153","TP0001055.Plate.6",7,7,"t",1,10,17.66,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX006155","TP0001057.Plate.16",6,6,"t",1,20,26.05,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX006155","TP0001057.Plate.16",7,6,"t",1,20,25.48,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX006157","TP0001055.Plate.6",4,4,"t",1,10,33.06,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX006157","TP0001055.Plate.6",5,4,"t",1,10,28.41,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX006160","TP0001054.Plate.1",4,6,"t",1,10,21.71,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX006160","TP0001054.Plate.1",5,6,"t",1,10,20.46,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX006163","PhaseII.VR.Plate.1",6,7,"t",1,2,7.84,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"TX006163","PhaseII.VR.Plate.1",7,7,"t",1,2,8.85,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"TX006174","TP0001054.Plate.2",6,6,"t",1,20,30.74,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX006174","TP0001054.Plate.2",7,6,"t",1,20,27.67,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX006177","TP0001061.Plate.16",6,10,"t",1,20,23.89,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX006177","TP0001061.Plate.16",7,10,"t",1,20,22.78,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX006179","PhaseII.VR.Plate.2",2,3,"t",1,2,12.02,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX006179","PhaseII.VR.Plate.2",3,3,"t",1,2,10.82,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX006180","TP0001058.Plate.1",4,3,"t",1,20,24.76,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX006180","TP0001058.Plate.1",5,3,"t",1,20,24.32,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX006183","TP0001061.Plate.16",4,8,"t",1,20,21.47,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX006183","TP0001061.Plate.16",5,8,"t",1,20,24.48,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX006194","TP0001056.Plate.12",4,4,"t",1,20,23.19,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX006194","TP0001056.Plate.12",5,4,"t",1,20,29.61,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX006198","TP0001058.Plate.4",2,10,"t",1,20,22.39,"TP0001058 Plate 4_CeeTox.csv","cort" -"TX006198","TP0001058.Plate.4",3,10,"t",1,20,17.36,"TP0001058 Plate 4_CeeTox.csv","cort" -"TX006199","TP0001060.Plate.9",6,9,"t",1,20,19.85,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX006199","TP0001060.Plate.9",7,9,"t",1,20,23.12,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX006200","PhaseII.VR.Plate.8",2,6,"t",1,0.19,12.65,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"TX006200","PhaseII.VR.Plate.8",3,6,"t",1,0.19,11.62,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" -"TX006201","TP0001059.Plate.6",2,7,"t",1,19.5,18.99,"TP0001059 Plate 6_CeeTox.csv","cort" -"TX006201","TP0001059.Plate.6",3,7,"t",1,19.5,24.49,"TP0001059 Plate 6_CeeTox.csv","cort" -"TX006202","TP0001062.Plate.17",2,5,"t",1,9.3,9.73,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX006202","TP0001062.Plate.17",3,5,"t",1,9.3,10.34,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX006203","TP0001057.Plate.15",2,5,"t",1,20,9.47,"TP0001057 Plate 15_CeeTox.csv","cort" -"TX006203","TP0001057.Plate.15",3,5,"t",1,20,8.88,"TP0001057 Plate 15_CeeTox.csv","cort" -"TX006204","PhaseII.VR.Plate.5",2,4,"t",1,1.84,5.36,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"TX006204","PhaseII.VR.Plate.5",3,4,"t",1,1.84,6.37,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"TX006205","PhaseII.VR.Plate.2",4,4,"t",1,2,18.01,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX006205","PhaseII.VR.Plate.2",5,4,"t",1,2,15.89,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX006206","TP0001058.Plate.2",6,7,"t",1,20,25.69,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX006206","TP0001058.Plate.2",7,7,"t",1,20,23.41,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX006207","TP0001056.Plate.12",2,7,"t",1,20,26.14,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX006207","TP0001056.Plate.12",3,7,"t",1,20,28.17,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX006208","TP0001054.Plate.1",4,3,"t",1,13.5,19.52,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX006208","TP0001054.Plate.1",5,3,"t",1,13.5,21.04,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX006209","TP0001058.Plate.3",6,3,"t",1,20,22,"TP0001058 Plate 3_CeeTox.csv","cort" -"TX006209","TP0001058.Plate.3",7,3,"t",1,20,21.28,"TP0001058 Plate 3_CeeTox.csv","cort" -"TX006210","TP0001059.Plate.8",4,7,"t",1,20,16.23,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX006210","TP0001059.Plate.8",5,7,"t",1,20,24.18,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX006211","TP0001059.Plate.8",2,3,"t",1,20,29.44,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX006211","TP0001059.Plate.8",3,3,"t",1,20,30.05,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX006212","TP0001054.Plate.8",2,7,"t",1,20,14.75,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX006212","TP0001054.Plate.8",3,7,"t",1,20,19.05,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX006217","TP0001057.Plate.13",6,10,"t",1,18.8,26.42,"TP0001057 Plate 13_CeeTox.csv","cort" -"TX006217","TP0001057.Plate.13",7,10,"t",1,18.8,24.59,"TP0001057 Plate 13_CeeTox.csv","cort" -"TX006218","TP0001058.Plate.1",4,10,"t",1,5,22.22,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX006218","TP0001058.Plate.1",5,10,"t",1,5,20.5,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX006220","TP0001061.Plate.16",4,4,"t",1,14.9,30.86,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX006220","TP0001061.Plate.16",5,4,"t",1,14.9,24.08,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX006225","TP0001060.Plate.11",2,7,"t",1,9.5,9.66,"TP0001060 Plate 11_CeeTox.csv","cort" -"TX006225","TP0001060.Plate.11",3,7,"t",1,9.5,11.07,"TP0001060 Plate 11_CeeTox.csv","cort" -"TX006226","PhaseII.VR.Plate.7",2,5,"t",1,0.19,10.81,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"TX006226","PhaseII.VR.Plate.7",3,5,"t",1,0.19,11.56,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" -"TX006229","PhaseII.VR.Plate.3",4,3,"t",1,2,16.65,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"TX006229","PhaseII.VR.Plate.3",5,3,"t",1,2,17.23,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"TX006230","TP0001057.Plate.13",4,8,"t",1,20,25.79,"TP0001057 Plate 13_CeeTox.csv","cort" -"TX006230","TP0001057.Plate.13",5,8,"t",1,20,21.23,"TP0001057 Plate 13_CeeTox.csv","cort" -"TX006238","TP0001058.Plate.2",4,8,"t",1,5,25.64,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX006238","TP0001058.Plate.2",5,8,"t",1,5,28.57,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX006239","TP0001055.Plate.6",6,10,"t",1,16.9,38.63,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX006239","TP0001055.Plate.6",7,10,"t",1,16.9,36.05,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX006241","TP0001058.Plate.4",2,7,"t",1,19.1,41.62,"TP0001058 Plate 4_CeeTox.csv","cort" -"TX006241","TP0001058.Plate.4",3,7,"t",1,19.1,37.12,"TP0001058 Plate 4_CeeTox.csv","cort" -"TX006243","TP0001060.Plate.9",6,10,"t",1,20,21.06,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX006243","TP0001060.Plate.9",7,10,"t",1,20,21.53,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX006244","TP0001060.Plate.11",4,10,"t",1,10,21.64,"TP0001060 Plate 11_CeeTox.csv","cort" -"TX006244","TP0001060.Plate.11",5,10,"t",1,10,19.89,"TP0001060 Plate 11_CeeTox.csv","cort" -"TX006246","PhaseII.VR.Plate.1",2,9,"t",1,1.89,5.72,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"TX006246","PhaseII.VR.Plate.1",3,9,"t",1,1.89,6.06,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"TX006248","TP0001056.Plate.12",2,6,"t",1,4.8,26.72,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX006248","TP0001056.Plate.12",3,6,"t",1,4.8,25.94,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX006249","TP0001059.Plate.5",6,6,"t",1,18,20.95,"TP0001059 Plate 5_CeeTox.csv","cort" -"TX006249","TP0001059.Plate.5",7,6,"t",1,18,20.26,"TP0001059 Plate 5_CeeTox.csv","cort" -"TX006251","TP0001061.Plate.14",6,7,"t",1,18.7,18,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX006251","TP0001061.Plate.14",7,7,"t",1,18.7,16.79,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX006255","TP0001058.Plate.3",4,7,"t",1,20,23.59,"TP0001058 Plate 3_CeeTox.csv","cort" -"TX006255","TP0001058.Plate.3",5,7,"t",1,20,22.72,"TP0001058 Plate 3_CeeTox.csv","cort" -"TX006256","TP0001054.Plate.4",6,4,"t",1,20,16.74,"TP0001054 Plate 4_CeeTox.csv","cort" -"TX006256","TP0001054.Plate.4",7,4,"t",1,20,15.91,"TP0001054 Plate 4_CeeTox.csv","cort" -"TX006299","PhaseII.VR.Plate.3",2,9,"t",1,2,0.82,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"TX006299","PhaseII.VR.Plate.3",3,9,"t",1,2,0.83,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" -"TX006301","TP0001056.Plate.12",6,3,"t",1,20,13.19,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX006301","TP0001056.Plate.12",7,3,"t",1,20,11.36,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX006303","TP0001058.Plate.4",4,8,"t",1,20,32.93,"TP0001058 Plate 4_CeeTox.csv","cort" -"TX006303","TP0001058.Plate.4",5,8,"t",1,20,28.99,"TP0001058 Plate 4_CeeTox.csv","cort" -"TX006305","TP0001060.Plate.9",2,8,"t",1,20,13.14,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX006305","TP0001060.Plate.9",3,8,"t",1,20,13.05,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX006393","TP0001060.Plate.11",6,4,"t",1,20,16.64,"TP0001060 Plate 11_CeeTox.csv","cort" -"TX006393","TP0001060.Plate.11",7,4,"t",1,20,16.52,"TP0001060 Plate 11_CeeTox.csv","cort" -"TX006416","TP0001061.Plate.16",6,3,"t",1,1.8,21.29,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX006416","TP0001061.Plate.16",7,3,"t",1,1.8,28.12,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX006525","TP0000882.Plate.1",4,7,"t",1,20,17.8099968494238,"TP0000882 Plate 1A.xlsx","cort" -"TX006525","TP0000882.Plate.1",5,7,"t",1,20,17.4225235691852,"TP0000882 Plate 1A.xlsx","cort" -"TX006533","20120829.Plate.2",2,5,"t",1,0.2,13.815543702966,"20120829 Plate 2B.xlsx","cort" -"TX006533","20120829.Plate.2",3,5,"t",1,0.2,11.2996851679267,"20120829 Plate 2B.xlsx","cort" -"TX006534","TP0000882.Plate.4",6,10,"t",1,20,18.5954456938178,"TP0000882 Plate 4A.xlsx","cort" -"TX006534","TP0000882.Plate.4",7,10,"t",1,20,16.6668301161249,"TP0000882 Plate 4A.xlsx","cort" -"TX006537","TP0000883.Plate.2",2,6,"t",1,20,14.9571770589439,"TP0000883 Plate 2A.xlsx","cort" -"TX006537","TP0000883.Plate.2",3,6,"t",1,20,15.2490176118847,"TP0000883 Plate 2A.xlsx","cort" -"TX006551","TP0001114.Plate.23",4,7,"t",1,100,66.07,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX006551","TP0001114.Plate.23",5,7,"t",1,100,68.31,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX006553","TP0001114.Plate.21",2,6,"t",1,100,56.63,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX006553","TP0001114.Plate.21",3,6,"t",1,100,60.91,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX006576","TP0001114.Plate.22",6,10,"t",1,100,80.21,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX006576","TP0001114.Plate.22",7,10,"t",1,100,71.6,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX006609","TP0001112.Plate.16",6,7,"t",1,100,41.79,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX006609","TP0001112.Plate.16",7,7,"t",1,100,43.49,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX006623","TP0001113.Plate.17",6,6,"t",1,100,58.82,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX006623","TP0001113.Plate.17",7,6,"t",1,100,46.22,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX006631","TP0001112.Plate.15",2,6,"t",1,100,64.72,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX006631","TP0001112.Plate.15",3,6,"t",1,100,65.65,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX006633","TP0001113.Plate.17",4,3,"t",0,20,NA,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX006633","TP0001113.Plate.17",5,3,"t",1,20,50.88,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX006647","TP0001110.Plate.7",2,8,"t",1,100,47.78,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX006647","TP0001110.Plate.7",3,8,"t",1,100,52.46,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX006656","phIII.e1k.Plate.14",2,3,"t",1,20,5.77,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX006656","phIII.e1k.Plate.14",3,3,"t",1,20,6.22,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX006663","TP0001111.Plate.10",2,5,"t",1,50,64.05,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX006663","TP0001111.Plate.10",3,5,"t",1,50,69.55,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX006673","TP0001109.Plate.2",2,4,"t",1,20,69.85,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX006673","TP0001109.Plate.2",3,4,"t",1,20,69.61,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX006695","TP0001110.Plate.7",4,3,"t",1,100,33.11,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX006695","TP0001110.Plate.7",5,3,"t",1,100,33.82,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX006699","E1K.VR.Plate.9",4,8,"t",1,10,12.6,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX006699","E1K.VR.Plate.9",5,8,"t",1,10,13.91,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX006719","TP0001109.Plate.1",4,5,"t",1,20,66,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX006719","TP0001109.Plate.1",5,5,"t",1,20,59.22,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX006743","TP0001109.Plate.1",2,9,"t",1,20,60.27,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX006743","TP0001109.Plate.1",3,9,"t",1,20,67.44,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX006755","TP0001112.Plate.16",6,5,"t",1,50,62.51,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX006755","TP0001112.Plate.16",7,5,"t",1,50,60.2,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX006763","TP0001110.Plate.7",6,10,"t",1,100,71.94,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX006763","TP0001110.Plate.7",7,10,"t",1,100,76,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX006852","TP0001110.Plate.5",4,9,"t",1,50,87.81,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX006852","TP0001110.Plate.5",5,9,"t",1,50,87.76,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX006872","TP0001111.Plate.11",4,8,"t",1,100,49.64,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX006872","TP0001111.Plate.11",5,8,"t",1,100,41.77,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX006874","TP0001110.Plate.5",6,7,"t",1,100,66.47,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX006874","TP0001110.Plate.5",7,7,"t",1,100,68.7,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX006884","TP0001109.Plate.3",6,6,"t",1,100,67.58,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX006884","TP0001109.Plate.3",7,6,"t",1,100,58.31,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX006887","phIII.e1k.Plate.14",4,4,"t",1,20,3.71,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX006887","phIII.e1k.Plate.14",5,4,"t",1,20,3.49,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX006890","TP0001110.Plate.7",2,3,"t",1,100,51.92,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX006890","TP0001110.Plate.7",3,3,"t",1,100,58.93,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX006892","TP0001113.Plate.19",6,5,"t",1,100,63.86,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX006892","TP0001113.Plate.19",7,5,"t",1,100,71.5,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX006897","phIII.e1k.Plate.14",2,4,"t",1,20,22.72,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX006897","phIII.e1k.Plate.14",3,4,"t",1,20,22.12,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX006930","TP0001109.Plate.3",4,9,"t",1,100,50.7,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX006930","TP0001109.Plate.3",5,9,"t",1,100,45.35,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX006944","TP0001112.Plate.13",6,5,"t",1,57.26,63.29,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX006944","TP0001112.Plate.13",7,5,"t",1,57.26,70.42,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX006949","phIII.e1k.Plate.5",2,9,"t",1,20,24.53,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX006949","phIII.e1k.Plate.5",3,9,"t",1,20,30.67,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX006955","phIII.e1k.Plate.13",2,4,"t",1,10,25.68,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX006955","phIII.e1k.Plate.13",3,4,"t",1,10,23.33,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX006966","TP0001111.Plate.10",2,9,"t",1,18.2,48.69,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX006966","TP0001111.Plate.10",3,9,"t",1,18.2,57.51,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX006970","TP0001114.Plate.22",6,6,"t",1,100,62.36,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX006970","TP0001114.Plate.22",7,6,"t",1,100,64.22,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007037","TP0001114.Plate.23",4,5,"t",1,100,58.41,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX007037","TP0001114.Plate.23",5,5,"t",1,100,62.8,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX007058","TP0001114.Plate.22",6,3,"t",1,100,63.27,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007058","TP0001114.Plate.22",7,3,"t",1,100,67.67,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007122","TP0001111.Plate.11",2,7,"t",1,100,54.16,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX007122","TP0001111.Plate.11",3,7,"t",1,100,62.76,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX007126","TP0001113.Plate.19",2,5,"t",1,100,50.71,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX007126","TP0001113.Plate.19",3,5,"t",1,100,53.65,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX007152","TP0001114.Plate.22",6,4,"t",1,100,67.67,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007152","TP0001114.Plate.22",7,4,"t",1,100,61.48,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007156","TP0001057.Plate.16",6,10,"t",1,100,34.21,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX007156","TP0001057.Plate.16",7,10,"t",1,100,38.4,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX007164","TP0001114.Plate.22",2,9,"t",1,100,43.85,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007164","TP0001114.Plate.22",3,9,"t",1,100,49.09,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007177","TP0001109.Plate.3",6,10,"t",1,50,62.7,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX007177","TP0001109.Plate.3",7,10,"t",1,50,70.12,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX007179","E1K.VR.Plate.11",2,9,"t",1,1,11.2,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX007179","E1K.VR.Plate.11",3,9,"t",1,1,10.62,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX007188","phIII.e1k.Plate.4",2,5,"t",1,20,19.79,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX007188","phIII.e1k.Plate.4",3,5,"t",1,20,19.47,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX007199","TP0001113.Plate.17",2,10,"t",1,20,57.15,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX007199","TP0001113.Plate.17",3,10,"t",1,20,62.88,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX007207","E1K.VR.Plate.9",6,9,"t",1,10,9,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX007207","E1K.VR.Plate.9",7,9,"t",1,10,8.74,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX007221","TP0001111.Plate.12",2,5,"t",1,100,53.97,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX007221","TP0001111.Plate.12",3,5,"t",1,100,62.23,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX007227","E1K.VR.Plate.10",4,6,"t",1,1,9.81,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX007227","E1K.VR.Plate.10",5,6,"t",1,1,10.18,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX007233","TP0001111.Plate.10",2,8,"t",1,100,57.35,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX007233","TP0001111.Plate.10",3,8,"t",1,100,69.36,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX007257","PhaseIIe1k.VR.Plate.4",4,3,"t",1,1,32.8,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX007257","PhaseIIe1k.VR.Plate.4",5,3,"t",1,1,61.33,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX007281","TP0001114.Plate.23",2,7,"t",1,100,50.76,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX007281","TP0001114.Plate.23",3,7,"t",1,100,53.66,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX007287","TP0001112.Plate.13",4,5,"t",1,100,62.34,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX007287","TP0001112.Plate.13",5,5,"t",1,100,58.67,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX007304","phIII.e1k.VR.Plate.3",4,3,"t",1,2,6.44,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX007304","phIII.e1k.VR.Plate.3",5,3,"t",1,2,7.4,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX007318","TP0001113.Plate.19",2,9,"t",1,100,58.68,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX007318","TP0001113.Plate.19",3,9,"t",1,100,64.45,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX007350","TP0001110.Plate.5",2,5,"t",1,100,68.16,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX007350","TP0001110.Plate.5",3,5,"t",1,100,67.03,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX007352","TP0001109.Plate.2",6,4,"t",1,100,64.43,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX007352","TP0001109.Plate.2",7,4,"t",1,100,67.2,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX007354","TP0001112.Plate.15",6,6,"t",1,100,16.7,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX007354","TP0001112.Plate.15",7,6,"t",1,100,19.48,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX007366","TP0001114.Plate.21",4,9,"t",1,100,54.42,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX007366","TP0001114.Plate.21",5,9,"t",1,100,67.16,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX007368","TP0001110.Plate.5",4,7,"t",1,100,65.95,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX007368","TP0001110.Plate.5",5,7,"t",1,100,64.13,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX007384","TP0001113.Plate.20",2,6,"t",1,100,66.14,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX007384","TP0001113.Plate.20",3,6,"t",1,100,75.43,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX007406","TP0001111.Plate.10",6,4,"t",1,100,65.83,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX007406","TP0001111.Plate.10",7,4,"t",1,100,65.99,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX007424","TP0001110.Plate.7",2,4,"t",1,100,65.92,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX007424","TP0001110.Plate.7",3,4,"t",1,100,67.09,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX007427","phIII.e1k.Plate.14",4,10,"t",1,20,26.15,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX007427","phIII.e1k.Plate.14",5,10,"t",1,20,22.73,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX007433","phIII.e1k.VR.Plate.1",6,9,"t",1,2,76.79,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX007433","phIII.e1k.VR.Plate.1",7,9,"t",1,2,48.87,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX007436","E1K.VR.Plate.10",2,5,"t",1,1.18,7.16,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX007436","E1K.VR.Plate.10",3,5,"t",1,1.18,7.37,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX007439","phIII.e1k.VR.Plate.1",4,4,"t",1,0.2,47.53,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX007439","phIII.e1k.VR.Plate.1",5,4,"t",1,0.2,49.63,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX007460","TP0001109.Plate.1",4,10,"t",1,100,66.05,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX007460","TP0001109.Plate.1",5,10,"t",1,100,64.03,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX007471","phIII.e1k.VR.Plate.1",4,10,"t",1,0.2,50.77,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX007471","phIII.e1k.VR.Plate.1",5,10,"t",1,0.2,44.55,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX007482","TP0001114.Plate.22",2,3,"t",1,100,70.03,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007482","TP0001114.Plate.22",3,3,"t",1,100,65.99,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007494","E1K.VR.Plate.9",2,5,"t",1,2,17.73,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX007494","E1K.VR.Plate.9",3,5,"t",1,2,17.77,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX007496","TP0001114.Plate.22",4,10,"t",1,50,77.17,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007496","TP0001114.Plate.22",5,10,"t",1,50,69.87,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX007504","TP0001109.Plate.2",6,10,"t",1,100,61.56,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX007504","TP0001109.Plate.2",7,10,"t",1,100,63.74,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX007522","TP0001110.Plate.6",6,7,"t",1,100,46.63,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX007522","TP0001110.Plate.6",7,7,"t",1,100,52.34,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX007526","TP0001110.Plate.6",4,8,"t",1,100,73.71,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX007526","TP0001110.Plate.6",5,8,"t",1,100,67.93,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX007556","TP0001112.Plate.16",6,10,"t",1,100,49.11,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX007556","TP0001112.Plate.16",7,10,"t",1,100,45.33,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX007558","TP0001109.Plate.3",4,7,"t",1,86.29,48.57,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX007558","TP0001109.Plate.3",5,7,"t",1,86.29,47.91,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX007577","TP0001055.Plate.6",4,10,"t",1,20,33.85,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX007577","TP0001055.Plate.6",5,10,"t",1,20,28.7,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX007602","TP0001111.Plate.10",4,5,"t",1,100,21.76,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX007602","TP0001111.Plate.10",5,5,"t",1,100,21.78,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX007617","TP0001111.Plate.12",2,8,"t",1,100,55.36,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX007617","TP0001111.Plate.12",3,8,"t",1,100,58.64,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX007619","TP0001113.Plate.19",2,8,"t",1,100,57.76,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX007619","TP0001113.Plate.19",3,8,"t",1,100,68.14,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX007631","E1K.VR.Plate.10",2,9,"t",1,0.4,12.69,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX007631","E1K.VR.Plate.10",3,9,"t",1,0.4,12.83,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX007656","TP0001114.Plate.21",6,10,"t",1,100,65.38,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX007656","TP0001114.Plate.21",7,10,"t",1,100,58.63,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX007663","TP0001113.Plate.17",4,10,"t",1,100,69.07,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX007663","TP0001113.Plate.17",5,10,"t",1,100,67.77,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX007683","TP0001111.Plate.12",4,8,"t",1,100,73.7,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX007683","TP0001111.Plate.12",5,8,"t",1,100,67.71,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX007707","TP0001114.Plate.23",6,5,"t",1,100,63.22,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX007707","TP0001114.Plate.23",7,5,"t",1,100,67.01,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX007718","TP0001112.Plate.16",6,3,"t",1,100,56.85,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX007718","TP0001112.Plate.16",7,3,"t",1,100,55.44,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX007737","TP0001062.Plate.17",6,6,"t",1,14.9,29.25,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX007737","TP0001062.Plate.17",7,6,"t",1,14.9,30.61,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX007739","TP0001056.Plate.9",6,8,"t",1,12.9,21.51,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX007739","TP0001056.Plate.9",7,8,"t",1,12.9,26.72,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX007768","TP0001113.Plate.17",2,3,"t",1,50,52.78,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX007768","TP0001113.Plate.17",3,3,"t",1,50,59.28,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX007784","TP0001114.Plate.21",6,9,"t",1,100,95.89,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX007784","TP0001114.Plate.21",7,9,"t",1,100,83.15,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX007792","TP0001110.Plate.6",6,9,"t",1,100,46.03,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX007792","TP0001110.Plate.6",7,9,"t",1,100,49.08,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX007804","TP0001113.Plate.18",4,4,"t",1,100,60.76,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX007804","TP0001113.Plate.18",5,4,"t",1,100,59.56,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX007806","TP0001109.Plate.4",6,10,"t",1,100,54.79,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX007806","TP0001109.Plate.4",7,10,"t",1,100,67.66,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX007832","TP0001112.Plate.16",2,6,"t",1,100,11.67,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX007832","TP0001112.Plate.16",3,6,"t",1,100,13.1,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX007859","phIII.e1k.Plate.14",2,8,"t",1,20,23.03,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX007859","phIII.e1k.Plate.14",3,8,"t",1,20,22.81,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX007874","TP0001110.Plate.7",2,10,"t",1,100,86.96,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX007874","TP0001110.Plate.7",3,10,"t",1,100,86.02,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX008014","phIII.e1k.VR.Plate.3",2,3,"t",1,0.2,57.22,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX008014","phIII.e1k.VR.Plate.3",3,3,"t",1,0.2,61.51,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX008016","PhaseIIe1k.VR.Plate.4",6,3,"t",1,1,52.01,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX008016","PhaseIIe1k.VR.Plate.4",7,3,"t",1,1,49.08,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" -"TX008030","phIII.e1k.VR.Plate.3",4,7,"t",1,0.05,59.3,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX008030","phIII.e1k.VR.Plate.3",5,7,"t",1,0.05,71.43,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX008063","TP0001110.Plate.7",6,6,"t",1,100,60.88,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX008063","TP0001110.Plate.7",7,6,"t",1,100,59.85,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX008065","TP0001112.Plate.13",2,4,"t",1,100,59.05,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX008065","TP0001112.Plate.13",3,4,"t",1,100,60.78,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX008067","E1K.VR.Plate.10",6,6,"t",1,1,16.6,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX008067","E1K.VR.Plate.10",7,6,"t",1,1,17.46,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX008069","TP0001114.Plate.21",4,6,"t",1,100,48.38,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX008069","TP0001114.Plate.21",5,6,"t",1,100,53.67,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX008070","phIII.e1k.Plate.14",4,8,"t",1,20,27.04,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX008070","phIII.e1k.Plate.14",5,8,"t",1,20,24.13,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX008073","TP0001114.Plate.23",4,10,"t",1,20,64.68,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX008073","TP0001114.Plate.23",5,10,"t",1,20,65.13,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX008082","phIII.e1k.Plate.4",6,10,"t",1,20,18.27,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX008082","phIII.e1k.Plate.4",7,10,"t",1,20,17.27,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX008087","E1K.VR.Plate.9",2,3,"t",1,5,11.55,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX008087","E1K.VR.Plate.9",3,3,"t",1,5,13.2,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX008138","phIII.e1k.Plate.4",2,7,"t",1,20,36.6,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX008138","phIII.e1k.Plate.4",3,7,"t",1,20,37.42,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX008142","phIII.e1k.VR.Plate.2",2,5,"t",1,2,51.4,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX008142","phIII.e1k.VR.Plate.2",3,5,"t",1,2,52.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX008320","TP0001112.Plate.15",2,7,"t",1,100,60.12,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX008320","TP0001112.Plate.15",3,7,"t",1,100,63.91,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX008321","TP0001062.Plate.17",6,10,"t",1,14.3,33.17,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX008321","TP0001062.Plate.17",7,10,"t",1,14.3,37.75,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX008326","TP0001113.Plate.19",6,7,"t",1,100,42.75,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX008326","TP0001113.Plate.19",7,7,"t",1,100,46.72,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX008364","TP0001109.Plate.1",6,7,"t",1,100,72.19,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX008364","TP0001109.Plate.1",7,7,"t",1,100,82.51,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX008383","phIII.e1k.VR.Plate.1",6,7,"t",1,0.2,75.08,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX008383","phIII.e1k.VR.Plate.1",7,7,"t",1,0.2,49.38,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX008388","TP0001114.Plate.23",6,8,"t",1,50,67.52,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX008388","TP0001114.Plate.23",7,8,"t",1,50,68.09,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX008392","TP0001109.Plate.4",4,10,"t",1,100,80.03,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX008392","TP0001109.Plate.4",5,10,"t",1,100,74.97,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX008400","TP0001111.Plate.12",4,5,"t",1,20,58.6,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX008400","TP0001111.Plate.12",5,5,"t",1,20,61.59,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX008408","TP0001110.Plate.5",6,5,"t",1,100,72.26,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX008408","TP0001110.Plate.5",7,5,"t",1,100,65.12,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX008414","TP0001113.Plate.18",6,5,"t",1,100,52.9,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX008414","TP0001113.Plate.18",7,5,"t",1,100,51.34,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX008416","TP0001112.Plate.15",6,7,"t",1,100,28.14,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX008416","TP0001112.Plate.15",7,7,"t",1,100,33.92,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX008424","TP0001110.Plate.6",6,5,"t",1,20,67.25,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX008424","TP0001110.Plate.6",7,5,"t",1,20,69.72,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX008428","E1K.VR.Plate.11",2,5,"t",1,1,7.43,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX008428","E1K.VR.Plate.11",3,5,"t",1,1,7.41,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX008434","TP0001110.Plate.5",2,4,"t",1,100,63.4,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX008434","TP0001110.Plate.5",3,4,"t",1,100,48.66,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX008436","E1K.VR.Plate.10",4,7,"t",1,1,13.49,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX008436","E1K.VR.Plate.10",5,7,"t",1,1,15.89,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX008450","E1K.VR.Plate.9",6,5,"t",1,10,9.22,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX008450","E1K.VR.Plate.9",7,5,"t",1,10,9.57,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX008467","E1K.VR.Plate.11",2,3,"t",1,1,15.48,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX008467","E1K.VR.Plate.11",3,3,"t",1,1,18.83,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX008471","TP0001111.Plate.12",4,10,"t",1,100,76.85,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX008471","TP0001111.Plate.12",5,10,"t",1,100,70.05,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX008567","TP0001111.Plate.11",4,10,"t",1,100,95.99,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX008567","TP0001111.Plate.11",5,10,"t",1,100,78.12,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX008581","TP0001109.Plate.3",2,7,"t",1,100,89.56,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX008581","TP0001109.Plate.3",3,7,"t",1,100,94.77,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX008599","TP0001109.Plate.3",2,4,"t",1,100,57.72,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX008599","TP0001109.Plate.3",3,4,"t",1,100,63.83,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX008620","TP0001061.Plate.16",6,7,"t",1,20,20.95,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX008620","TP0001061.Plate.16",7,7,"t",1,20,22.01,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX008642","TP0001112.Plate.14",2,6,"t",1,20,67.53,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX008642","TP0001112.Plate.14",3,6,"t",1,20,64.77,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX008655","TP0001110.Plate.8",6,5,"t",1,20,62.01,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX008655","TP0001110.Plate.8",7,5,"t",1,20,68.73,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX008670","phIII.e1k.Plate.13",6,4,"t",1,5,25.39,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX008670","phIII.e1k.Plate.13",7,4,"t",1,5,23.96,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX008673","TP0001114.Plate.24",2,8,"t",1,100,60.71,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX008673","TP0001114.Plate.24",3,8,"t",1,100,62.19,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX008685","TP0001110.Plate.8",2,4,"t",1,100,73.57,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX008685","TP0001110.Plate.8",3,4,"t",1,100,65.57,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX008690","phIII.e1k.VR.Plate.1",2,6,"t",1,0.2,45.09,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX008690","phIII.e1k.VR.Plate.1",3,6,"t",1,0.2,49.26,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX008698","phIII.e1k.Plate.13",2,6,"t",1,10,20.43,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX008698","phIII.e1k.Plate.13",3,6,"t",1,10,19.76,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX008704","phIII.e1k.Plate.4",6,5,"t",1,20,15.03,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX008704","phIII.e1k.Plate.4",7,5,"t",1,20,16.79,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX008707","TP0001109.Plate.3",6,5,"t",1,100,64.02,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX008707","TP0001109.Plate.3",7,5,"t",1,100,59.68,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX008715","TP0001111.Plate.10",4,3,"t",1,100,61.01,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX008715","TP0001111.Plate.10",5,3,"t",1,100,67.19,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX008724","TP0001112.Plate.14",6,5,"t",1,20,64,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX008724","TP0001112.Plate.14",7,5,"t",1,20,62.72,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX008726","TP0001109.Plate.1",6,3,"t",1,100,63.05,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX008726","TP0001109.Plate.1",7,3,"t",1,100,72.66,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX008731","phIII.e1k.VR.Plate.1",6,4,"t",1,2,124.28,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX008731","phIII.e1k.VR.Plate.1",7,4,"t",1,2,76.85,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX008734","TP0001112.Plate.16",4,6,"t",1,74.5,58.02,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX008734","TP0001112.Plate.16",5,6,"t",1,74.5,66.62,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX008744","TP0001110.Plate.6",2,3,"t",1,100,69.91,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX008744","TP0001110.Plate.6",3,3,"t",1,100,67.18,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX008746","TP0001113.Plate.20",4,7,"t",1,100,62.49,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX008746","TP0001113.Plate.20",5,7,"t",1,100,66.48,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX008759","TP0001111.Plate.11",2,8,"t",1,100,70.64,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX008759","TP0001111.Plate.11",3,8,"t",1,100,78.03,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX008763","TP0001112.Plate.13",4,3,"t",1,100,54.08,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX008763","TP0001112.Plate.13",5,3,"t",1,100,52.38,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX008765","TP0001058.Plate.2",2,8,"t",1,100,15.85,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX008765","TP0001058.Plate.2",3,8,"t",1,100,21.7,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX008768","TP0001062.Plate.17",4,6,"t",1,9.73,25.97,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX008768","TP0001062.Plate.17",5,6,"t",1,9.73,27.71,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX008800","TP0001112.Plate.16",6,4,"t",1,20,56.65,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX008800","TP0001112.Plate.16",7,4,"t",1,20,49.23,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX008808","phIII.e1k.Plate.13",2,7,"t",1,5,23.83,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX008808","phIII.e1k.Plate.13",3,7,"t",1,5,20.22,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX008831","TP0001110.Plate.6",6,4,"t",1,100,70.55,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX008831","TP0001110.Plate.6",7,4,"t",1,100,63.47,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX008835","TP0001114.Plate.21",4,5,"t",1,100,43,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX008835","TP0001114.Plate.21",5,5,"t",1,100,44.81,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX008837","TP0001112.Plate.14",6,6,"t",1,100,62.09,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX008837","TP0001112.Plate.14",7,6,"t",1,100,64.08,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX008849","TP0001111.Plate.9",6,10,"t",1,100,65.51,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX008849","TP0001111.Plate.9",7,10,"t",1,100,60.09,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX008863","TP0001110.Plate.8",4,5,"t",1,100,49.27,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX008863","TP0001110.Plate.8",5,5,"t",1,100,51.7,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX008879","TP0001113.Plate.18",6,4,"t",1,100,56.5,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX008879","TP0001113.Plate.18",7,4,"t",1,100,51.94,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX008884","TP0001054.Plate.8",2,4,"t",1,20,21,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX008884","TP0001054.Plate.8",3,4,"t",1,20,25.05,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX008911","TP0001112.Plate.14",2,9,"t",1,20,65.02,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX008911","TP0001112.Plate.14",3,9,"t",1,20,60.48,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX008940","E1K.VR.Plate.10",4,8,"t",1,1,15.7,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX008940","E1K.VR.Plate.10",5,8,"t",1,1,21.01,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX008967","TP0001109.Plate.4",2,9,"t",1,100,54.03,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX008967","TP0001109.Plate.4",3,9,"t",1,100,65.01,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX008996","TP0001113.Plate.20",6,6,"t",1,100,63.22,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX008996","TP0001113.Plate.20",7,6,"t",1,100,53.87,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX009003","TP0001114.Plate.22",6,7,"t",1,100,66.1,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX009003","TP0001114.Plate.22",7,7,"t",1,100,71.25,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX009007","TP0001113.Plate.18",4,5,"t",1,100,48.64,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX009007","TP0001113.Plate.18",5,5,"t",1,100,65.35,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX009019","TP0001113.Plate.17",2,8,"t",1,100,39,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX009019","TP0001113.Plate.17",3,8,"t",1,100,39.7,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX009031","phIII.e1k.VR.Plate.2",2,8,"t",1,2,59.45,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX009031","phIII.e1k.VR.Plate.2",3,8,"t",1,2,56.85,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX009035","TP0001054.Plate.2",2,4,"t",1,20,12.44,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX009035","TP0001054.Plate.2",3,4,"t",1,20,15.35,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX009041","TP0001111.Plate.12",6,10,"t",1,100,12.29,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX009041","TP0001111.Plate.12",7,10,"t",1,100,10.55,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX009051","TP0001109.Plate.4",4,6,"t",1,100,10.33,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX009051","TP0001109.Plate.4",5,6,"t",1,100,10,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX009063","TP0001112.Plate.15",2,8,"t",1,20,58.76,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX009063","TP0001112.Plate.15",3,8,"t",1,20,59.83,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX009065","TP0001114.Plate.23",4,6,"t",1,50,93.88,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX009065","TP0001114.Plate.23",5,6,"t",1,50,96.32,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX009067","TP0001112.Plate.16",2,7,"t",1,100,45.92,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX009067","TP0001112.Plate.16",3,7,"t",1,100,63.5,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX009070","TP0001056.Plate.10",2,8,"t",1,12.5,25.98,"TP0001056 Plate 10_CeeTox.csv","cort" -"TX009070","TP0001056.Plate.10",3,8,"t",1,12.5,26.28,"TP0001056 Plate 10_CeeTox.csv","cort" -"TX009080","TP0001111.Plate.11",6,10,"t",1,100,46.73,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX009080","TP0001111.Plate.11",7,10,"t",1,100,41.4,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX009091","phIII.e1k.Plate.13",2,8,"t",1,5,28.18,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX009091","phIII.e1k.Plate.13",3,8,"t",1,5,25.52,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX009150","TP0001054.Plate.1",6,8,"t",1,10,24.17,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX009150","TP0001054.Plate.1",7,8,"t",1,10,22.99,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX009156","TP0000882.Plate.1",4,10,"t",1,17.2,19.1225180797622,"TP0000882 Plate 1A.xlsx","cort" -"TX009156","TP0000882.Plate.1",5,10,"t",1,17.2,16.4129847589554,"TP0000882 Plate 1A.xlsx","cort" -"TX009165","phIII.e1k.Plate.4",4,6,"t",1,20,12.26,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX009165","phIII.e1k.Plate.4",5,6,"t",1,20,11.02,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX009193","TP0001114.Plate.24",2,7,"t",1,100,65.35,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX009193","TP0001114.Plate.24",3,7,"t",1,100,76.74,"TP0001114 Plate 24_Ceetox.csv","cort" -"TX009211","TP0001113.Plate.19",4,7,"t",1,100,60.47,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX009211","TP0001113.Plate.19",5,7,"t",1,100,54.75,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX009220","TP0001111.Plate.12",6,7,"t",1,20,66.08,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX009220","TP0001111.Plate.12",7,7,"t",1,20,56.41,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX009242","TP0001111.Plate.11",2,3,"t",1,100,71.86,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX009242","TP0001111.Plate.11",3,3,"t",1,100,88.69,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX009245","TP0001110.Plate.6",2,8,"t",1,100,58.93,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX009245","TP0001110.Plate.6",3,8,"t",1,100,64.69,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX009258","TP0001060.Plate.12",2,10,"t",1,20,25.5,"TP0001060 Plate 12_CeeTox.csv","cort" -"TX009258","TP0001060.Plate.12",3,10,"t",1,20,24.35,"TP0001060 Plate 12_CeeTox.csv","cort" -"TX009272","TP0001112.Plate.14",6,3,"t",1,100,63.85,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX009272","TP0001112.Plate.14",7,3,"t",1,100,61.3,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX009281","TP0001111.Plate.9",6,3,"t",1,100,41.26,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX009281","TP0001111.Plate.9",7,3,"t",1,100,26.34,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX009285","TP0001111.Plate.9",2,9,"t",1,100,42.42,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX009285","TP0001111.Plate.9",3,9,"t",1,100,55.41,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX009307","TP0001113.Plate.17",6,8,"t",1,100,54.68,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX009307","TP0001113.Plate.17",7,8,"t",1,100,47.59,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX009310","TP0001062.Plate.17",2,7,"t",1,20,24.97,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX009310","TP0001062.Plate.17",3,7,"t",1,20,33.09,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX009349","TP0001113.Plate.19",6,6,"t",1,100,65.67,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX009349","TP0001113.Plate.19",7,6,"t",1,100,63.36,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX009353","TP0001113.Plate.18",2,4,"t",1,20,51.4,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX009353","TP0001113.Plate.18",3,4,"t",1,20,61.34,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX009384","phIII.e1k.Plate.14",2,7,"t",1,20,11.83,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX009384","phIII.e1k.Plate.14",3,7,"t",1,20,15.17,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX009389","TP0001111.Plate.12",4,4,"t",1,100,70.81,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX009389","TP0001111.Plate.12",5,4,"t",1,100,65.16,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX009393","TP0001114.Plate.21",4,10,"t",1,100,59.87,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX009393","TP0001114.Plate.21",5,10,"t",1,100,64.59,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX009405","TP0001110.Plate.8",6,9,"t",1,100,77.77,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX009405","TP0001110.Plate.8",7,9,"t",1,100,82.1,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX009413","TP0001110.Plate.8",6,4,"t",1,64.12,60.09,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX009413","TP0001110.Plate.8",7,4,"t",1,64.12,60.79,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX009419","TP0001112.Plate.15",4,9,"t",1,100,8,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX009419","TP0001112.Plate.15",5,9,"t",1,100,7.64,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX009434","TP0001110.Plate.5",4,4,"t",1,100,63.62,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX009434","TP0001110.Plate.5",5,4,"t",1,100,61.88,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX009469","TP0001111.Plate.10",2,4,"t",1,100,61.12,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX009469","TP0001111.Plate.10",3,4,"t",1,100,63.22,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX009478","TP0001112.Plate.14",2,8,"t",1,20,39,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX009478","TP0001112.Plate.14",3,8,"t",1,20,37.01,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX009480","TP0001111.Plate.11",2,10,"t",1,100,34.95,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX009480","TP0001111.Plate.11",3,10,"t",1,100,35.91,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX009482","TP0001114.Plate.23",4,9,"t",1,100,54.04,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX009482","TP0001114.Plate.23",5,9,"t",1,100,57,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX009484","TP0001110.Plate.6",4,5,"t",1,100,61.98,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX009484","TP0001110.Plate.6",5,5,"t",1,100,58.86,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX009499","TP0001054.Plate.2",4,6,"t",1,20,18.8,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX009499","TP0001054.Plate.2",5,6,"t",1,20,22.47,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX009515","TP0001054.Plate.7",4,7,"t",1,20,29.62,"TP0001055 Plate 7_CeeTox.csv","cort" -"TX009515","TP0001054.Plate.7",5,7,"t",1,20,36.02,"TP0001055 Plate 7_CeeTox.csv","cort" -"TX009542","TP0001113.Plate.17",6,3,"t",1,100,38.52,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX009542","TP0001113.Plate.17",7,3,"t",1,100,51.23,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX009546","TP0001112.Plate.16",4,10,"t",1,100,52.27,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX009546","TP0001112.Plate.16",5,10,"t",1,100,60.98,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX009562","TP0001110.Plate.8",4,4,"t",1,100,60.76,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX009562","TP0001110.Plate.8",5,4,"t",1,100,71.7,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX009566","TP0001110.Plate.7",6,5,"t",1,100,68.81,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX009566","TP0001110.Plate.7",7,5,"t",1,100,56.9,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX009571","phIII.e1k.Plate.13",6,5,"t",1,20,28.87,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX009571","phIII.e1k.Plate.13",7,5,"t",1,20,23.28,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX009582","TP0001109.Plate.1",2,3,"t",1,34.43,16.03,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX009582","TP0001109.Plate.1",3,3,"t",1,34.43,17.21,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX009588","TP0001113.Plate.17",6,7,"t",1,100,54.36,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX009588","TP0001113.Plate.17",7,7,"t",1,100,43.97,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX009604","TP0001113.Plate.18",6,3,"t",1,100,51.54,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX009604","TP0001113.Plate.18",7,3,"t",1,100,52.74,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX009641","TP0001054.Plate.3",6,7,"t",1,20,37.08,"TP0001054 Plate 3_CeeTox.csv","cort" -"TX009641","TP0001054.Plate.3",7,7,"t",1,20,35.21,"TP0001054 Plate 3_CeeTox.csv","cort" -"TX009652","E1K.VR.Plate.9",2,10,"t",1,10,9.76,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX009652","E1K.VR.Plate.9",3,10,"t",1,10,10.11,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX009662","TP0001112.Plate.13",6,3,"t",1,100,69.4,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX009662","TP0001112.Plate.13",7,3,"t",1,100,66.22,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX009664","TP0001112.Plate.14",2,5,"t",1,100,65.8,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX009664","TP0001112.Plate.14",3,5,"t",1,100,64.59,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX009710","TP0001111.Plate.10",2,7,"t",1,100,45.76,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX009710","TP0001111.Plate.10",3,7,"t",1,100,63.15,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX009720","TP0001110.Plate.8",6,7,"t",1,100,40.41,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX009720","TP0001110.Plate.8",7,7,"t",1,100,36.5,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX009736","E1K.VR.Plate.10",6,5,"t",1,0.9,11.33,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX009736","E1K.VR.Plate.10",7,5,"t",1,0.9,10.91,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX009742","TP0001054.Plate.2",6,10,"t",1,20,38.06,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX009742","TP0001054.Plate.2",7,10,"t",1,20,40.92,"TP0001054 Plate 2_CeeTox.csv","cort" -"TX009750","E1K.VR.Plate.10",4,5,"t",1,0.5,9.69,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX009750","E1K.VR.Plate.10",5,5,"t",1,0.5,10.5,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX009766","E1K.VR.Plate.9",2,7,"t",1,10,7.69,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX009766","E1K.VR.Plate.9",3,7,"t",1,10,8.3,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX009790","E1K.VR.Plate.10",4,3,"t",1,1,12.65,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX009790","E1K.VR.Plate.10",5,3,"t",1,1,14.15,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX009792","TP0001058.Plate.1",4,5,"t",1,22,1.59,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX009792","TP0001058.Plate.1",5,5,"t",1,22,1.94,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX009802","TP0001109.Plate.3",4,3,"t",1,100,54.15,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX009802","TP0001109.Plate.3",5,3,"t",1,100,59.33,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX009808","TP0001113.Plate.19",6,8,"t",1,100,58.05,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX009808","TP0001113.Plate.19",7,8,"t",1,100,61.51,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX009816","TP0001109.Plate.1",4,8,"t",1,50,61.82,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX009816","TP0001109.Plate.1",5,8,"t",1,50,65.89,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX009828","TP0001111.Plate.10",4,7,"t",1,100,25.52,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX009828","TP0001111.Plate.10",5,7,"t",1,100,39.16,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX009841","TP0001114.Plate.23",4,8,"t",1,100,57.35,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX009841","TP0001114.Plate.23",5,8,"t",1,100,69.92,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX009862","E1K.VR.Plate.11",2,8,"t",1,0.5,13.41,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX009862","E1K.VR.Plate.11",3,8,"t",1,0.5,13.86,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX009864","TP0001113.Plate.18",6,6,"t",1,100,64.66,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX009864","TP0001113.Plate.18",7,6,"t",1,100,56.16,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX009872","TP0001111.Plate.9",4,8,"t",1,100,66.01,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX009872","TP0001111.Plate.9",5,8,"t",1,100,69.57,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX009893","TP0001110.Plate.5",6,9,"t",1,20,81.48,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX009893","TP0001110.Plate.5",7,9,"t",1,20,85.52,"TP0001110 Plate 5_Ceetox.csv","cort" -"TX009907","TP0001112.Plate.13",4,8,"t",1,100,58.7,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX009907","TP0001112.Plate.13",5,8,"t",1,100,54.59,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX009943","TP0001111.Plate.9",6,6,"t",1,100,63.77,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX009943","TP0001111.Plate.9",7,6,"t",1,100,61.25,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX009957","TP0001112.Plate.13",2,6,"t",1,100,63.22,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX009957","TP0001112.Plate.13",3,6,"t",1,100,63.52,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX009977","TP0001109.Plate.2",6,7,"t",1,100,62.8,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX009977","TP0001109.Plate.2",7,7,"t",1,100,66.42,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX009987","TP0001111.Plate.10",4,6,"t",1,100,62.04,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX009987","TP0001111.Plate.10",5,6,"t",1,100,66.8,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX010001","TP0001109.Plate.2",6,3,"t",1,100,10.17,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX010001","TP0001109.Plate.2",7,3,"t",1,100,9.64,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX010009","TP0001056.Plate.12",2,3,"t",1,9.4,32.13,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX010009","TP0001056.Plate.12",3,3,"t",1,9.4,41.37,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX010035","TP0001110.Plate.6",2,5,"t",1,100,190.94,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX010035","TP0001110.Plate.6",3,5,"t",1,100,198.98,"TP0001110 Plate 6_Ceetox.csv","cort" -"TX010052","E1K.VR.Plate.10",6,10,"t",1,0.2,5.97,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX010052","E1K.VR.Plate.10",7,10,"t",1,0.2,5.19,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX010056","E1K.VR.Plate.9",6,6,"t",1,10,15.16,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX010056","E1K.VR.Plate.9",7,6,"t",1,10,16.03,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX010068","TP0001112.Plate.13",6,6,"t",1,100,74.67,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX010068","TP0001112.Plate.13",7,6,"t",1,100,71.75,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX010069","phIII.e1k.Plate.14",6,8,"t",1,20,28.07,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX010069","phIII.e1k.Plate.14",7,8,"t",1,20,23.42,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX010111","phIII.e1k.Plate.13",2,9,"t",1,5,25.4,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX010111","phIII.e1k.Plate.13",3,9,"t",1,5,20.94,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX010112","E1K.VR.Plate.9",4,9,"t",1,4.4,8.18,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX010112","E1K.VR.Plate.9",5,9,"t",1,4.4,8.55,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX010165","TP0001113.Plate.20",4,9,"t",1,20,60.18,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX010165","TP0001113.Plate.20",5,9,"t",1,20,62.11,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX010177","TP0001109.Plate.1",6,4,"t",1,50,67.68,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX010177","TP0001109.Plate.1",7,4,"t",1,50,66.35,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX010183","PhaseIIe1k.VR.Plate.2",2,7,"t",1,10,24.59,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"TX010183","PhaseIIe1k.VR.Plate.2",3,7,"t",1,10,26.09,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" -"TX010199","TP0001110.Plate.8",4,8,"t",1,100,103.31,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX010199","TP0001110.Plate.8",5,8,"t",1,100,99.16,"TP0001110 Plate 8_Ceetox.csv","cort" -"TX010202","phIII.e1k.Plate.14",2,5,"t",1,13.2,26.21,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX010202","phIII.e1k.Plate.14",3,5,"t",1,13.2,21.34,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX010217","TP0001111.Plate.10",6,7,"t",1,100,40.25,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX010217","TP0001111.Plate.10",7,7,"t",1,100,37.88,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX010228","E1K.VR.Plate.11",4,10,"t",1,1,12.17,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX010228","E1K.VR.Plate.11",5,10,"t",1,1,12.26,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" -"TX010235","TP0001109.Plate.4",6,9,"t",1,100,24.61,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX010235","TP0001109.Plate.4",7,9,"t",1,100,24.86,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX010291","TP0001111.Plate.10",6,5,"t",1,100,68.92,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX010291","TP0001111.Plate.10",7,5,"t",1,100,69.23,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX010297","TP0001113.Plate.17",4,8,"t",1,100,55.47,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX010297","TP0001113.Plate.17",5,8,"t",1,100,64.49,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX010299","E1K.VR.Plate.9",6,10,"t",1,10,2.31,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX010299","E1K.VR.Plate.9",7,10,"t",1,10,2.08,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" -"TX010325","TP0001111.Plate.12",4,6,"t",1,100,42.65,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX010325","TP0001111.Plate.12",5,6,"t",1,100,41.63,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX010330","phIII.e1k.Plate.13",2,10,"t",1,5,26.63,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX010330","phIII.e1k.Plate.13",3,10,"t",1,5,21,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX010334","TP0001056.Plate.11",4,4,"t",1,20,26.81,"TP0001056 Plate 11_CeeTox.csv","cort" -"TX010334","TP0001056.Plate.11",5,4,"t",1,20,30.46,"TP0001056 Plate 11_CeeTox.csv","cort" -"TX010353","TP0001109.Plate.1",2,8,"t",1,100,77.94,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX010353","TP0001109.Plate.1",3,8,"t",1,100,81.52,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX010357","TP0001059.Plate.6",6,8,"t",1,10,22.38,"TP0001059 Plate 6_CeeTox.csv","cort" -"TX010357","TP0001059.Plate.6",7,8,"t",1,10,22.07,"TP0001059 Plate 6_CeeTox.csv","cort" -"TX010358","TP0001056.Plate.9",2,9,"t",1,20,16.42,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX010358","TP0001056.Plate.9",3,9,"t",1,20,18.98,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX010366","TP0001111.Plate.11",4,3,"t",1,100,72.53,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX010366","TP0001111.Plate.11",5,3,"t",1,100,65.95,"TP0001111 Plate 11_Ceetox.csv","cort" -"TX010572","TP0001109.Plate.2",2,7,"t",1,100,62.4,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX010572","TP0001109.Plate.2",3,7,"t",1,100,71.97,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX010870","TP0001060.Plate.9",6,5,"t",1,100,25.65,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX010870","TP0001060.Plate.9",7,5,"t",1,100,27.23,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX010993","TP0001112.Plate.15",4,4,"t",1,100,59.54,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX010993","TP0001112.Plate.15",5,4,"t",1,100,54.23,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX011176","TP0001111.Plate.10",4,9,"t",1,100,69.05,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX011176","TP0001111.Plate.10",5,9,"t",1,100,63.59,"TP0001111 Plate 10_Ceetox.csv","cort" -"TX011208","TP0001109.Plate.2",6,8,"t",1,20,61.11,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX011208","TP0001109.Plate.2",7,8,"t",1,20,62.74,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX011231","TP0001114.Plate.22",2,7,"t",1,100,61.37,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX011231","TP0001114.Plate.22",3,7,"t",1,100,65.79,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX011236","phIII.e1k.Plate.14",2,6,"t",1,20,24.6,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX011236","phIII.e1k.Plate.14",3,6,"t",1,20,24.76,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX011250","TP0001113.Plate.20",6,3,"t",1,100,93.04,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX011250","TP0001113.Plate.20",7,3,"t",1,100,90.72,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX011264","TP0001111.Plate.12",2,4,"t",1,100,61.51,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX011264","TP0001111.Plate.12",3,4,"t",1,100,68.84,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX011276","TP0001114.Plate.21",6,4,"t",1,50,71.23,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX011276","TP0001114.Plate.21",7,4,"t",1,50,52.95,"TP0001114 Plate 21_Ceetox.csv","cort" -"TX011349","TP0001112.Plate.14",6,8,"t",1,100,64.81,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX011349","TP0001112.Plate.14",7,8,"t",1,100,63.45,"TP0001112 Plate 14_Ceetox.csv","cort" -"TX011371","TP0001113.Plate.20",6,7,"t",1,20,75.41,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX011371","TP0001113.Plate.20",7,7,"t",1,20,67.45,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX011414","phIII.e1k.VR.Plate.2",2,9,"t",1,0.2,54.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX011414","phIII.e1k.VR.Plate.2",3,9,"t",1,0.2,50.91,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX011420","TP0001109.Plate.4",4,5,"t",1,100,63.35,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX011420","TP0001109.Plate.4",5,5,"t",1,100,69.51,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX011425","TP0001111.Plate.9",4,3,"t",1,100,58.47,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX011425","TP0001111.Plate.9",5,3,"t",1,100,56.56,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX011469","TP0001112.Plate.16",2,3,"t",1,100,51.15,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX011469","TP0001112.Plate.16",3,3,"t",1,100,63.95,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX011482","E1K.VR.Plate.10",4,9,"t",1,1,10.94,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX011482","E1K.VR.Plate.10",5,9,"t",1,1,12.67,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" -"TX011545","TP0001111.Plate.12",2,10,"t",1,100,48.63,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX011545","TP0001111.Plate.12",3,10,"t",1,100,61.86,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX011564","TP0001109.Plate.1",6,10,"t",1,100,65.16,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX011564","TP0001109.Plate.1",7,10,"t",1,100,79.3,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX011571","TP0001109.Plate.4",4,3,"t",1,50,62.58,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX011571","TP0001109.Plate.4",5,3,"t",1,50,62.9,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX011613","TP0001062.Plate.17",2,6,"t",1,12.7,28.19,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX011613","TP0001062.Plate.17",3,6,"t",1,12.7,30.78,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX011622","PhaseIIe1k.VR.Plate.1",2,5,"t",1,2,52.91,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"TX011622","PhaseIIe1k.VR.Plate.1",3,5,"t",1,2,55.2,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"TX011625","TP0001059.Plate.8",2,8,"t",1,18.88,21.89,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX011625","TP0001059.Plate.8",3,8,"t",1,18.88,24,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX011630","TP0001054.Plate.7",2,6,"t",1,20,2.63,"TP0001055 Plate 7_CeeTox.csv","cort" -"TX011630","TP0001054.Plate.7",3,6,"t",1,20,3.77,"TP0001055 Plate 7_CeeTox.csv","cort" -"TX011636","TP0001056.Plate.12",4,7,"t",1,10,32.62,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX011636","TP0001056.Plate.12",5,7,"t",1,10,35.62,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX011638","TP0001058.Plate.1",6,7,"t",1,10,8.91,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX011638","TP0001058.Plate.1",7,7,"t",1,10,9.31,"TP0001058 Plate 1_Ceetox.csv","cort" -"TX011660","TP0001057.Plate.15",4,4,"t",1,12.5,29.27,"TP0001057 Plate 15_CeeTox.csv","cort" -"TX011660","TP0001057.Plate.15",5,4,"t",1,12.5,26.41,"TP0001057 Plate 15_CeeTox.csv","cort" -"TX011664","TP0001056.Plate.9",4,10,"t",1,20,42.71,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX011664","TP0001056.Plate.9",5,10,"t",1,20,41.36,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX011720","TP0001056.Plate.12",6,8,"t",1,14.5,12.68,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX011720","TP0001056.Plate.12",7,8,"t",1,14.5,12.31,"TP0001056 Plate 12_CeeTox.csv","cort" -"TX011877","phIII.e1k.Plate.13",6,10,"t",1,12,26.66,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011877","phIII.e1k.Plate.13",7,10,"t",1,12,25,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011879","phIII.e1k.Plate.13",4,3,"t",1,10,26,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011879","phIII.e1k.Plate.13",5,3,"t",1,10,26.22,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011884","phIII.e1k.Plate.13",4,4,"t",1,10,25.26,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011884","phIII.e1k.Plate.13",5,4,"t",1,10,26.38,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011886","phIII.e1k.Plate.13",4,5,"t",1,10,24.97,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011886","phIII.e1k.Plate.13",5,5,"t",1,10,27.21,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011893","phIII.e1k.Plate.12",4,3,"t",1,100,24.88,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX011893","phIII.e1k.Plate.12",5,3,"t",1,100,22.18,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX011894","phIII.e1k.Plate.13",4,6,"t",1,10,29.81,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011894","phIII.e1k.Plate.13",5,6,"t",1,10,23.6,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011903","phIII.e1k.Plate.13",4,7,"t",1,10,25.84,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011903","phIII.e1k.Plate.13",5,7,"t",1,10,26.8,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX011905","phIII.e1k.Plate.11",4,9,"t",1,100,33.07,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX011905","phIII.e1k.Plate.11",5,9,"t",1,100,31.45,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX011910","phIII.e1k.Plate.2",2,3,"t",1,100,32.89,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX011910","phIII.e1k.Plate.2",3,3,"t",1,100,21.84,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX012209","PhaseIIe1k.VR.Plate.3",6,5,"t",1,2,37.77,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"TX012209","PhaseIIe1k.VR.Plate.3",7,5,"t",1,2,37.37,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" -"TX012211","TP0001055.Plate.6",6,9,"t",1,20,3.72,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX012211","TP0001055.Plate.6",7,9,"t",1,20,3.51,"TP0001055 Plate 6_CeeTox.csv","cort" -"TX012263","TP0001062.Plate.17",6,4,"t",1,20,23.13,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX012263","TP0001062.Plate.17",7,4,"t",1,20,26.81,"TP0001062_Plate_17_Ceetox.csv","cort" -"TX012264","PhaseII.VR.Plate.2",2,6,"t",1,2,13.78,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX012264","PhaseII.VR.Plate.2",3,6,"t",1,2,16.26,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX012265","PhaseII.VR.Plate.1",6,10,"t",1,1.63,14.36,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"TX012265","PhaseII.VR.Plate.1",7,10,"t",1,1.63,13.71,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" -"TX012266","PhaseII.VR.Plate.2",6,5,"t",1,2,2.91,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX012266","PhaseII.VR.Plate.2",7,5,"t",1,2,3.25,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" -"TX012267","TP0001060.Plate.12",4,8,"t",1,20,22.53,"TP0001060 Plate 12_CeeTox.csv","cort" -"TX012267","TP0001060.Plate.12",5,8,"t",1,20,20.62,"TP0001060 Plate 12_CeeTox.csv","cort" -"TX012268","TP0001061.Plate.15",4,4,"t",1,20,28.16,"TP0001061 Plate 15_CeeTox.csv","cort" -"TX012268","TP0001061.Plate.15",5,4,"t",1,20,21.57,"TP0001061 Plate 15_CeeTox.csv","cort" -"TX012269","PhaseII.VR.Plate.5",2,6,"t",1,2,6.99,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"TX012269","PhaseII.VR.Plate.5",3,6,"t",1,2,5.89,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"TX012270","TP0001057.Plate.13",6,3,"t",1,18,27.99,"TP0001057 Plate 13_CeeTox.csv","cort" -"TX012270","TP0001057.Plate.13",7,3,"t",1,18,28.25,"TP0001057 Plate 13_CeeTox.csv","cort" -"TX012271","TP0001058.Plate.2",2,4,"t",1,20,25.73,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX012271","TP0001058.Plate.2",3,4,"t",1,20,19.65,"TP0001058 Plate 2_CeeTox.csv","cort" -"TX012272","PhaseIIe1k.VR.Plate.1",4,5,"t",1,2,50.45,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"TX012272","PhaseIIe1k.VR.Plate.1",5,5,"t",1,2,51.99,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"TX012273","TP0001057.Plate.16",4,10,"t",1,20,20.87,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX012273","TP0001057.Plate.16",5,10,"t",1,20,24.8,"TP0001057 Plate 16_CeeTox.csv","cort" -"TX012274","TP0001060.Plate.9",4,7,"t",1,20,25.28,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX012274","TP0001060.Plate.9",5,7,"t",1,20,24.96,"TP0001060 Plate 9_CeeTox.csv","cort" -"TX012275","TP0001059.Plate.6",6,7,"t",1,20,15.65,"TP0001059 Plate 6_CeeTox.csv","cort" -"TX012275","TP0001059.Plate.6",7,7,"t",1,20,17.81,"TP0001059 Plate 6_CeeTox.csv","cort" -"TX012276","PhaseIIe1k.VR.Plate.1",6,10,"t",1,1.86,69.78,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"TX012276","PhaseIIe1k.VR.Plate.1",7,10,"t",1,1.86,66.54,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" -"TX012277","phIII.e1k.Plate.3",6,6,"t",1,20,16.32,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX012277","phIII.e1k.Plate.3",7,6,"t",1,20,15.21,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX012279","phIII.e1k.Plate.3",6,7,"t",1,20,26.76,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX012279","phIII.e1k.Plate.3",7,7,"t",1,20,22.12,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX012284","phIII.e1k.VR.Plate.1",2,3,"t",1,0.2,42.15,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX012284","phIII.e1k.VR.Plate.1",3,3,"t",1,0.2,40.46,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX012286","phIII.e1k.Plate.11",2,4,"t",1,100,24.85,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX012286","phIII.e1k.Plate.11",3,4,"t",1,100,28.39,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX012287","phIII.e1k.Plate.16",6,3,"t",1,100,23.09,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX012287","phIII.e1k.Plate.16",7,3,"t",1,100,23.8,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX012290","phIII.e1k.VR.Plate.2",6,6,"t",0,10,NA,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX012290","phIII.e1k.VR.Plate.2",7,6,"t",1,10,41.88,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX012291","phIII.e1k.Plate.3",6,9,"t",1,20,15.81,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX012291","phIII.e1k.Plate.3",7,9,"t",1,20,11.68,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX012293","TP0001113.Plate.18",2,5,"t",1,100,36.03,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX012293","TP0001113.Plate.18",3,5,"t",1,100,55.07,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX012294","TP0001112.Plate.16",2,5,"t",1,100,46.07,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX012294","TP0001112.Plate.16",3,5,"t",1,100,57.71,"TP0001112 Plate 16_Ceetox.csv","cort" -"TX012295","TP0001114.Plate.23",4,3,"t",1,100,57.24,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX012295","TP0001114.Plate.23",5,3,"t",1,100,64.62,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX012297","TP0001111.Plate.9",4,4,"t",1,100,66.36,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX012297","TP0001111.Plate.9",5,4,"t",1,100,57.9,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX012299","TP0001112.Plate.15",4,6,"t",1,100,60.31,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX012299","TP0001112.Plate.15",5,6,"t",1,100,64.27,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX012300","TP0001112.Plate.13",2,3,"t",1,100,66.81,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX012300","TP0001112.Plate.13",3,3,"t",1,100,70.46,"TP0001112 Plate 13_Ceetox.csv","cort" -"TX012301","TP0001113.Plate.20",4,5,"t",1,100,59.48,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX012301","TP0001113.Plate.20",5,5,"t",1,100,65.27,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX012302","TP0001111.Plate.12",6,3,"t",1,100,62.08,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX012302","TP0001111.Plate.12",7,3,"t",1,100,63.92,"TP0001111 Plate 12_Ceetox.csv","cort" -"TX012303","TP0001113.Plate.17",4,5,"t",1,3.31,53.27,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX012303","TP0001113.Plate.17",5,5,"t",1,3.31,54.39,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX012304","TP0001109.Plate.1",2,7,"t",1,100,58.78,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX012304","TP0001109.Plate.1",3,7,"t",1,100,70.77,"TP0001109 Plate 1_Ceetox.csv","cort" -"TX012305","TP0001111.Plate.9",6,7,"t",1,100,66.4,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX012305","TP0001111.Plate.9",7,7,"t",1,100,65.58,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX012306","TP0001111.Plate.9",6,8,"t",1,100,69.55,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX012306","TP0001111.Plate.9",7,8,"t",1,100,60.54,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX012307","TP0001114.Plate.23",6,6,"t",1,100,63.86,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX012307","TP0001114.Plate.23",7,6,"t",1,100,62.28,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX012308","TP0001111.Plate.9",4,10,"t",1,100,59.95,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX012308","TP0001111.Plate.9",5,10,"t",1,100,70.15,"TP0001111 Plate 9_Ceetox.csv","cort" -"TX012309","TP0001113.Plate.19",4,9,"t",1,100,58.04,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX012309","TP0001113.Plate.19",5,9,"t",1,100,61.99,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX012310","TP0001110.Plate.7",4,9,"t",1,100,59,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX012310","TP0001110.Plate.7",5,9,"t",1,100,61.61,"TP0001110 Plate 7_Ceetox.csv","cort" -"TX012311","TP0001109.Plate.2",6,5,"t",1,100,63.82,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX012311","TP0001109.Plate.2",7,5,"t",1,100,59.9,"TP0001109 Plate 2_Ceetox.csv","cort" -"TX012312","TP0001114.Plate.22",2,8,"t",1,100,60.74,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX012312","TP0001114.Plate.22",3,8,"t",1,100,63.27,"TP0001114 Plate 22_Ceetox.csv","cort" -"TX012325","TP0000882.Plate.1",2,5,"t",1,10,10.1050178130358,"TP0000882 Plate 1A.xlsx","cort" -"TX012325","TP0000882.Plate.1",3,5,"t",1,10,14.9682398960464,"TP0000882 Plate 1A.xlsx","cort" -"TX012337","phIII.e1k.Plate.12",6,5,"t",1,10,9.01,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX012337","phIII.e1k.Plate.12",7,5,"t",1,10,9.91,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX012340","20120829.Plate.1",2,10,"t",1,0.1,10.6955203886154,"20120829 Plate 1A.xlsx","cort" -"TX012340","20120829.Plate.1",3,10,"t",1,0.1,10.8716969707907,"20120829 Plate 1A.xlsx","cort" -"TX012521","TP0001056.Plate.9",6,7,"t",1,20,25.02,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX012521","TP0001056.Plate.9",7,7,"t",1,20,25.78,"TP0001056 Plate 9_CeeTox.csv","cort" -"TX012537","TP0001054.Plate.1",6,4,"t",1,13.4,20.55,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX012537","TP0001054.Plate.1",7,4,"t",1,13.4,20.57,"TP0001054 Plate 1_CeeTox.csv","cort" -"TX012553","PhaseII.VR.Plate.5",2,5,"t",1,0.76,10.83,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"TX012553","PhaseII.VR.Plate.5",3,5,"t",1,0.76,10.2,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" -"TX012554","TP0001059.Plate.8",4,9,"t",1,6.4,17.18,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX012554","TP0001059.Plate.8",5,9,"t",1,6.4,21.13,"TP0001059 Plate 8_CeeTox.csv","cort" -"TX012606","TP0000882.Plate.2",4,6,"t",1,20,0.41,"TP0000882 Plate 2B.xlsx","cort" -"TX012606","TP0000882.Plate.2",5,6,"t",1,20,0.41,"TP0000882 Plate 2B.xlsx","cort" -"TX012611","TP0001054.Plate.8",4,4,"t",1,10,23.68,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX012611","TP0001054.Plate.8",5,4,"t",1,10,22.36,"TP0001055 Plate 8_CeeTox.csv","cort" -"TX012622","phIII.e1k.VR.Plate.2",6,3,"t",1,0.05,52.46,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX012622","phIII.e1k.VR.Plate.2",7,3,"t",1,0.05,47.61,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX012623","phIII.e1k.Plate.9",4,9,"t",1,5,14.81,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012623","phIII.e1k.Plate.9",5,9,"t",1,5,13.62,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012627","phIII.e1k.Plate.7",2,5,"t",1,5,24.85,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX012627","phIII.e1k.Plate.7",3,5,"t",1,5,27.18,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX012628","phIII.e1k.Plate.9",4,7,"t",1,5,51.76,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012628","phIII.e1k.Plate.9",5,7,"t",1,5,55.19,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012631","phIII.e1k.Plate.9",4,10,"t",1,10,25.85,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012631","phIII.e1k.Plate.9",5,10,"t",1,10,23.97,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012641","phIII.e1k.VR.Plate.2",4,5,"t",1,10,32.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX012641","phIII.e1k.VR.Plate.2",5,5,"t",1,10,30.85,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX012643","phIII.e1k.Plate.8",6,10,"t",1,100,29.12,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012643","phIII.e1k.Plate.8",7,10,"t",1,100,28.6,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012645","phIII.e1k.Plate.8",6,9,"t",1,100,24.56,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012645","phIII.e1k.Plate.8",7,9,"t",1,100,19.36,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012646","phIII.e1k.Plate.8",6,3,"t",1,100,26.81,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012646","phIII.e1k.Plate.8",7,3,"t",1,100,23.82,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012647","phIII.e1k.Plate.9",2,10,"t",1,100,25.68,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012647","phIII.e1k.Plate.9",3,10,"t",1,100,27.51,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012648","phIII.e1k.Plate.9",2,9,"t",1,100,28.12,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012648","phIII.e1k.Plate.9",3,9,"t",1,100,26.71,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012649","phIII.e1k.Plate.8",4,3,"t",1,100,20.56,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012649","phIII.e1k.Plate.8",5,3,"t",1,100,22.47,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012651","phIII.e1k.Plate.3",6,10,"t",1,20,28.79,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX012651","phIII.e1k.Plate.3",7,10,"t",1,20,23.39,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX012652","phIII.e1k.Plate.8",6,8,"t",1,100,27.15,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012652","phIII.e1k.Plate.8",7,8,"t",1,100,28.02,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012653","phIII.e1k.Plate.8",6,7,"t",1,100,28.66,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012653","phIII.e1k.Plate.8",7,7,"t",1,100,23.35,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012654","phIII.e1k.Plate.8",6,6,"t",1,50,31.67,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012654","phIII.e1k.Plate.8",7,6,"t",1,50,27.53,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012655","phIII.e1k.Plate.8",6,5,"t",1,100,23.51,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012655","phIII.e1k.Plate.8",7,5,"t",1,100,23.78,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012656","phIII.e1k.Plate.8",6,4,"t",1,100,26.83,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012656","phIII.e1k.Plate.8",7,4,"t",1,100,27.19,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX012657","phIII.e1k.VR.Plate.2",6,4,"t",1,10,49.88,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX012657","phIII.e1k.VR.Plate.2",7,4,"t",1,10,54.11,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX012658","phIII.e1k.Plate.9",2,7,"t",1,100,25.13,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012658","phIII.e1k.Plate.9",3,7,"t",1,100,25.1,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012659","phIII.e1k.Plate.9",2,6,"t",1,100,38.4,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012659","phIII.e1k.Plate.9",3,6,"t",1,100,29.01,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012660","phIII.e1k.Plate.9",2,5,"t",1,100,22.48,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012660","phIII.e1k.Plate.9",3,5,"t",1,100,25.55,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX012670","phIII.e1k.VR.Plate.3",6,7,"t",1,2,77.19,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX012670","phIII.e1k.VR.Plate.3",7,7,"t",1,2,76.37,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX013433","phIII.e1k.Plate.3",4,3,"t",1,20,23.03,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013433","phIII.e1k.Plate.3",5,3,"t",1,20,22.8,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013434","phIII.e1k.Plate.11",2,3,"t",1,100,22.68,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013434","phIII.e1k.Plate.11",3,3,"t",1,100,29.67,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013435","phIII.e1k.Plate.11",2,5,"t",1,100,32.59,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013435","phIII.e1k.Plate.11",3,5,"t",1,100,31.4,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013437","phIII.e1k.Plate.12",6,7,"t",1,20,21.21,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013437","phIII.e1k.Plate.12",7,7,"t",1,20,21.59,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013438","phIII.e1k.Plate.12",6,6,"t",1,20,25.03,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013438","phIII.e1k.Plate.12",7,6,"t",1,20,26.98,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013448","phIII.e1k.Plate.11",4,10,"t",1,100,28.5,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013448","phIII.e1k.Plate.11",5,10,"t",1,100,25.51,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013465","phIII.e1k.Plate.17",2,4,"t",1,99.8,21.04,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013465","phIII.e1k.Plate.17",3,4,"t",1,99.8,21.68,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013466","phIII.e1k.VR.Plate.1",4,6,"t",1,1,49.29,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013466","phIII.e1k.VR.Plate.1",5,6,"t",1,1,51.32,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013470","phIII.e1k.Plate.17",2,3,"t",1,99.8,21,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013470","phIII.e1k.Plate.17",3,3,"t",1,99.8,18.77,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013472","phIII.e1k.Plate.12",6,4,"t",1,20,24.28,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013472","phIII.e1k.Plate.12",7,4,"t",1,20,26.08,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013474","phIII.e1k.VR.Plate.1",2,5,"t",1,10,49.71,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013474","phIII.e1k.VR.Plate.1",3,5,"t",1,10,58.11,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013481","phIII.e1k.Plate.2",6,6,"t",1,100,25.13,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX013481","phIII.e1k.Plate.2",7,6,"t",1,100,22.39,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX013482","phIII.e1k.Plate.17",2,6,"t",1,100,22.56,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013482","phIII.e1k.Plate.17",3,6,"t",1,100,22.95,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013484","phIII.e1k.Plate.17",2,8,"t",1,99.9,23.05,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013484","phIII.e1k.Plate.17",3,8,"t",1,99.9,23.24,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013494","phIII.e1k.Plate.17",4,9,"t",1,100,21.61,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013494","phIII.e1k.Plate.17",5,9,"t",1,100,23.9,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013499","phIII.e1k.Plate.12",4,6,"t",1,100,24.71,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013499","phIII.e1k.Plate.12",5,6,"t",1,100,20.41,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013505","phIII.e1k.Plate.17",2,9,"t",1,100,20.27,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013505","phIII.e1k.Plate.17",3,9,"t",1,100,19.73,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013506","phIII.e1k.Plate.17",2,5,"t",1,100,23.08,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013506","phIII.e1k.Plate.17",3,5,"t",1,100,23,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013507","phIII.e1k.VR.Plate.2",6,5,"t",1,1,51.97,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX013507","phIII.e1k.VR.Plate.2",7,5,"t",1,1,49.59,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX013508","phIII.e1k.Plate.17",2,7,"t",1,100,25.82,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013508","phIII.e1k.Plate.17",3,7,"t",1,100,27.29,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013510","phIII.e1k.Plate.12",4,7,"t",1,100,17.24,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013510","phIII.e1k.Plate.12",5,7,"t",1,100,14.52,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013511","phIII.e1k.Plate.16",2,6,"t",1,100,26.47,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013511","phIII.e1k.Plate.16",3,6,"t",1,100,28.06,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013520","phIII.e1k.Plate.17",2,10,"t",1,100,19.73,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013520","phIII.e1k.Plate.17",3,10,"t",1,100,16.27,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013522","phIII.e1k.Plate.16",4,5,"t",1,100,26.24,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013522","phIII.e1k.Plate.16",5,5,"t",1,100,24.28,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013526","phIII.e1k.Plate.16",6,5,"t",1,100,26.64,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013526","phIII.e1k.Plate.16",7,5,"t",1,100,26.65,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013527","phIII.e1k.Plate.2",4,6,"t",1,100,39.26,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX013527","phIII.e1k.Plate.2",5,6,"t",1,100,34.38,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX013532","phIII.e1k.Plate.16",6,6,"t",1,100,14.37,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013532","phIII.e1k.Plate.16",7,6,"t",1,100,16.97,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013536","phIII.e1k.VR.Plate.3",6,8,"t",1,10,12.3,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX013536","phIII.e1k.VR.Plate.3",7,8,"t",1,10,14.54,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX013537","phIII.e1k.Plate.3",2,3,"t",1,20,24.41,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013537","phIII.e1k.Plate.3",3,3,"t",1,20,22.05,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013540","phIII.e1k.Plate.16",6,8,"t",1,100,26.82,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013540","phIII.e1k.Plate.16",7,8,"t",1,100,26.94,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013541","phIII.e1k.Plate.16",4,7,"t",1,100,28.47,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013541","phIII.e1k.Plate.16",5,7,"t",1,100,23,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013542","phIII.e1k.Plate.16",6,9,"t",1,100,17.78,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013542","phIII.e1k.Plate.16",7,9,"t",1,100,17.96,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013543","phIII.e1k.Plate.11",4,6,"t",1,100,19.18,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013543","phIII.e1k.Plate.11",5,6,"t",1,100,18.69,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013544","phIII.e1k.VR.Plate.1",4,7,"t",1,10,49.64,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013544","phIII.e1k.VR.Plate.1",5,7,"t",1,10,47.01,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013546","phIII.e1k.Plate.16",2,5,"t",1,100,26.87,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013546","phIII.e1k.Plate.16",3,5,"t",1,100,24.83,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013549","phIII.e1k.Plate.3",4,10,"t",1,20,1.24,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013549","phIII.e1k.Plate.3",5,10,"t",1,20,1.15,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013550","phIII.e1k.VR.Plate.1",4,5,"t",1,0.1,43.47,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013550","phIII.e1k.VR.Plate.1",5,5,"t",1,0.1,42.35,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013551","phIII.e1k.Plate.3",2,6,"t",1,10,25.23,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013551","phIII.e1k.Plate.3",3,6,"t",1,10,25.48,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013553","phIII.e1k.Plate.16",4,3,"t",1,100,27.44,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013553","phIII.e1k.Plate.16",5,3,"t",1,100,22.39,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013554","phIII.e1k.Plate.16",6,10,"t",1,100,26.13,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013554","phIII.e1k.Plate.16",7,10,"t",1,100,28.44,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013555","phIII.e1k.Plate.16",4,10,"t",1,100,27.12,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013555","phIII.e1k.Plate.16",5,10,"t",1,100,22.49,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013557","phIII.e1k.Plate.16",2,4,"t",1,100,34.34,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013557","phIII.e1k.Plate.16",3,4,"t",1,100,35.86,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013560","phIII.e1k.Plate.16",4,9,"t",1,100,24.92,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013560","phIII.e1k.Plate.16",5,9,"t",1,100,24.26,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013563","phIII.e1k.Plate.16",4,8,"t",1,100,27.26,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013563","phIII.e1k.Plate.16",5,8,"t",1,100,20.68,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013565","phIII.e1k.Plate.11",4,7,"t",1,100,19.5,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013565","phIII.e1k.Plate.11",5,7,"t",1,100,25.14,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX013566","phIII.e1k.Plate.3",4,9,"t",1,20,12,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013566","phIII.e1k.Plate.3",5,9,"t",1,20,10.86,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013567","phIII.e1k.Plate.2",4,5,"t",1,100,24.23,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX013567","phIII.e1k.Plate.2",5,5,"t",1,100,23.47,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX013571","phIII.e1k.Plate.3",4,8,"t",1,20,25.28,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013571","phIII.e1k.Plate.3",5,8,"t",1,20,26.25,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013573","phIII.e1k.Plate.3",4,7,"t",1,20,28.3,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013573","phIII.e1k.Plate.3",5,7,"t",1,20,27.98,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013575","phIII.e1k.Plate.3",4,6,"t",1,20,23.23,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013575","phIII.e1k.Plate.3",5,6,"t",1,20,22.28,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013576","phIII.e1k.Plate.17",4,10,"t",1,100,24.59,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013576","phIII.e1k.Plate.17",5,10,"t",1,100,23.71,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013577","phIII.e1k.VR.Plate.3",2,5,"t",1,10,65.4,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX013577","phIII.e1k.VR.Plate.3",3,5,"t",1,10,63.3,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX013578","phIII.e1k.Plate.3",4,5,"t",1,20,26.46,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013578","phIII.e1k.Plate.3",5,5,"t",1,20,23.09,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX013582","phIII.e1k.Plate.17",4,6,"t",1,100,27.64,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013582","phIII.e1k.Plate.17",5,6,"t",1,100,27.31,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX013594","phIII.e1k.Plate.12",2,10,"t",0,100,NA,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013594","phIII.e1k.Plate.12",3,10,"t",1,100,23.36,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013608","phIII.e1k.Plate.12",4,4,"t",1,100,23.45,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013608","phIII.e1k.Plate.12",5,4,"t",1,100,22.91,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX013610","phIII.e1k.VR.Plate.1",6,6,"t",1,0.2,89.99,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013610","phIII.e1k.VR.Plate.1",7,6,"t",1,0.2,40.36,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX013738","phIII.e1k.Plate.2",2,4,"t",1,100,26.43,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX013738","phIII.e1k.Plate.2",3,4,"t",1,100,23.42,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX013755","phIII.e1k.Plate.16",6,7,"t",1,100,27.56,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013755","phIII.e1k.Plate.16",7,7,"t",1,100,26.4,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX013756","phIII.e1k.Plate.4",2,10,"t",1,10.7,25.66,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX013756","phIII.e1k.Plate.4",3,10,"t",1,10.7,26.81,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" -"TX013761","phIII.e1k.VR.Plate.2",2,10,"t",1,0.2,73.35,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX013761","phIII.e1k.VR.Plate.2",3,10,"t",1,0.2,58.9,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX013772","phIII.e1k.Plate.9",4,6,"t",1,10,26.16,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX013772","phIII.e1k.Plate.9",5,6,"t",1,10,24.66,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX013775","phIII.e1k.Plate.18",2,8,"t",1,100,20.7,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX013775","phIII.e1k.Plate.18",3,8,"t",1,100,19.92,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX013776","phIII.e1k.Plate.18",2,6,"t",1,100,19.7,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX013776","phIII.e1k.Plate.18",3,6,"t",1,100,19.04,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX014251","phIII.e1k.Plate.11",4,5,"t",1,100,24.16,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014251","phIII.e1k.Plate.11",5,5,"t",1,100,25.52,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014271","phIII.e1k.Plate.13",6,7,"t",1,5,9.75,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX014271","phIII.e1k.Plate.13",7,7,"t",1,5,7.67,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX014272","phIII.e1k.Plate.13",6,8,"t",1,5,9.43,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX014272","phIII.e1k.Plate.13",7,8,"t",1,5,7.67,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX014277","phIII.e1k.VR.Plate.3",4,10,"t",1,0.92,10.56,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014277","phIII.e1k.VR.Plate.3",5,10,"t",1,0.92,13.25,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014279","phIII.e1k.Plate.5",4,8,"t",1,99.8,24.26,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014279","phIII.e1k.Plate.5",5,8,"t",1,99.8,22.31,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014280","phIII.e1k.Plate.5",4,9,"t",1,100,21.33,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014280","phIII.e1k.Plate.5",5,9,"t",1,100,22.58,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014281","phIII.e1k.VR.Plate.2",2,7,"t",1,10.04,56.57,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014281","phIII.e1k.VR.Plate.2",3,7,"t",1,10.04,60.65,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014344","phIII.e1k.Plate.9",4,3,"t",1,100,24.79,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014344","phIII.e1k.Plate.9",5,3,"t",1,100,23.76,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014346","phIII.e1k.Plate.11",6,8,"t",1,100,19.36,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014346","phIII.e1k.Plate.11",7,8,"t",1,100,20.13,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014347","phIII.e1k.Plate.11",4,3,"t",1,100,22.94,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014347","phIII.e1k.Plate.11",5,3,"t",1,100,25.48,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014349","phIII.e1k.Plate.11",6,7,"t",1,100,27.06,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014349","phIII.e1k.Plate.11",7,7,"t",1,100,26.18,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014357","phIII.e1k.Plate.11",6,3,"t",1,100,26.49,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014357","phIII.e1k.Plate.11",7,3,"t",1,100,26.5,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014358","phIII.e1k.VR.Plate.2",6,10,"t",1,1,54.11,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014358","phIII.e1k.VR.Plate.2",7,10,"t",1,1,56.58,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014360","phIII.e1k.Plate.11",6,9,"t",1,100,13.44,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014360","phIII.e1k.Plate.11",7,9,"t",1,100,11.34,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014362","phIII.e1k.Plate.11",6,5,"t",1,100,28.22,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014362","phIII.e1k.Plate.11",7,5,"t",1,100,23.4,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014364","phIII.e1k.VR.Plate.3",2,7,"t",1,1,54.57,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014364","phIII.e1k.VR.Plate.3",3,7,"t",1,1,55.48,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014377","phIII.e1k.Plate.15",4,7,"t",1,100,25.08,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014377","phIII.e1k.Plate.15",5,7,"t",1,100,23.04,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014380","phIII.e1k.VR.Plate.1",2,7,"t",1,0.1,40.71,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014380","phIII.e1k.VR.Plate.1",3,7,"t",1,0.1,45.84,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014392","phIII.e1k.Plate.16",6,4,"t",1,100,27.79,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014392","phIII.e1k.Plate.16",7,4,"t",1,100,29.69,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014396","phIII.e1k.Plate.17",6,5,"t",1,100,20.55,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014396","phIII.e1k.Plate.17",7,5,"t",1,100,20.15,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014401","phIII.e1k.Plate.17",6,7,"t",1,100,15.1,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014401","phIII.e1k.Plate.17",7,7,"t",1,100,14.24,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014402","phIII.e1k.Plate.17",6,8,"t",1,100,25.3,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014402","phIII.e1k.Plate.17",7,8,"t",1,100,22.07,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014404","phIII.e1k.Plate.17",6,3,"t",1,100,14.24,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014404","phIII.e1k.Plate.17",7,3,"t",1,100,12.7,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014415","phIII.e1k.Plate.17",6,4,"t",1,100,43.03,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014415","phIII.e1k.Plate.17",7,4,"t",1,100,33.92,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014418","phIII.e1k.Plate.2",6,8,"t",1,20,26.23,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014418","phIII.e1k.Plate.2",7,8,"t",1,20,23.8,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014419","phIII.e1k.Plate.17",6,6,"t",1,100,22.01,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014419","phIII.e1k.Plate.17",7,6,"t",1,100,20.64,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX014430","phIII.e1k.VR.Plate.3",6,9,"t",1,1,45.18,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014430","phIII.e1k.VR.Plate.3",7,9,"t",1,1,45.15,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014455","phIII.e1k.Plate.15",4,4,"t",1,100,22.82,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014455","phIII.e1k.Plate.15",5,4,"t",1,100,23.14,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014482","phIII.e1k.Plate.2",6,9,"t",1,5,22.43,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014482","phIII.e1k.Plate.2",7,9,"t",1,5,21.23,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014486","phIII.e1k.Plate.15",4,9,"t",1,100,20.24,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014486","phIII.e1k.Plate.15",5,9,"t",1,100,20.31,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014500","phIII.e1k.Plate.15",4,8,"t",1,100,24.13,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014500","phIII.e1k.Plate.15",5,8,"t",1,100,23.1,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014518","phIII.e1k.Plate.15",4,6,"t",1,99.7,24.44,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014518","phIII.e1k.Plate.15",5,6,"t",1,99.7,23.01,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014524","phIII.e1k.Plate.15",4,5,"t",1,100,21,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014524","phIII.e1k.Plate.15",5,5,"t",1,100,18.97,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014540","phIII.e1k.Plate.9",4,5,"t",1,100,27.06,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014540","phIII.e1k.Plate.9",5,5,"t",1,100,31.2,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014554","phIII.e1k.Plate.9",6,8,"t",1,100,27.78,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014554","phIII.e1k.Plate.9",7,8,"t",1,100,25.44,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014584","phIII.e1k.Plate.15",6,10,"t",1,100,21.43,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014584","phIII.e1k.Plate.15",7,10,"t",1,100,25.29,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014586","phIII.e1k.Plate.15",6,9,"t",1,100,29.15,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014586","phIII.e1k.Plate.15",7,9,"t",1,100,21.67,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014610","phIII.e1k.Plate.15",6,8,"t",1,100,23.1,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014610","phIII.e1k.Plate.15",7,8,"t",1,100,22.33,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014614","phIII.e1k.Plate.15",6,7,"t",1,100,18.64,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014614","phIII.e1k.Plate.15",7,7,"t",1,100,22.98,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014626","phIII.e1k.Plate.15",6,6,"t",1,100,8.38,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014626","phIII.e1k.Plate.15",7,6,"t",1,100,9.09,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014641","phIII.e1k.Plate.16",2,9,"t",1,100,24.97,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014641","phIII.e1k.Plate.16",3,9,"t",1,100,25.2,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014644","phIII.e1k.Plate.14",6,3,"t",1,100,23.23,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014644","phIII.e1k.Plate.14",7,3,"t",1,100,25.27,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014648","phIII.e1k.Plate.14",6,4,"t",1,10,25.78,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014648","phIII.e1k.Plate.14",7,4,"t",1,10,22.51,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014654","phIII.e1k.Plate.15",2,10,"t",1,100,21.23,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014654","phIII.e1k.Plate.15",3,10,"t",1,100,22.12,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014671","phIII.e1k.Plate.14",6,5,"t",1,50,27.66,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014671","phIII.e1k.Plate.14",7,5,"t",1,50,25.71,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014674","phIII.e1k.Plate.5",4,4,"t",1,100,24.35,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014674","phIII.e1k.Plate.5",5,4,"t",1,100,23.16,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014675","phIII.e1k.Plate.5",6,5,"t",1,100,25.65,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014675","phIII.e1k.Plate.5",7,5,"t",1,100,27.91,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014676","phIII.e1k.Plate.5",4,3,"t",1,100,23.75,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014676","phIII.e1k.Plate.5",5,3,"t",1,100,23.44,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014677","phIII.e1k.Plate.5",4,7,"t",1,100,18.03,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014677","phIII.e1k.Plate.5",5,7,"t",1,100,16.78,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014678","phIII.e1k.Plate.5",4,6,"t",1,100,23.68,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014678","phIII.e1k.Plate.5",5,6,"t",1,100,24.1,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014679","phIII.e1k.Plate.5",6,6,"t",1,99.9,23.82,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014679","phIII.e1k.Plate.5",7,6,"t",1,99.9,24.14,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014680","phIII.e1k.Plate.5",6,7,"t",1,100,21.12,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014680","phIII.e1k.Plate.5",7,7,"t",1,100,21.53,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014681","phIII.e1k.Plate.5",6,8,"t",1,100,23.16,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014681","phIII.e1k.Plate.5",7,8,"t",1,100,21.95,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014686","phIII.e1k.Plate.14",6,6,"t",1,100,24.74,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014686","phIII.e1k.Plate.14",7,6,"t",1,100,25.9,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014712","phIII.e1k.Plate.5",4,5,"t",1,100,24.46,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014712","phIII.e1k.Plate.5",5,5,"t",1,100,24.8,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014713","phIII.e1k.Plate.5",6,4,"t",1,100.3,23.57,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014713","phIII.e1k.Plate.5",7,4,"t",1,100.3,22.66,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014714","phIII.e1k.Plate.5",6,9,"t",1,100,24.26,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014714","phIII.e1k.Plate.5",7,9,"t",1,100,23.44,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014715","phIII.e1k.Plate.5",6,10,"t",1,100.2,24.62,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014715","phIII.e1k.Plate.5",7,10,"t",1,100.2,25,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014716","phIII.e1k.Plate.5",6,3,"t",1,100,22.88,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014716","phIII.e1k.Plate.5",7,3,"t",1,100,22.72,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014717","phIII.e1k.Plate.6",2,10,"t",1,100,29.46,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014717","phIII.e1k.Plate.6",3,10,"t",1,100,29.33,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014718","phIII.e1k.Plate.6",2,9,"t",1,100.7,25.88,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014718","phIII.e1k.Plate.6",3,9,"t",1,100.7,24.47,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014719","phIII.e1k.Plate.6",2,8,"t",1,100.2,26.51,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014719","phIII.e1k.Plate.6",3,8,"t",1,100.2,25.74,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014720","phIII.e1k.Plate.6",2,7,"t",1,100.1,25.76,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014720","phIII.e1k.Plate.6",3,7,"t",1,100.1,26.09,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014721","phIII.e1k.Plate.6",2,6,"t",1,100,29.06,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014721","phIII.e1k.Plate.6",3,6,"t",1,100,21.02,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014722","phIII.e1k.Plate.6",2,5,"t",1,100,25,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014722","phIII.e1k.Plate.6",3,5,"t",1,100,26.98,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014723","phIII.e1k.Plate.6",2,4,"t",1,100,25.22,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014723","phIII.e1k.Plate.6",3,4,"t",1,100,24.38,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014724","phIII.e1k.Plate.6",2,3,"t",1,100,27.09,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014724","phIII.e1k.Plate.6",3,3,"t",1,100,23.1,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014725","phIII.e1k.Plate.6",4,10,"t",1,100,26.52,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014725","phIII.e1k.Plate.6",5,10,"t",1,100,23.03,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014726","phIII.e1k.Plate.6",4,9,"t",1,100,23.53,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014726","phIII.e1k.Plate.6",5,9,"t",1,100,22.9,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014727","phIII.e1k.Plate.6",4,8,"t",1,100,30.49,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014727","phIII.e1k.Plate.6",5,8,"t",1,100,25.25,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014728","phIII.e1k.Plate.6",4,7,"t",1,100.3,26.57,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014728","phIII.e1k.Plate.6",5,7,"t",1,100.3,22.08,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014729","phIII.e1k.Plate.6",4,6,"t",1,100,26.71,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014729","phIII.e1k.Plate.6",5,6,"t",1,100,21.78,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014730","phIII.e1k.Plate.12",6,3,"t",1,5,10.47,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX014730","phIII.e1k.Plate.12",7,3,"t",1,5,10.65,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX014741","phIII.e1k.Plate.16",2,10,"t",1,100,26.9,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014741","phIII.e1k.Plate.16",3,10,"t",1,100,27.29,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014752","phIII.e1k.Plate.16",2,8,"t",1,100,5.78,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014752","phIII.e1k.Plate.16",3,8,"t",1,100,8.49,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014760","phIII.e1k.Plate.11",4,8,"t",1,100,19.4,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014760","phIII.e1k.Plate.11",5,8,"t",1,100,19.66,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX014765","phIII.e1k.Plate.13",6,6,"t",1,8.4,4.52,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX014765","phIII.e1k.Plate.13",7,6,"t",1,8.4,3.85,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX014768","phIII.e1k.Plate.16",2,7,"t",1,100,23.86,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014768","phIII.e1k.Plate.16",3,7,"t",1,100,28.14,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX014774","phIII.e1k.Plate.9",6,5,"t",1,100,28.38,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014774","phIII.e1k.Plate.9",7,5,"t",1,100,24.04,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014823","phIII.e1k.Plate.15",6,5,"t",1,100,27,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014823","phIII.e1k.Plate.15",7,5,"t",1,100,23.61,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014824","phIII.e1k.VR.Plate.3",4,5,"t",1,10,15.76,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014824","phIII.e1k.VR.Plate.3",5,5,"t",1,10,23.57,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014830","phIII.e1k.Plate.15",6,3,"t",1,100,28.7,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014830","phIII.e1k.Plate.15",7,3,"t",1,100,29.57,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014832","phIII.e1k.Plate.7",2,7,"t",1,100,24.72,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014832","phIII.e1k.Plate.7",3,7,"t",1,100,22.2,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014833","phIII.e1k.Plate.7",2,6,"t",1,100,35.04,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014833","phIII.e1k.Plate.7",3,6,"t",1,100,39.38,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014835","phIII.e1k.Plate.14",2,9,"t",1,100,24.17,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014835","phIII.e1k.Plate.14",3,9,"t",1,100,21.9,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014837","phIII.e1k.Plate.7",4,7,"t",1,100,15.89,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014837","phIII.e1k.Plate.7",5,7,"t",1,100,16.77,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014839","phIII.e1k.Plate.3",2,8,"t",1,100,28.13,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX014839","phIII.e1k.Plate.3",3,8,"t",1,100,22.22,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX014843","phIII.e1k.Plate.7",4,5,"t",1,100,25.77,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014843","phIII.e1k.Plate.7",5,5,"t",1,100,25.65,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014844","phIII.e1k.Plate.7",4,6,"t",1,100,24.6,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014844","phIII.e1k.Plate.7",5,6,"t",1,100,23.56,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014845","phIII.e1k.Plate.7",4,8,"t",1,100,30.3,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014845","phIII.e1k.Plate.7",5,8,"t",1,100,32.78,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014846","phIII.e1k.Plate.7",4,9,"t",1,100,4.53,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014846","phIII.e1k.Plate.7",5,9,"t",1,100,4.36,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014847","phIII.e1k.Plate.7",4,10,"t",1,100,26.47,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014847","phIII.e1k.Plate.7",5,10,"t",1,100,26.55,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014848","phIII.e1k.VR.Plate.2",4,7,"t",1,10,34.42,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014848","phIII.e1k.VR.Plate.2",5,7,"t",1,10,31.42,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014850","phIII.e1k.Plate.14",2,10,"t",1,100,25,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014850","phIII.e1k.Plate.14",3,10,"t",1,100,23.67,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" -"TX014853","phIII.e1k.Plate.7",2,3,"t",1,100,27.03,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014853","phIII.e1k.Plate.7",3,3,"t",1,100,28.53,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014854","phIII.e1k.Plate.7",4,4,"t",1,100,26.51,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014854","phIII.e1k.Plate.7",5,4,"t",1,100,23.99,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014855","phIII.e1k.Plate.7",4,3,"t",1,50,16.46,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014855","phIII.e1k.Plate.7",5,3,"t",1,50,18.97,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014856","phIII.e1k.Plate.7",6,10,"t",1,100,29,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014856","phIII.e1k.Plate.7",7,10,"t",1,100,25.55,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014857","phIII.e1k.Plate.7",6,9,"t",1,100,24.32,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014857","phIII.e1k.Plate.7",7,9,"t",1,100,21.45,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014858","phIII.e1k.Plate.7",6,8,"t",1,50,20.2,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014858","phIII.e1k.Plate.7",7,8,"t",1,50,21.79,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014859","phIII.e1k.Plate.7",6,7,"t",1,100,24.23,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014859","phIII.e1k.Plate.7",7,7,"t",1,100,23.49,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014860","phIII.e1k.Plate.7",6,6,"t",1,100,25.64,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014860","phIII.e1k.Plate.7",7,6,"t",1,100,21,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014861","phIII.e1k.Plate.7",6,5,"t",1,100,21.2,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014861","phIII.e1k.Plate.7",7,5,"t",1,100,22.95,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014862","phIII.e1k.Plate.7",6,4,"t",1,100,26.9,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014862","phIII.e1k.Plate.7",7,4,"t",1,100,21.39,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014863","phIII.e1k.Plate.7",6,3,"t",1,100,22.12,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014863","phIII.e1k.Plate.7",7,3,"t",1,100,23.06,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014864","phIII.e1k.Plate.8",2,10,"t",1,100,26.26,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014864","phIII.e1k.Plate.8",3,10,"t",1,100,23.22,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014865","phIII.e1k.Plate.8",2,9,"t",1,100,23.88,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014865","phIII.e1k.Plate.8",3,9,"t",1,100,22.45,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014866","phIII.e1k.VR.Plate.2",2,3,"t",1,10,9.29,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014866","phIII.e1k.VR.Plate.2",3,3,"t",0,10,NA,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014867","phIII.e1k.VR.Plate.2",4,10,"t",1,5,52.28,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014867","phIII.e1k.VR.Plate.2",5,10,"t",0,5,NA,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014868","phIII.e1k.Plate.8",2,6,"t",1,100,27.62,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014868","phIII.e1k.Plate.8",3,6,"t",1,100,24.53,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014869","phIII.e1k.Plate.8",2,5,"t",1,99.8,24.08,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014869","phIII.e1k.Plate.8",3,5,"t",1,99.8,23.24,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014870","phIII.e1k.Plate.8",2,3,"t",1,99.8,26.71,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014870","phIII.e1k.Plate.8",3,3,"t",1,99.8,22.83,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014871","phIII.e1k.VR.Plate.2",4,6,"t",1,1,57.06,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014871","phIII.e1k.VR.Plate.2",5,6,"t",1,1,55.19,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014872","phIII.e1k.Plate.8",4,9,"t",1,100,22.11,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014872","phIII.e1k.Plate.8",5,9,"t",1,100,23.08,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014873","phIII.e1k.Plate.8",4,8,"t",1,100.3,21.3,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014873","phIII.e1k.Plate.8",5,8,"t",1,100.3,26.03,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014874","phIII.e1k.Plate.8",4,7,"t",1,100,22.71,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014874","phIII.e1k.Plate.8",5,7,"t",1,100,27.66,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014875","phIII.e1k.Plate.8",4,6,"t",1,100,31.18,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014875","phIII.e1k.Plate.8",5,6,"t",1,100,31.56,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014876","phIII.e1k.Plate.8",4,5,"t",1,100,31.06,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014876","phIII.e1k.Plate.8",5,5,"t",1,100,30.01,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" -"TX014877","phIII.e1k.Plate.5",2,6,"t",1,100,19.18,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014877","phIII.e1k.Plate.5",3,6,"t",1,100,22.66,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014878","phIII.e1k.Plate.5",2,5,"t",1,100,24.22,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014878","phIII.e1k.Plate.5",3,5,"t",1,100,24.31,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014879","phIII.e1k.Plate.5",2,3,"t",1,100,21.27,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014879","phIII.e1k.Plate.5",3,3,"t",1,100,21.94,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014880","phIII.e1k.Plate.5",2,4,"t",1,100,21.76,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014880","phIII.e1k.Plate.5",3,4,"t",1,100,24.07,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" -"TX014881","phIII.e1k.VR.Plate.2",2,6,"t",1,1,57.12,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014881","phIII.e1k.VR.Plate.2",3,6,"t",1,1,61.98,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014882","phIII.e1k.Plate.6",6,9,"t",1,100,23.93,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014882","phIII.e1k.Plate.6",7,9,"t",1,100,20.1,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014883","phIII.e1k.VR.Plate.2",2,4,"t",1,10,35.82,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014883","phIII.e1k.VR.Plate.2",3,4,"t",1,10,42.76,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014884","phIII.e1k.Plate.6",6,7,"t",1,100,27.45,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014884","phIII.e1k.Plate.6",7,7,"t",1,100,28.68,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014885","phIII.e1k.VR.Plate.2",4,9,"t",1,10,60.93,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014885","phIII.e1k.VR.Plate.2",5,9,"t",1,10,66.61,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014886","phIII.e1k.Plate.6",6,5,"t",1,100,25.34,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014886","phIII.e1k.Plate.6",7,5,"t",1,100,23.1,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014887","phIII.e1k.Plate.6",6,4,"t",1,100,25.2,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014887","phIII.e1k.Plate.6",7,4,"t",1,100,24.99,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014888","phIII.e1k.Plate.6",6,3,"t",1,100,22.13,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014888","phIII.e1k.Plate.6",7,3,"t",1,100,22.02,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014889","phIII.e1k.Plate.7",2,10,"t",1,100,24.59,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014889","phIII.e1k.Plate.7",3,10,"t",1,100,21.39,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014890","phIII.e1k.Plate.7",2,9,"t",1,100,24.85,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014890","phIII.e1k.Plate.7",3,9,"t",1,100,21.53,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014891","phIII.e1k.Plate.7",2,8,"t",1,100,33.25,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014891","phIII.e1k.Plate.7",3,8,"t",1,100,32.94,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" -"TX014892","phIII.e1k.VR.Plate.1",4,3,"t",1,1,46.2,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014892","phIII.e1k.VR.Plate.1",5,3,"t",1,1,45.17,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014893","phIII.e1k.Plate.2",2,5,"t",1,100,23.61,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014893","phIII.e1k.Plate.2",3,5,"t",1,100,22.37,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014894","phIII.e1k.VR.Plate.2",4,8,"t",1,10,54.01,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014894","phIII.e1k.VR.Plate.2",5,8,"t",1,10,56,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014896","phIII.e1k.Plate.6",4,4,"t",1,100,24.69,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014896","phIII.e1k.Plate.6",5,4,"t",1,100,21.35,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014897","phIII.e1k.Plate.6",6,10,"t",1,100,22.11,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014897","phIII.e1k.Plate.6",7,10,"t",1,100,22.71,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" -"TX014898","phIII.e1k.Plate.13",6,3,"t",1,100,28.07,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX014898","phIII.e1k.Plate.13",7,3,"t",1,100,26,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" -"TX014901","phIII.e1k.VR.Plate.2",4,4,"t",1,10,54.79,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014901","phIII.e1k.VR.Plate.2",5,4,"t",1,10,51.71,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX014902","phIII.e1k.Plate.1",6,8,"t",1,100,48.73,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014902","phIII.e1k.Plate.1",7,8,"t",1,100,44.85,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014903","phIII.e1k.Plate.1",6,7,"t",1,100,52.84,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014903","phIII.e1k.Plate.1",7,7,"t",1,100,62.04,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014904","phIII.e1k.Plate.1",6,6,"t",1,50,55.15,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014904","phIII.e1k.Plate.1",7,6,"t",1,50,58.39,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014905","phIII.e1k.VR.Plate.1",6,8,"t",1,1,85.37,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014905","phIII.e1k.VR.Plate.1",7,8,"t",1,1,47.33,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014906","phIII.e1k.Plate.1",6,4,"t",1,100,85.52,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014906","phIII.e1k.Plate.1",7,4,"t",1,100,86.72,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014907","phIII.e1k.Plate.1",6,3,"t",1,100,41.17,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014907","phIII.e1k.Plate.1",7,3,"t",1,100,38.97,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014908","phIII.e1k.Plate.2",2,10,"t",1,100,29.51,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014908","phIII.e1k.Plate.2",3,10,"t",1,100,24.91,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014909","phIII.e1k.Plate.2",2,9,"t",1,100,27.57,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014909","phIII.e1k.Plate.2",3,9,"t",1,100,24.23,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014910","phIII.e1k.Plate.2",2,8,"t",1,100,26.26,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014910","phIII.e1k.Plate.2",3,8,"t",1,100,26.83,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014911","phIII.e1k.Plate.2",2,7,"t",1,100,26.67,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014911","phIII.e1k.Plate.2",3,7,"t",1,100,21.53,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX014912","phIII.e1k.VR.Plate.1",2,10,"t",1,0.5,16.88,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014912","phIII.e1k.VR.Plate.1",3,10,"t",1,0.5,12.69,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014913","phIII.e1k.Plate.1",4,9,"t",1,50,96.85,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014913","phIII.e1k.Plate.1",5,9,"t",1,50,97.33,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014914","phIII.e1k.Plate.1",4,8,"t",1,100,34.8,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014914","phIII.e1k.Plate.1",5,8,"t",1,100,38.42,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014915","phIII.e1k.VR.Plate.1",4,8,"t",1,10,55,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014915","phIII.e1k.VR.Plate.1",5,8,"t",1,10,51.44,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014916","phIII.e1k.Plate.1",4,6,"t",1,100,58.19,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014916","phIII.e1k.Plate.1",5,6,"t",1,100,58.57,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014917","phIII.e1k.Plate.1",4,5,"t",1,50,54.52,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014917","phIII.e1k.Plate.1",5,5,"t",1,50,57.09,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014918","phIII.e1k.Plate.1",4,4,"t",1,100,17.8,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014918","phIII.e1k.Plate.1",5,4,"t",1,100,19.12,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014919","phIII.e1k.VR.Plate.1",2,9,"t",1,10,43.18,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014919","phIII.e1k.VR.Plate.1",3,9,"t",1,10,53.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014920","phIII.e1k.VR.Plate.1",6,3,"t",1,1,10.19,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014920","phIII.e1k.VR.Plate.1",7,3,"t",1,1,7.17,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" -"TX014921","phIII.e1k.Plate.1",6,9,"t",1,100,48.59,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014921","phIII.e1k.Plate.1",7,9,"t",1,100,52.76,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014922","phIII.e1k.Plate.9",2,4,"t",1,100,20.04,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014922","phIII.e1k.Plate.9",3,4,"t",1,100,18.28,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014923","phIII.e1k.Plate.9",2,3,"t",1,100,28.1,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014923","phIII.e1k.Plate.9",3,3,"t",1,100,25.37,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014924","phIII.e1k.Plate.1",2,10,"t",1,100,48.93,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014924","phIII.e1k.Plate.1",3,10,"t",1,100,53.88,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014925","phIII.e1k.Plate.1",2,9,"t",1,100,53.83,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014925","phIII.e1k.Plate.1",3,9,"t",1,100,50.21,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014926","phIII.e1k.Plate.1",2,8,"t",1,100,55.65,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014926","phIII.e1k.Plate.1",3,8,"t",1,100,57.69,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014927","phIII.e1k.Plate.1",2,7,"t",1,100,58.12,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014927","phIII.e1k.Plate.1",3,7,"t",1,100,58.65,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014928","phIII.e1k.Plate.1",2,6,"t",1,100,46.89,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014928","phIII.e1k.Plate.1",3,6,"t",1,100,55.72,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014929","phIII.e1k.Plate.1",2,5,"t",1,50,46.82,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014929","phIII.e1k.Plate.1",3,5,"t",1,50,55.7,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014930","phIII.e1k.Plate.1",2,4,"t",1,50,45.58,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014930","phIII.e1k.Plate.1",3,4,"t",1,50,50.76,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014931","phIII.e1k.Plate.1",2,3,"t",1,100,43.46,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014931","phIII.e1k.Plate.1",3,3,"t",1,100,46.73,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" -"TX014932","phIII.e1k.Plate.15",2,5,"t",1,100,24.29,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014932","phIII.e1k.Plate.15",3,5,"t",1,100,24.09,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014962","phIII.e1k.Plate.15",2,4,"t",1,100,20.66,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014962","phIII.e1k.Plate.15",3,4,"t",1,100,19.12,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014970","phIII.e1k.VR.Plate.3",6,10,"t",1,10,60.03,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014970","phIII.e1k.VR.Plate.3",7,10,"t",1,10,65.74,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014971","phIII.e1k.Plate.15",4,10,"t",1,100,13.25,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014971","phIII.e1k.Plate.15",5,10,"t",1,100,12.58,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX014985","phIII.e1k.VR.Plate.3",2,9,"t",1,1,61.93,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014985","phIII.e1k.VR.Plate.3",3,9,"t",1,1,57.41,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX014994","phIII.e1k.Plate.9",6,7,"t",1,100,27.03,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX014994","phIII.e1k.Plate.9",7,7,"t",1,100,27.78,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX015088","phIII.e1k.VR.Plate.2",6,8,"t",1,10,69.95,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX015088","phIII.e1k.VR.Plate.2",7,8,"t",1,10,65.4,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX015102","phIII.e1k.Plate.12",6,8,"t",0,100,NA,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015102","phIII.e1k.Plate.12",7,8,"t",1,100,22.34,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015108","phIII.e1k.VR.Plate.2",6,9,"t",1,1,50.92,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX015108","phIII.e1k.VR.Plate.2",7,9,"t",1,1,46.2,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX015116","phIII.e1k.Plate.2",4,4,"t",1,10,24.6,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015116","phIII.e1k.Plate.2",5,4,"t",1,10,21.85,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015122","phIII.e1k.Plate.12",4,8,"t",0,20,NA,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015122","phIII.e1k.Plate.12",5,8,"t",1,20,26.72,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015165","phIII.e1k.Plate.15",2,6,"t",1,100,27.86,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX015165","phIII.e1k.Plate.15",3,6,"t",1,100,22.45,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX015169","phIII.e1k.Plate.15",2,7,"t",1,100,21.09,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX015169","phIII.e1k.Plate.15",3,7,"t",1,100,23.35,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX015170","phIII.e1k.Plate.9",4,4,"t",1,100,25.83,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX015170","phIII.e1k.Plate.9",5,4,"t",1,100,24.06,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX015183","phIII.e1k.VR.Plate.3",6,6,"t",1,10,59.56,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015183","phIII.e1k.VR.Plate.3",7,6,"t",1,10,59.94,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015192","phIII.e1k.Plate.11",6,4,"t",1,100,29,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015192","phIII.e1k.Plate.11",7,4,"t",1,100,24.24,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015203","phIII.e1k.VR.Plate.3",2,4,"t",1,1,59.46,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015203","phIII.e1k.VR.Plate.3",3,4,"t",1,1,58.88,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015208","phIII.e1k.Plate.11",2,6,"t",1,100,20.85,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015208","phIII.e1k.Plate.11",3,6,"t",1,100,25.86,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015215","phIII.e1k.VR.Plate.3",4,9,"t",1,1,54.63,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015215","phIII.e1k.VR.Plate.3",5,9,"t",1,1,58.33,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015217","phIII.e1k.Plate.15",2,8,"t",1,100,12.75,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX015217","phIII.e1k.Plate.15",3,8,"t",1,100,12.94,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" -"TX015224","phIII.e1k.Plate.2",4,3,"t",1,20,17.27,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015224","phIII.e1k.Plate.2",5,3,"t",1,20,14.24,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015226","phIII.e1k.Plate.17",4,7,"t",1,100,24.46,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015226","phIII.e1k.Plate.17",5,7,"t",1,100,25.24,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015239","phIII.e1k.VR.Plate.2",4,3,"t",1,0.5,44.31,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX015239","phIII.e1k.VR.Plate.2",5,3,"t",1,0.5,49.49,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX015272","phIII.e1k.Plate.16",4,6,"t",1,100,26.27,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX015272","phIII.e1k.Plate.16",5,6,"t",1,100,22.98,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" -"TX015277","phIII.e1k.Plate.17",4,3,"t",1,10,23.01,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015277","phIII.e1k.Plate.17",5,3,"t",1,10,24.72,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015309","phIII.e1k.Plate.12",2,5,"t",1,20,22.85,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015309","phIII.e1k.Plate.12",3,5,"t",1,20,27.7,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015310","phIII.e1k.Plate.12",2,4,"t",1,20,26.68,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015310","phIII.e1k.Plate.12",3,4,"t",1,20,23.47,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015311","phIII.e1k.Plate.12",2,6,"t",1,20,23.35,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015311","phIII.e1k.Plate.12",3,6,"t",1,20,27.56,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015312","phIII.e1k.VR.Plate.3",2,10,"t",1,2,59.81,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015312","phIII.e1k.VR.Plate.3",3,10,"t",1,2,61.32,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015313","phIII.e1k.Plate.18",2,7,"t",1,20,25.85,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015313","phIII.e1k.Plate.18",3,7,"t",1,20,23.74,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015314","phIII.e1k.Plate.12",2,9,"t",1,20,21.69,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015314","phIII.e1k.Plate.12",3,9,"t",0,20,NA,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015315","phIII.e1k.Plate.18",2,5,"t",1,20,22.36,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015315","phIII.e1k.Plate.18",3,5,"t",1,20,23.46,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015317","phIII.e1k.Plate.18",2,10,"t",1,20,30.2,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015317","phIII.e1k.Plate.18",3,10,"t",1,20,25.86,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015319","phIII.e1k.Plate.12",2,3,"t",1,20,22.67,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015319","phIII.e1k.Plate.12",3,3,"t",1,20,21.68,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015320","phIII.e1k.Plate.12",4,10,"t",1,20,27.88,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015320","phIII.e1k.Plate.12",5,10,"t",1,20,25.22,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015321","phIII.e1k.Plate.18",2,9,"t",1,20,23.83,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015321","phIII.e1k.Plate.18",3,9,"t",1,20,25.4,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015322","phIII.e1k.Plate.17",6,9,"t",1,20,23.94,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015322","phIII.e1k.Plate.17",7,9,"t",1,20,24.76,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015324","phIII.e1k.Plate.12",2,8,"t",1,20,23.97,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015324","phIII.e1k.Plate.12",3,8,"t",0,20,NA,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" -"TX015325","phIII.e1k.Plate.17",4,4,"t",1,20,24.18,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015325","phIII.e1k.Plate.17",5,4,"t",1,20,23.57,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015326","phIII.e1k.Plate.17",6,10,"t",1,20,27.56,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015326","phIII.e1k.Plate.17",7,10,"t",1,20,25.34,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" -"TX015358","phIII.e1k.Plate.2",6,5,"t",1,20,21.84,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015358","phIII.e1k.Plate.2",7,5,"t",1,20,24.07,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015359","phIII.e1k.Plate.2",6,3,"t",1,20,26.16,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015359","phIII.e1k.Plate.2",7,3,"t",1,20,23.61,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015360","phIII.e1k.Plate.2",6,4,"t",1,20,23.73,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015360","phIII.e1k.Plate.2",7,4,"t",1,20,26.46,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" -"TX015362","phIII.e1k.Plate.3",2,10,"t",1,20,35.66,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX015362","phIII.e1k.Plate.3",3,10,"t",1,20,35.7,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX015363","phIII.e1k.Plate.3",2,9,"t",1,20,22,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX015363","phIII.e1k.Plate.3",3,9,"t",1,20,22.28,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" -"TX015364","phIII.e1k.Plate.9",6,4,"t",1,20,28.65,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX015364","phIII.e1k.Plate.9",7,4,"t",1,20,26.54,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX015366","phIII.e1k.Plate.9",6,3,"t",1,20,21.83,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX015366","phIII.e1k.Plate.9",7,3,"t",1,20,24.03,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" -"TX015367","phIII.e1k.Plate.10",2,10,"t",1,20,21.95,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015367","phIII.e1k.Plate.10",3,10,"t",1,20,23.96,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015370","phIII.e1k.Plate.10",2,9,"t",1,20,22.71,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015370","phIII.e1k.Plate.10",3,9,"t",1,20,23.75,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015371","phIII.e1k.Plate.10",2,8,"t",1,20,25.61,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015371","phIII.e1k.Plate.10",3,8,"t",1,20,29.68,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015372","phIII.e1k.Plate.10",2,7,"t",1,20,23.58,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015372","phIII.e1k.Plate.10",3,7,"t",1,20,29.01,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015373","phIII.e1k.Plate.10",2,6,"t",1,20,24.12,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015373","phIII.e1k.Plate.10",3,6,"t",1,20,28.85,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015374","phIII.e1k.Plate.10",2,5,"t",1,20,27.38,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015374","phIII.e1k.Plate.10",3,5,"t",1,20,25.09,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015375","phIII.e1k.Plate.10",2,4,"t",1,20,32.39,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015375","phIII.e1k.Plate.10",3,4,"t",1,20,33.31,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015376","phIII.e1k.Plate.10",2,3,"t",1,20,24.25,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015376","phIII.e1k.Plate.10",3,3,"t",1,20,27.04,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015377","phIII.e1k.Plate.10",4,10,"t",1,20,30.46,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015377","phIII.e1k.Plate.10",5,10,"t",1,20,28.92,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015378","phIII.e1k.Plate.10",4,9,"t",1,20,25.67,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015378","phIII.e1k.Plate.10",5,9,"t",1,20,23.34,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015379","phIII.e1k.Plate.10",4,8,"t",1,20,20.1,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015379","phIII.e1k.Plate.10",5,8,"t",1,20,21.44,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015381","phIII.e1k.Plate.10",4,7,"t",1,20,25.72,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015381","phIII.e1k.Plate.10",5,7,"t",1,20,25.06,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015382","phIII.e1k.Plate.10",4,6,"t",1,20,20.35,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015382","phIII.e1k.Plate.10",5,6,"t",1,20,20.22,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015383","phIII.e1k.VR.Plate.3",2,6,"t",1,2,4.08,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015383","phIII.e1k.VR.Plate.3",3,6,"t",1,2,4.91,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015384","phIII.e1k.Plate.10",4,4,"t",1,20,25.19,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015384","phIII.e1k.Plate.10",5,4,"t",1,20,25.82,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015386","phIII.e1k.Plate.10",4,3,"t",1,20,19.53,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015386","phIII.e1k.Plate.10",5,3,"t",1,20,20,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015389","phIII.e1k.Plate.10",6,10,"t",1,20,25.54,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015389","phIII.e1k.Plate.10",7,10,"t",1,20,30.17,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015390","phIII.e1k.Plate.10",6,9,"t",1,20,25.75,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015390","phIII.e1k.Plate.10",7,9,"t",1,20,21.93,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015391","phIII.e1k.Plate.10",6,8,"t",1,20,22.23,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015391","phIII.e1k.Plate.10",7,8,"t",1,20,22.22,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015392","phIII.e1k.Plate.10",6,7,"t",1,20,27.34,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015392","phIII.e1k.Plate.10",7,7,"t",1,20,28.06,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015393","phIII.e1k.VR.Plate.3",2,8,"t",1,2,57.7,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015393","phIII.e1k.VR.Plate.3",3,8,"t",1,2,61.14,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" -"TX015394","phIII.e1k.Plate.10",6,5,"t",1,20,27.29,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015394","phIII.e1k.Plate.10",7,5,"t",1,20,24.74,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015396","phIII.e1k.Plate.10",6,4,"t",1,20,25.54,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015396","phIII.e1k.Plate.10",7,4,"t",1,20,26.02,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015397","phIII.e1k.Plate.10",6,3,"t",1,20,23.72,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015397","phIII.e1k.Plate.10",7,3,"t",1,20,26.14,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" -"TX015398","phIII.e1k.Plate.11",2,10,"t",1,20,20.31,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015398","phIII.e1k.Plate.11",3,10,"t",1,20,27.84,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015405","phIII.e1k.VR.Plate.2",6,7,"t",1,2,57.17,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX015405","phIII.e1k.VR.Plate.2",7,7,"t",1,2,57.42,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" -"TX015406","phIII.e1k.Plate.11",2,8,"t",1,20,22.78,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015406","phIII.e1k.Plate.11",3,8,"t",1,20,25.96,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015407","phIII.e1k.Plate.11",2,7,"t",1,20,21.25,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015407","phIII.e1k.Plate.11",3,7,"t",1,20,22.95,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" -"TX015527","phIII.e1k.Plate.18",2,3,"t",1,5,23.08,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX015527","phIII.e1k.Plate.18",3,3,"t",1,5,18.87,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" -"TX1012716","TP0001113.Plate.20",4,4,"t",1,100,61.5,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX1012716","TP0001113.Plate.20",5,4,"t",1,100,61.97,"TP0001113 Plate 20_Ceetox.csv","cort" -"TX1012717","TP0001109.Plate.3",6,8,"t",1,100,56.03,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX1012717","TP0001109.Plate.3",7,8,"t",1,100,57.32,"TP0001109 Plate 3_Ceetox.csv","cort" -"TX1012721","TP0001113.Plate.18",2,9,"t",1,50,46,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX1012721","TP0001113.Plate.18",3,9,"t",1,50,59.56,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX1012726","TP0001113.Plate.17",2,7,"t",1,100,41.38,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX1012726","TP0001113.Plate.17",3,7,"t",1,100,51.61,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX1012735","TP0001114.Plate.23",2,6,"t",1,100,54.44,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX1012735","TP0001114.Plate.23",3,6,"t",1,100,58.2,"TP0001114 Plate 23_Ceetox.csv","cort" -"TX101701","TP0001112.Plate.15",6,10,"t",1,100,77.01,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX101701","TP0001112.Plate.15",7,10,"t",1,100,70.31,"TP0001112 Plate 15_Ceetox.csv","cort" -"TX101787","TP0001113.Plate.18",4,8,"t",1,100,54.79,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX101787","TP0001113.Plate.18",5,8,"t",1,100,58.45,"TP0001113 Plate 18_Ceetox.csv","cort" -"TX103292","TP0001109.Plate.4",6,8,"t",1,100,54.84,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX103292","TP0001109.Plate.4",7,8,"t",1,100,58.81,"TP0001109 Plate 4_Ceetox.csv","cort" -"TX109150","TP0001056.Plate.10",2,5,"t",1,10,16.94,"TP0001056 Plate 10_CeeTox.csv","cort" -"TX109150","TP0001056.Plate.10",3,5,"t",1,10,16.75,"TP0001056 Plate 10_CeeTox.csv","cort" -"TX110870","TP0001061.Plate.16",2,8,"t",1,100,21.59,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX110870","TP0001061.Plate.16",3,8,"t",1,100,25.09,"TP0001061 Plate 16_CeeTox.csv","cort" -"TX112294","TP0001113.Plate.17",2,6,"t",1,100,45.61,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX112294","TP0001113.Plate.17",3,6,"t",1,100,53.2,"TP0001113 Plate 17_Ceetox.csv","cort" -"TX112302","TP0001113.Plate.19",4,4,"t",1,100,66.26,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX112302","TP0001113.Plate.19",5,4,"t",1,100,68.32,"TP0001113 Plate 19_Ceetox.csv","cort" -"TX112325","TP0000884.Plate.3",2,3,"t",1,10,10.4885750938418,"TP0000884 Plate 3A.xlsx","cort" -"TX112325","TP0000884.Plate.3",3,3,"t",1,10,12.9530846558784,"TP0000884 Plate 3A.xlsx","cort" -"TX209150","TP0001061.Plate.13",4,6,"t",1,10,20.07,"TP0001061 Plate 13_CeeTox.csv","cort" -"TX209150","TP0001061.Plate.13",5,6,"t",1,10,18.62,"TP0001061 Plate 13_CeeTox.csv","cort" -"TX210870","TP0001061.Plate.14",4,6,"t",1,100,28.37,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX210870","TP0001061.Plate.14",5,6,"t",1,100,28.44,"TP0001061 Plate 14_CeeTox.csv","cort" -"TX212325","TP0000885.Plate.1",2,6,"t",1,10,7.96164074421752,"TP0000885 Plate 1A.xlsx","cort" -"TX212325","TP0000885.Plate.1",3,6,"t",1,10,8.7538192114488,"TP0000885 Plate 1A.xlsx","cort" +"spid","apid","rowi","coli","wllt","wllq","conc","rval","srcf","acsn" +"01140000A","TP0001059.Plate.8",4,6,"t",1,100.1,16.13,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140000A","TP0001059.Plate.8",5,6,"t",1,100.1,17.27,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140002A","TP0001061.Plate.14",6,9,"t",1,100.1,25.87,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140002A","TP0001061.Plate.14",7,9,"t",1,100.1,24.16,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140004A","TP0001059.Plate.5",4,3,"t",1,100,7.67,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140004A","TP0001059.Plate.5",5,3,"t",1,100,6.98,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140006A","TP0001054.Plate.1",2,6,"t",1,99.9,17.4,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140006A","TP0001054.Plate.1",3,6,"t",1,99.9,24.86,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140008A","TP0001054.Plate.2",2,10,"t",1,99.9,23.01,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140008A","TP0001054.Plate.2",3,10,"t",1,99.9,24.3,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140010A","TP0001054.Plate.3",4,9,"t",1,100,26.29,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140010A","TP0001054.Plate.3",5,9,"t",1,100,28.75,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140012A","TP0001056.Plate.12",6,9,"t",1,100,31.06,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140012A","TP0001056.Plate.12",7,9,"t",1,100,28.26,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140014A","TP0001061.Plate.13",6,9,"t",1,100.1,22.73,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140014A","TP0001061.Plate.13",7,9,"t",1,100.1,21.94,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140016A","TP0001054.Plate.1",4,9,"t",1,20,23.24,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140016A","TP0001054.Plate.1",5,9,"t",1,20,17.97,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140018A","TP0001054.Plate.3",6,10,"t",1,100,36.9,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140018A","TP0001054.Plate.3",7,10,"t",1,100,38.1,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140020A","TP0001054.Plate.2",2,6,"t",1,100.1,20.73,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140020A","TP0001054.Plate.2",3,6,"t",1,100.1,27.74,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140022A","PhaseII.VR.Plate.5",4,4,"t",1,10.01,15.88,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140022A","PhaseII.VR.Plate.5",5,4,"t",1,10.01,19.97,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140024A","TP0001056.Plate.9",2,10,"t",1,100.1,21.59,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140024A","TP0001056.Plate.9",3,10,"t",1,100.1,31.79,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140026A","TP0001059.Plate.5",2,10,"t",1,99.9,14.5,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140026A","TP0001059.Plate.5",3,10,"t",1,99.9,13.93,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140028A","TP0001056.Plate.11",4,7,"t",1,50.1,19.18,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140028A","TP0001056.Plate.11",5,7,"t",1,50.1,27.34,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140030A","PhaseII.VR.Plate.1",4,3,"t",1,10.01,12.07,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140030A","PhaseII.VR.Plate.1",5,3,"t",1,10.01,11.41,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140032A","PhaseII.VR.Plate.8",6,7,"t",1,1,12.29,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140032A","PhaseII.VR.Plate.8",7,7,"t",1,1,14.12,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140034A","TP0001057.Plate.16",2,7,"t",1,20,27.47,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140034A","TP0001057.Plate.16",3,7,"t",1,20,30.49,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140036A","TP0001058.Plate.3",2,6,"t",1,100.1,19.41,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140036A","TP0001058.Plate.3",3,6,"t",1,100.1,24.4,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140038A","TP0001057.Plate.15",6,7,"t",1,99.9,29.17,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140038A","TP0001057.Plate.15",7,7,"t",1,99.9,27.72,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140040A","TP0001057.Plate.14",2,9,"t",1,20,28.9,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140040A","TP0001057.Plate.14",3,9,"t",1,20,28.8,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140042A","TP0001060.Plate.10",2,4,"t",1,100.1,28.33,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140042A","TP0001060.Plate.10",3,4,"t",1,100.1,26.22,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140044A","TP0001054.Plate.8",4,7,"t",1,100,17.12,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140044A","TP0001054.Plate.8",5,7,"t",1,100,16.3,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140046A","TP0001057.Plate.15",2,4,"t",1,99.9,33.28,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140046A","TP0001057.Plate.15",3,4,"t",1,99.9,30.2,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140048A","TP0001054.Plate.7",2,9,"t",1,100.1,28.98,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140048A","TP0001054.Plate.7",3,9,"t",1,100.1,27.61,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140050A","TP0001059.Plate.6",2,3,"t",1,100,29.51,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140050A","TP0001059.Plate.6",3,3,"t",1,100,28.36,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140052A","TP0001059.Plate.6",4,7,"t",1,100,21.31,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140052A","TP0001059.Plate.6",5,7,"t",1,100,23.5,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140054A","TP0001060.Plate.12",4,3,"t",1,100,21.78,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140054A","TP0001060.Plate.12",5,3,"t",1,100,25.09,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140056A","TP0001057.Plate.15",2,3,"t",1,99.9,30.95,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140056A","TP0001057.Plate.15",3,3,"t",1,99.9,28.03,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140058A","TP0001060.Plate.12",4,9,"t",1,100,6.92,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140058A","TP0001060.Plate.12",5,9,"t",1,100,6.92,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140060A","TP0001060.Plate.11",4,7,"t",1,100,19.07,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140060A","TP0001060.Plate.11",5,7,"t",1,100,19.93,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140062A","TP0001061.Plate.14",6,5,"t",1,100,23.59,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140062A","TP0001061.Plate.14",7,5,"t",1,100,21.93,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140064A","TP0001055.Plate.5",6,9,"t",1,100,5.48,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140064A","TP0001055.Plate.5",7,9,"t",1,100,6.07,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140066A","TP0001061.Plate.14",2,8,"t",1,99.9,25.63,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140066A","TP0001061.Plate.14",3,8,"t",1,99.9,25.38,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140068A","TP0001057.Plate.13",2,4,"t",1,20,32.73,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140068A","TP0001057.Plate.13",3,4,"t",1,20,35.46,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140070A","TP0001060.Plate.10",4,6,"t",1,99.9,21.21,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140070A","TP0001060.Plate.10",5,6,"t",1,99.9,25.51,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140072A","TP0001058.Plate.1",6,9,"t",1,99.9,6.02,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140072A","TP0001058.Plate.1",7,9,"t",1,99.9,5.56,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140074A","PhaseII.VR.Plate.3",4,8,"t",1,10,14.86,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140074A","PhaseII.VR.Plate.3",5,8,"t",1,10,16.82,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140076A","TP0001058.Plate.3",2,9,"t",1,100.1,14.04,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140076A","TP0001058.Plate.3",3,9,"t",1,100.1,16.33,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140078A","TP0001057.Plate.13",4,5,"t",1,99.9,28.15,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140078A","TP0001057.Plate.13",5,5,"t",1,99.9,26.42,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140080A","TP0001054.Plate.7",2,7,"t",1,100,32.94,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140080A","TP0001054.Plate.7",3,7,"t",1,100,33.92,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140082A","PhaseII.VR.Plate.2",6,10,"t",1,10.01,15.62,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140082A","PhaseII.VR.Plate.2",7,10,"t",1,10.01,16.31,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140084A","TP0001060.Plate.11",4,4,"t",1,99.9,23.78,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140084A","TP0001060.Plate.11",5,4,"t",1,99.9,24.53,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140086A","TP0001054.Plate.7",6,8,"t",1,99.9,35.13,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140086A","TP0001054.Plate.7",7,8,"t",1,99.9,33.74,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140088A","TP0001054.Plate.1",2,3,"t",1,100,11.78,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140088A","TP0001054.Plate.1",3,3,"t",1,100,23.57,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140090A","TP0001056.Plate.11",6,10,"t",1,100.1,30.36,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140090A","TP0001056.Plate.11",7,10,"t",1,100.1,29.55,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140092A","TP0001060.Plate.10",6,4,"t",1,100.1,25.38,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140092A","TP0001060.Plate.10",7,4,"t",1,100.1,26.35,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140094A","TP0001054.Plate.3",4,5,"t",1,99.9,29.66,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140094A","TP0001054.Plate.3",5,5,"t",1,99.9,39.17,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140096A","TP0001055.Plate.5",2,9,"t",1,100.1,23.95,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140096A","TP0001055.Plate.5",3,9,"t",1,100.1,23.21,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140098A","PhaseII.VR.Plate.2",4,9,"t",1,10,13.29,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140098A","PhaseII.VR.Plate.2",5,9,"t",1,10,14.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140100A","TP0001054.Plate.7",4,10,"t",1,100,29.75,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140100A","TP0001054.Plate.7",5,10,"t",1,100,29.47,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140102A","TP0001061.Plate.14",2,9,"t",1,100.1,24.74,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140102A","TP0001061.Plate.14",3,9,"t",1,100.1,22.75,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140104A","TP0001055.Plate.6",2,3,"t",1,100.1,20.19,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140104A","TP0001055.Plate.6",3,3,"t",1,100.1,23.69,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140106A","TP0001055.Plate.6",2,10,"t",1,99.9,21.76,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140106A","TP0001055.Plate.6",3,10,"t",1,99.9,24.12,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140108A","TP0001060.Plate.10",6,10,"t",1,99.9,25.33,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140108A","TP0001060.Plate.10",7,10,"t",1,99.9,24.81,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140110A","TP0001058.Plate.2",6,6,"t",1,100,24.22,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140110A","TP0001058.Plate.2",7,6,"t",1,100,23.15,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140112A","TP0001058.Plate.3",4,3,"t",1,100,27.21,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140112A","TP0001058.Plate.3",5,3,"t",1,100,25.34,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140114A","TP0001056.Plate.10",6,5,"t",1,99.9,20.97,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140114A","TP0001056.Plate.10",7,5,"t",1,99.9,22.93,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140116A","TP0001057.Plate.16",6,8,"t",1,99.9,33.76,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140116A","TP0001057.Plate.16",7,8,"t",1,99.9,28.95,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140118A","TP0001061.Plate.15",4,10,"t",1,99.9,22.96,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140118A","TP0001061.Plate.15",5,10,"t",1,99.9,23.22,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140120A","PhaseII.VR.Plate.2",4,7,"t",1,9.99,11.64,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140120A","PhaseII.VR.Plate.2",5,7,"t",1,9.99,14.78,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140122A","TP0001058.Plate.4",2,6,"t",1,100.1,25.68,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140122A","TP0001058.Plate.4",3,6,"t",1,100.1,29.08,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140124A","TP0001057.Plate.13",4,3,"t",1,100,28.32,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140124A","TP0001057.Plate.13",5,3,"t",1,100,26.81,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140126A","TP0001059.Plate.8",4,4,"t",1,99.9,17.11,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140126A","TP0001059.Plate.8",5,4,"t",1,99.9,18.53,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140128A","TP0001055.Plate.5",4,3,"t",1,100,13.54,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140128A","TP0001055.Plate.5",5,3,"t",1,100,23.39,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140130A","TP0001056.Plate.10",6,4,"t",1,99.9,26.15,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140130A","TP0001056.Plate.10",7,4,"t",1,99.9,27.74,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140132A","TP0001055.Plate.5",6,6,"t",1,99.9,33.49,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140132A","TP0001055.Plate.5",7,6,"t",1,99.9,31.23,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140134A","TP0001054.Plate.7",2,4,"t",1,99.9,31.28,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140134A","TP0001054.Plate.7",3,4,"t",1,99.9,34.13,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140136A","TP0001054.Plate.7",2,3,"t",1,99.9,25.43,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140136A","TP0001054.Plate.7",3,3,"t",1,99.9,25.15,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140138A","TP0001061.Plate.13",6,8,"t",1,99.9,13.85,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140138A","TP0001061.Plate.13",7,8,"t",1,99.9,13.98,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140140A","TP0001061.Plate.15",2,10,"t",1,100,20.54,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140140A","TP0001061.Plate.15",3,10,"t",1,100,22.96,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140142A","TP0001060.Plate.12",6,7,"t",1,100,5.4,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140142A","TP0001060.Plate.12",7,7,"t",1,100,5.85,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140144A","TP0001057.Plate.13",6,7,"t",1,100,27.77,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140144A","TP0001057.Plate.13",7,7,"t",1,100,26.24,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140146A","PhaseII.VR.Plate.7",4,3,"t",1,1,11.85,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140146A","PhaseII.VR.Plate.7",5,3,"t",1,1,11.58,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140148A","TP0001061.Plate.13",2,6,"t",1,99.9,22,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140148A","TP0001061.Plate.13",3,6,"t",1,99.9,23.03,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140150A","TP0001057.Plate.16",2,9,"t",1,100,2.28,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140150A","TP0001057.Plate.16",3,9,"t",1,100,2.38,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140152A","TP0001056.Plate.12",2,9,"t",1,100.1,26.39,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140152A","TP0001056.Plate.12",3,9,"t",1,100.1,31.45,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140154A","TP0001056.Plate.12",6,4,"t",1,99.9,28.59,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140154A","TP0001056.Plate.12",7,4,"t",1,99.9,29.41,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140156A","TP0001054.Plate.3",4,8,"t",1,99.9,27.94,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140156A","TP0001054.Plate.3",5,8,"t",1,99.9,30.17,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140158A","TP0001054.Plate.4",4,10,"t",1,100.1,26.72,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140158A","TP0001054.Plate.4",5,10,"t",1,100.1,22.07,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140160A","TP0001060.Plate.12",2,9,"t",1,100,23.65,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140160A","TP0001060.Plate.12",3,9,"t",1,100,21.41,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140162A","TP0001061.Plate.16",2,9,"t",1,20,19.36,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140162A","TP0001061.Plate.16",3,9,"t",1,20,21.9,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140164A","TP0001062.Plate.17",2,9,"t",1,50,37.85,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140164A","TP0001062.Plate.17",3,9,"t",1,50,44.99,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140166A","TP0001058.Plate.4",4,9,"t",1,100,27.4,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140166A","TP0001058.Plate.4",5,9,"t",1,100,24.61,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140168A","TP0001056.Plate.12",2,4,"t",1,100.1,28.26,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140168A","TP0001056.Plate.12",3,4,"t",1,100.1,29.76,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140170A","PhaseII.VR.Plate.8",4,6,"t",1,1,7.28,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140170A","PhaseII.VR.Plate.8",5,6,"t",1,1,7.12,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140172A","TP0001059.Plate.7",6,5,"t",1,100.1,28.89,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140172A","TP0001059.Plate.7",7,5,"t",1,100.1,26.53,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140174A","TP0001058.Plate.4",6,4,"t",1,100.1,27.71,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140174A","TP0001058.Plate.4",7,4,"t",1,100.1,26.16,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140176A","PhaseII.VR.Plate.4",2,8,"t",1,10,13.37,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140176A","PhaseII.VR.Plate.4",3,8,"t",1,10,14.06,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140178A","PhaseII.VR.Plate.2",6,4,"t",1,10,8.9,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140178A","PhaseII.VR.Plate.2",7,4,"t",1,10,13.18,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140180A","TP0001054.Plate.1",6,9,"t",1,99.9,16.25,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140180A","TP0001054.Plate.1",7,9,"t",1,99.9,20.08,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140182A","TP0001054.Plate.4",2,6,"t",1,100.1,27.43,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140182A","TP0001054.Plate.4",3,6,"t",1,100.1,30.21,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140184A","TP0001058.Plate.4",6,3,"t",1,100.1,23.59,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140184A","TP0001058.Plate.4",7,3,"t",1,100.1,22.52,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140186A","PhaseII.VR.Plate.5",4,9,"t",1,9.99,8.36,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140186A","PhaseII.VR.Plate.5",5,9,"t",1,9.99,7.88,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140188A","TP0001060.Plate.12",6,6,"t",1,100.1,23.8,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140188A","TP0001060.Plate.12",7,6,"t",1,100.1,24.16,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140190A","TP0001057.Plate.15",2,9,"t",1,100,46.47,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140190A","TP0001057.Plate.15",3,9,"t",1,100,42.11,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140192A","TP0001055.Plate.5",6,5,"t",1,100.1,27.49,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140192A","TP0001055.Plate.5",7,5,"t",1,100.1,26.89,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140194A","TP0001059.Plate.5",6,8,"t",1,99.9,21.36,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140194A","TP0001059.Plate.5",7,8,"t",1,99.9,21.38,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140196A","TP0001054.Plate.1",2,7,"t",1,99.9,19.69,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140196A","TP0001054.Plate.1",3,7,"t",1,99.9,27.63,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140198A","TP0001060.Plate.12",2,6,"t",1,99.9,19.89,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140198A","TP0001060.Plate.12",3,6,"t",1,99.9,19.15,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140200A","TP0001061.Plate.16",6,9,"t",1,99.9,22.1,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140200A","TP0001061.Plate.16",7,9,"t",1,99.9,22.65,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140202A","TP0001057.Plate.15",6,8,"t",1,100,1.06,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140202A","TP0001057.Plate.15",7,8,"t",1,100,1,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140204A","TP0001054.Plate.7",4,8,"t",1,99.9,25.12,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140204A","TP0001054.Plate.7",5,8,"t",1,99.9,25.12,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140206A","PhaseII.VR.Plate.8",2,5,"t",1,1,12.54,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140206A","PhaseII.VR.Plate.8",3,5,"t",1,1,14.53,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140208A","PhaseII.VR.Plate.1",6,9,"t",1,5.01,8.75,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140208A","PhaseII.VR.Plate.1",7,9,"t",1,5.01,9.18,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140210A","TP0001055.Plate.6",2,9,"t",1,100.1,22.68,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140210A","TP0001055.Plate.6",3,9,"t",1,100.1,19.67,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140212A","TP0001060.Plate.10",6,3,"t",1,100,26.16,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140212A","TP0001060.Plate.10",7,3,"t",1,100,25.18,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140214A","TP0001057.Plate.14",4,10,"t",1,99.9,17.04,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140214A","TP0001057.Plate.14",5,10,"t",1,99.9,21.43,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140216A","TP0001057.Plate.16",4,7,"t",1,100.1,46.36,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140216A","TP0001057.Plate.16",5,7,"t",1,100.1,42.88,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140218A","TP0001059.Plate.5",6,9,"t",1,99.9,27.77,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140218A","TP0001059.Plate.5",7,9,"t",1,99.9,25.63,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140220A","PhaseII.VR.Plate.2",6,3,"t",1,10,14.7,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140220A","PhaseII.VR.Plate.2",7,3,"t",1,10,16.64,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140222A","TP0001054.Plate.8",2,6,"t",1,100.1,21.74,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140222A","TP0001054.Plate.8",3,6,"t",1,100.1,25.61,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140224A","TP0001057.Plate.14",6,9,"t",1,100,29.26,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140224A","TP0001057.Plate.14",7,9,"t",1,100,25.61,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140226A","TP0001059.Plate.7",4,3,"t",1,99.9,24.53,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140226A","TP0001059.Plate.7",5,3,"t",1,99.9,30.23,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140228A","TP0001054.Plate.2",6,9,"t",1,100,21.68,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140228A","TP0001054.Plate.2",7,9,"t",1,100,24.46,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140230A","TP0001057.Plate.16",4,5,"t",1,100.1,26.95,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140230A","TP0001057.Plate.16",5,5,"t",1,100.1,28.15,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140232A","TP0001054.Plate.8",6,6,"t",1,99.9,22.14,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140232A","TP0001054.Plate.8",7,6,"t",1,99.9,21.81,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140234A","TP0001057.Plate.15",6,5,"t",1,99.9,28.51,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140234A","TP0001057.Plate.15",7,5,"t",1,99.9,28.14,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140236A","TP0001058.Plate.3",2,5,"t",1,50,13.56,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140236A","TP0001058.Plate.3",3,5,"t",1,50,16.89,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140238A","TP0001056.Plate.12",2,8,"t",1,99.9,29.85,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140238A","TP0001056.Plate.12",3,8,"t",1,99.9,34.68,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140240A","TP0001057.Plate.14",6,6,"t",1,99.9,24.65,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140240A","TP0001057.Plate.14",7,6,"t",1,99.9,25.18,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140242A","TP0001055.Plate.5",2,3,"t",1,100.1,19.69,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140242A","TP0001055.Plate.5",3,3,"t",1,100.1,21.84,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140244A","TP0001054.Plate.4",4,9,"t",1,100.1,23.96,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140244A","TP0001054.Plate.4",5,9,"t",1,100.1,28.19,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140246A","TP0001054.Plate.3",4,7,"t",1,100,30.02,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140246A","TP0001054.Plate.3",5,7,"t",1,100,30.22,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140248A","TP0001061.Plate.16",2,6,"t",1,20,12.26,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140248A","TP0001061.Plate.16",3,6,"t",1,20,15.77,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140250A","TP0001058.Plate.4",6,9,"t",1,100.1,24.82,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140250A","TP0001058.Plate.4",7,9,"t",1,100.1,20.81,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140252A","TP0001059.Plate.7",2,5,"t",1,100.1,25.4,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140252A","TP0001059.Plate.7",3,5,"t",1,100.1,23.84,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140254A","TP0001061.Plate.15",6,10,"t",1,100.1,28.34,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140254A","TP0001061.Plate.15",7,10,"t",1,100.1,23.51,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140256A","TP0001061.Plate.15",2,9,"t",1,99.9,20.68,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140256A","TP0001061.Plate.15",3,9,"t",1,99.9,25.81,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140258A","PhaseII.VR.Plate.1",4,9,"t",1,10.01,12.08,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140258A","PhaseII.VR.Plate.1",5,9,"t",1,10.01,15.55,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140260A","TP0001057.Plate.14",2,4,"t",1,99.9,30.46,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140260A","TP0001057.Plate.14",3,4,"t",1,99.9,25.4,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140262A","PhaseII.VR.Plate.5",6,5,"t",1,1,13.08,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140262A","PhaseII.VR.Plate.5",7,5,"t",1,1,13.48,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140264A","TP0001054.Plate.7",6,3,"t",1,100.1,29.5,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140264A","TP0001054.Plate.7",7,3,"t",1,100.1,31.04,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140266A","TP0001059.Plate.7",2,7,"t",1,100,23.64,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140266A","TP0001059.Plate.7",3,7,"t",1,100,24.74,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140268A","TP0001060.Plate.12",2,7,"t",1,100,23.05,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140268A","TP0001060.Plate.12",3,7,"t",1,100,22.91,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140270A","TP0001054.Plate.7",2,8,"t",1,100.1,9.16,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140270A","TP0001054.Plate.7",3,8,"t",1,100.1,11.15,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140272A","TP0001054.Plate.1",6,7,"t",1,99.9,24.82,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140272A","TP0001054.Plate.1",7,7,"t",1,99.9,27.3,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140274A","TP0001056.Plate.10",4,10,"t",1,99.9,32.73,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140274A","TP0001056.Plate.10",5,10,"t",1,99.9,35.22,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140276A","TP0001055.Plate.6",6,5,"t",1,100.1,21.97,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140276A","TP0001055.Plate.6",7,5,"t",1,100.1,26.88,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140278A","TP0001060.Plate.12",6,4,"t",1,100.1,22.12,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140278A","TP0001060.Plate.12",7,4,"t",1,100.1,23.75,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140280A","TP0001058.Plate.4",4,4,"t",1,99.9,30.41,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140280A","TP0001058.Plate.4",5,4,"t",1,99.9,23.6,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140282A","TP0001056.Plate.9",4,3,"t",1,100,31.88,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140282A","TP0001056.Plate.9",5,3,"t",1,100,31.05,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140284A","TP0001056.Plate.10",6,6,"t",1,100,12.47,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140284A","TP0001056.Plate.10",7,6,"t",1,100,12.24,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140286A","TP0001057.Plate.16",4,4,"t",1,100,30,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140286A","TP0001057.Plate.16",5,4,"t",1,100,28.88,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140288A","TP0001060.Plate.9",4,4,"t",1,99.9,32.51,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140288A","TP0001060.Plate.9",5,4,"t",1,99.9,26.38,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140290A","TP0001054.Plate.8",4,9,"t",1,100.1,25.9,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140290A","TP0001054.Plate.8",5,9,"t",1,100.1,26.4,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140292A","TP0001054.Plate.1",2,10,"t",1,100,1.92,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140292A","TP0001054.Plate.1",3,10,"t",1,100,2.63,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140294A","TP0001058.Plate.2",2,7,"t",1,99.9,21.16,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140294A","TP0001058.Plate.2",3,7,"t",1,99.9,25.91,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140296A","TP0001060.Plate.10",2,3,"t",1,100,4.7,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140296A","TP0001060.Plate.10",3,3,"t",1,100,4.85,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140298A","TP0001055.Plate.5",4,6,"t",1,99.9,15.85,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140298A","TP0001055.Plate.5",5,6,"t",1,99.9,31.92,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140300A","PhaseII.VR.Plate.1",4,7,"t",1,10,5.16,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140300A","PhaseII.VR.Plate.1",5,7,"t",1,10,6.12,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140302A","PhaseII.VR.Plate.3",2,10,"t",1,10.01,14.75,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140302A","PhaseII.VR.Plate.3",3,10,"t",1,10.01,17.64,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140304A","PhaseII.VR.Plate.3",2,7,"t",1,10,15.97,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140304A","PhaseII.VR.Plate.3",3,7,"t",1,10,15.61,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140306A","TP0001055.Plate.6",2,8,"t",1,100,26.76,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140306A","TP0001055.Plate.6",3,8,"t",1,100,25.46,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140308A","PhaseII.VR.Plate.1",4,8,"t",1,10,15.36,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140308A","PhaseII.VR.Plate.1",5,8,"t",1,10,14.25,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140310A","PhaseII.VR.Plate.2",4,6,"t",1,10,28.72,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140310A","PhaseII.VR.Plate.2",5,6,"t",1,10,35.59,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140312A","TP0001061.Plate.16",6,5,"t",1,100.1,19.32,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140312A","TP0001061.Plate.16",7,5,"t",1,100.1,19.21,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140314A","PhaseII.VR.Plate.7",2,6,"t",1,1,5.83,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140314A","PhaseII.VR.Plate.7",3,6,"t",1,1,9.07,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140316A","PhaseII.VR.Plate.4",6,4,"t",1,10,13.15,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140316A","PhaseII.VR.Plate.4",7,4,"t",1,10,14.22,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140318A","TP0001056.Plate.10",2,9,"t",1,99.9,20.07,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140318A","TP0001056.Plate.10",3,9,"t",1,99.9,22.46,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140320A","PhaseII.VR.Plate.2",2,5,"t",1,10,12.48,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140320A","PhaseII.VR.Plate.2",3,5,"t",1,10,13.09,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140322A","TP0001057.Plate.15",6,9,"t",1,99.9,10.98,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140322A","TP0001057.Plate.15",7,9,"t",1,99.9,9.37,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140324A","TP0001058.Plate.2",2,5,"t",1,100.1,20.58,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140324A","TP0001058.Plate.2",3,5,"t",1,100.1,23.58,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140326A","PhaseII.VR.Plate.6",2,3,"t",1,1,12.59,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140326A","PhaseII.VR.Plate.6",3,3,"t",1,1,13.02,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140328A","TP0001058.Plate.4",4,6,"t",1,99.9,34.22,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140328A","TP0001058.Plate.4",5,6,"t",1,99.9,28.84,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140330A","PhaseII.VR.Plate.1",2,6,"t",1,10,13.57,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140330A","PhaseII.VR.Plate.1",3,6,"t",1,10,13.56,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140332A","TP0001055.Plate.5",4,7,"t",1,99.9,15.79,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140332A","TP0001055.Plate.5",5,7,"t",1,99.9,31.03,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140334A","PhaseII.VR.Plate.6",2,6,"t",1,0.93,13.59,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140334A","PhaseII.VR.Plate.6",3,6,"t",1,0.93,14.34,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140336A","TP0001057.Plate.15",4,5,"t",1,99.9,32.96,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140336A","TP0001057.Plate.15",5,5,"t",1,99.9,26.99,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140338A","TP0001060.Plate.10",4,10,"t",1,100,26.42,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140338A","TP0001060.Plate.10",5,10,"t",1,100,25.37,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140340A","TP0001061.Plate.16",6,4,"t",1,99.9,15.57,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140340A","TP0001061.Plate.16",7,4,"t",1,99.9,15,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140342A","PhaseII.VR.Plate.7",2,4,"t",1,1,4.98,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140342A","PhaseII.VR.Plate.7",3,4,"t",1,1,5.22,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140344A","TP0001058.Plate.3",6,4,"t",1,100.1,27.81,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140344A","TP0001058.Plate.3",7,4,"t",1,100.1,24.56,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140346A","PhaseII.VR.Plate.1",6,6,"t",1,10,13.75,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140346A","PhaseII.VR.Plate.1",7,6,"t",1,10,13.3,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140348A","TP0001059.Plate.5",4,5,"t",1,100.1,26.32,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140348A","TP0001059.Plate.5",5,5,"t",1,100.1,26.28,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140350A","TP0001059.Plate.5",4,7,"t",1,100,42.98,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140350A","TP0001059.Plate.5",5,7,"t",1,100,34.39,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140352A","TP0001054.Plate.2",2,8,"t",1,99.9,44.6,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140352A","TP0001054.Plate.2",3,8,"t",1,99.9,35.46,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140354A","TP0001055.Plate.6",4,7,"t",1,20,54.38,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140354A","TP0001055.Plate.6",5,7,"t",1,20,45.15,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140356A","TP0001059.Plate.5",6,3,"t",1,100,42.69,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140356A","TP0001059.Plate.5",7,3,"t",1,100,44.59,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140358A","TP0001055.Plate.5",4,4,"t",1,100,11.65,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140358A","TP0001055.Plate.5",5,4,"t",1,100,18.67,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140360A","TP0001054.Plate.4",6,5,"t",1,100,31.54,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140360A","TP0001054.Plate.4",7,5,"t",1,100,31.11,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140362A","TP0001059.Plate.7",2,8,"t",1,99.9,22.34,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140362A","TP0001059.Plate.7",3,8,"t",1,99.9,21.68,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140364A","TP0001055.Plate.5",4,5,"t",1,99.9,15.42,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140364A","TP0001055.Plate.5",5,5,"t",1,99.9,21.57,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140366A","TP0001060.Plate.12",2,4,"t",1,99.9,33.3,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140366A","TP0001060.Plate.12",3,4,"t",1,99.9,27.27,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140368A","TP0001057.Plate.13",4,6,"t",1,100,26.58,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140368A","TP0001057.Plate.13",5,6,"t",1,100,24.89,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140370A","TP0001054.Plate.7",6,7,"t",1,99.9,32.61,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140370A","TP0001054.Plate.7",7,7,"t",1,99.9,27.12,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140372A","TP0001059.Plate.7",6,4,"t",1,100,28.04,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140372A","TP0001059.Plate.7",7,4,"t",1,100,35.93,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140374A","TP0001059.Plate.5",2,8,"t",1,99.9,22.28,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140374A","TP0001059.Plate.5",3,8,"t",1,99.9,24.52,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140376A","PhaseIIe1k.VR.Plate.1",2,9,"t",1,10.01,43.37,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140376A","PhaseIIe1k.VR.Plate.1",3,9,"t",1,10.01,51.89,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140378A","TP0001061.Plate.16",4,9,"t",1,99.9,17.84,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140378A","TP0001061.Plate.16",5,9,"t",1,99.9,17.85,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140380A","TP0001060.Plate.12",4,4,"t",1,100,20.45,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140380A","TP0001060.Plate.12",5,4,"t",1,100,19.6,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140382A","PhaseII.VR.Plate.5",2,3,"t",1,10.01,13.28,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140382A","PhaseII.VR.Plate.5",3,3,"t",1,10.01,14.08,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140384A","TP0001056.Plate.10",2,6,"t",1,100,26.39,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140384A","TP0001056.Plate.10",3,6,"t",1,100,28.68,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140386A","TP0001059.Plate.6",6,9,"t",1,100.1,13.57,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140386A","TP0001059.Plate.6",7,9,"t",1,100.1,11.07,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140388A","TP0001060.Plate.10",2,8,"t",1,100,17.33,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140388A","TP0001060.Plate.10",3,8,"t",1,100,15.52,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140390A","PhaseII.VR.Plate.3",6,10,"t",1,10,16.1,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140390A","PhaseII.VR.Plate.3",7,10,"t",1,10,16.17,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140392A","TP0001062.Plate.17",4,5,"t",1,100.1,29.97,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140392A","TP0001062.Plate.17",5,5,"t",1,100.1,25.86,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140394A","TP0001054.Plate.1",6,10,"t",1,50,24.7,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140394A","TP0001054.Plate.1",7,10,"t",1,50,25.44,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140396A","TP0001061.Plate.15",6,7,"t",1,99.9,21.77,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140396A","TP0001061.Plate.15",7,7,"t",1,99.9,22.42,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140398A","TP0001058.Plate.2",2,3,"t",1,100,16.33,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140398A","TP0001058.Plate.2",3,3,"t",1,100,23.02,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140400A","TP0001060.Plate.9",2,5,"t",1,99.9,18.41,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140400A","TP0001060.Plate.9",3,5,"t",1,99.9,18.56,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140402A","TP0001058.Plate.2",4,7,"t",1,100,26.17,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140402A","TP0001058.Plate.2",5,7,"t",1,100,26.1,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140404A","TP0001058.Plate.1",2,6,"t",1,99.9,25.03,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140404A","TP0001058.Plate.1",3,6,"t",1,99.9,20.98,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140406A","TP0001059.Plate.7",6,3,"t",1,100.1,35.74,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140406A","TP0001059.Plate.7",7,3,"t",1,100.1,33.57,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140408A","TP0001061.Plate.15",6,6,"t",1,99.9,21.25,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140408A","TP0001061.Plate.15",7,6,"t",1,99.9,23.84,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140410A","TP0001061.Plate.14",2,3,"t",1,100.1,28.29,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140410A","TP0001061.Plate.14",3,3,"t",1,100.1,31.81,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140412A","PhaseII.VR.Plate.3",6,4,"t",1,9.99,13.91,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140412A","PhaseII.VR.Plate.3",7,4,"t",1,9.99,14.68,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140414A","PhaseII.VR.Plate.3",4,5,"t",1,10,9.1,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140414A","PhaseII.VR.Plate.3",5,5,"t",1,10,11.28,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140416A","TP0001062.Plate.17",2,8,"t",1,99.9,39.41,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140416A","TP0001062.Plate.17",3,8,"t",1,99.9,46.17,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140418A","PhaseII.VR.Plate.8",4,8,"t",0,0.5,NA,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140418A","PhaseII.VR.Plate.8",5,8,"t",0,0.5,NA,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140420A","TP0001056.Plate.9",6,6,"t",1,100,23.11,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140420A","TP0001056.Plate.9",7,6,"t",1,100,26.5,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140422A","TP0001062.Plate.18",2,3,"t",1,99.9,26.79,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140422A","TP0001062.Plate.18",3,3,"t",1,99.9,28.34,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140424A","TP0001056.Plate.9",2,7,"t",1,99.9,22.22,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140424A","TP0001056.Plate.9",3,7,"t",1,99.9,23.08,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140426A","TP0001054.Plate.8",4,8,"t",1,99.9,21.82,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140426A","TP0001054.Plate.8",5,8,"t",1,99.9,20.72,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140428A","TP0001054.Plate.8",2,5,"t",1,100.1,21.07,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140428A","TP0001054.Plate.8",3,5,"t",1,100.1,23.04,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140430A","TP0001061.Plate.14",2,10,"t",1,100,23.06,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140430A","TP0001061.Plate.14",3,10,"t",1,100,24.04,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140432A","PhaseII.VR.Plate.8",4,7,"t",1,1,16.02,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140432A","PhaseII.VR.Plate.8",5,7,"t",1,1,13.77,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140434A","TP0001058.Plate.2",4,5,"t",1,99.9,24.35,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140434A","TP0001058.Plate.2",5,5,"t",1,99.9,24.78,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140436A","TP0001056.Plate.12",4,9,"t",1,99.9,16.71,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140436A","TP0001056.Plate.12",5,9,"t",1,99.9,15.38,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140438A","TP0001060.Plate.9",4,5,"t",1,100.1,22.2,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140438A","TP0001060.Plate.9",5,5,"t",1,100.1,19.05,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140440A","TP0001060.Plate.9",6,3,"t",1,100,19.77,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140440A","TP0001060.Plate.9",7,3,"t",1,100,25.05,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140442A","TP0001058.Plate.1",4,6,"t",1,50,26.04,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140442A","TP0001058.Plate.1",5,6,"t",1,50,28.15,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140444A","PhaseII.VR.Plate.1",4,5,"t",1,10.01,4.18,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140444A","PhaseII.VR.Plate.1",5,5,"t",1,10.01,4.4,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140446A","TP0001056.Plate.12",2,10,"t",1,50,28.23,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140446A","TP0001056.Plate.12",3,10,"t",1,50,22.15,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140448A","PhaseII.VR.Plate.6",4,3,"t",1,1,12.86,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140448A","PhaseII.VR.Plate.6",5,3,"t",1,1,14.69,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140450A","TP0001056.Plate.12",6,6,"t",1,50,35.77,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140450A","TP0001056.Plate.12",7,6,"t",1,50,31.8,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140452A","PhaseII.VR.Plate.1",4,4,"t",1,9.99,6.08,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140452A","PhaseII.VR.Plate.1",5,4,"t",1,9.99,6.59,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140454A","TP0001060.Plate.12",6,8,"t",1,99.9,17.1,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140454A","TP0001060.Plate.12",7,8,"t",1,99.9,19.55,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140456A","TP0001056.Plate.10",4,8,"t",1,100,27.41,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140456A","TP0001056.Plate.10",5,8,"t",1,100,28.23,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140458A","TP0001055.Plate.6",6,6,"t",1,100,33.26,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140458A","TP0001055.Plate.6",7,6,"t",1,100,28.7,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140460A","TP0001054.Plate.8",2,9,"t",1,100,23.05,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140460A","TP0001054.Plate.8",3,9,"t",1,100,26.79,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140462A","PhaseII.VR.Plate.6",6,10,"t",1,1,9.88,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140462A","PhaseII.VR.Plate.6",7,10,"t",1,1,9.66,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140464A","TP0001055.Plate.5",4,8,"t",1,50,11.21,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140464A","TP0001055.Plate.5",5,8,"t",1,50,23.8,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140466A","TP0001054.Plate.3",4,3,"t",1,100.1,35.17,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140466A","TP0001054.Plate.3",5,3,"t",1,100.1,31.69,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140468A","TP0001057.Plate.14",6,10,"t",1,100.1,24.23,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140468A","TP0001057.Plate.14",7,10,"t",1,100.1,27.04,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140470A","TP0001062.Plate.17",6,7,"t",1,100,27.58,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140470A","TP0001062.Plate.17",7,7,"t",1,100,30.39,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140472A","PhaseII.VR.Plate.4",6,9,"t",1,10,18.05,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140472A","PhaseII.VR.Plate.4",7,9,"t",1,10,16.71,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140474A","PhaseII.VR.Plate.8",4,5,"t",1,0.2,8.17,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140474A","PhaseII.VR.Plate.8",5,5,"t",1,0.2,8.46,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140476A","TP0001061.Plate.16",4,3,"t",1,100,19.54,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140476A","TP0001061.Plate.16",5,3,"t",1,100,20.3,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140478A","TP0001060.Plate.12",4,7,"t",1,100,8.42,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140478A","TP0001060.Plate.12",5,7,"t",1,100,9.55,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140480A","PhaseII.VR.Plate.8",6,9,"t",1,0.5,11.58,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140480A","PhaseII.VR.Plate.8",7,9,"t",1,0.5,13.02,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140482A","PhaseII.VR.Plate.4",4,7,"t",1,10.01,11.49,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140482A","PhaseII.VR.Plate.4",5,7,"t",1,10.01,10.86,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140484A","TP0001060.Plate.10",6,8,"t",1,100,25.94,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140484A","TP0001060.Plate.10",7,8,"t",1,100,22.42,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140486A","TP0001054.Plate.2",4,5,"t",1,100,13.17,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140486A","TP0001054.Plate.2",5,5,"t",1,100,22.72,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140488A","PhaseII.VR.Plate.7",4,6,"t",1,1,9.07,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140488A","PhaseII.VR.Plate.7",5,6,"t",1,1,9.43,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140490A","TP0001060.Plate.11",2,6,"t",1,100,15.03,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140490A","TP0001060.Plate.11",3,6,"t",1,100,16.25,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140492A","TP0001059.Plate.6",6,3,"t",1,100.1,34.48,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140492A","TP0001059.Plate.6",7,3,"t",1,100.1,27.01,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140494A","TP0001058.Plate.3",2,10,"t",1,99.9,15.01,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140494A","TP0001058.Plate.3",3,10,"t",1,99.9,17.21,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140496A","TP0001054.Plate.3",2,4,"t",1,100.1,25.17,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140496A","TP0001054.Plate.3",3,4,"t",1,100.1,29.83,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140498A","TP0001061.Plate.16",2,10,"t",1,100,31.43,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140498A","TP0001061.Plate.16",3,10,"t",1,100,36.72,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140500A","TP0001060.Plate.10",6,7,"t",1,99.9,9.73,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140500A","TP0001060.Plate.10",7,7,"t",1,99.9,9.7,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140502A","PhaseII.VR.Plate.7",6,9,"t",1,1,12.34,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140502A","PhaseII.VR.Plate.7",7,9,"t",1,1,13.06,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140504A","PhaseII.VR.Plate.6",2,5,"t",1,1,12.42,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140504A","PhaseII.VR.Plate.6",3,5,"t",1,1,13.37,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140506A","PhaseII.VR.Plate.7",4,7,"t",1,1,7.17,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140506A","PhaseII.VR.Plate.7",5,7,"t",1,1,9.29,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140508A","TP0001061.Plate.13",2,3,"t",1,100.1,30.29,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140508A","TP0001061.Plate.13",3,3,"t",1,100.1,28.44,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140510A","TP0001060.Plate.11",6,5,"t",1,50,3.62,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140510A","TP0001060.Plate.11",7,5,"t",1,50,3.76,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140512A","PhaseII.VR.Plate.4",6,5,"t",1,10,5,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140512A","PhaseII.VR.Plate.4",7,5,"t",1,10,5.53,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140514A","PhaseII.VR.Plate.8",6,5,"t",1,1,11.31,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140514A","PhaseII.VR.Plate.8",7,5,"t",1,1,13.26,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140516A","PhaseII.VR.Plate.8",6,8,"t",1,1,12.7,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140516A","PhaseII.VR.Plate.8",7,8,"t",1,1,14.05,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140518A","PhaseII.VR.Plate.6",6,6,"t",1,1,14.1,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140518A","PhaseII.VR.Plate.6",7,6,"t",1,1,17.94,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140520A","PhaseII.VR.Plate.4",6,8,"t",1,10.01,8,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140520A","PhaseII.VR.Plate.4",7,8,"t",1,10.01,8.09,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140522A","TP0001054.Plate.8",6,4,"t",1,99.9,22.01,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140522A","TP0001054.Plate.8",7,4,"t",1,99.9,24.56,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140524A","TP0001061.Plate.16",4,5,"t",1,99.9,17.54,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140524A","TP0001061.Plate.16",5,5,"t",1,99.9,16.38,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140526A","TP0001057.Plate.15",4,8,"t",1,100.1,11.3,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140526A","TP0001057.Plate.15",5,8,"t",1,100.1,10.72,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140528A","PhaseII.VR.Plate.3",6,5,"t",1,10,2.42,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140528A","PhaseII.VR.Plate.3",7,5,"t",1,10,2.56,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140530A","TP0001061.Plate.13",2,5,"t",1,99.9,11.19,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140530A","TP0001061.Plate.13",3,5,"t",1,99.9,11.43,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140532A","TP0001056.Plate.9",4,8,"t",1,99.9,9.82,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140532A","TP0001056.Plate.9",5,8,"t",1,99.9,10.24,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140534A","PhaseII.VR.Plate.3",4,7,"t",1,9.99,1.85,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140534A","PhaseII.VR.Plate.3",5,7,"t",1,9.99,1.97,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140536A","PhaseII.VR.Plate.6",2,7,"t",1,1,12.2,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140536A","PhaseII.VR.Plate.6",3,7,"t",1,1,11.2,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140538A","TP0001054.Plate.7",6,9,"t",1,100.1,11.86,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140538A","TP0001054.Plate.7",7,9,"t",1,100.1,14.13,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140540A","TP0001058.Plate.3",4,9,"t",1,100.1,24.8,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140540A","TP0001058.Plate.3",5,9,"t",1,100.1,22.73,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140542A","PhaseII.VR.Plate.5",2,7,"t",1,10.01,15.34,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140542A","PhaseII.VR.Plate.5",3,7,"t",1,10.01,14.83,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140544A","TP0001058.Plate.4",4,10,"t",1,100,7.18,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140544A","TP0001058.Plate.4",5,10,"t",1,100,7.45,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140546A","PhaseII.VR.Plate.4",4,10,"t",1,9.99,20.73,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140546A","PhaseII.VR.Plate.4",5,10,"t",1,9.99,19.17,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140548A","TP0001057.Plate.13",4,9,"t",1,99.9,26.03,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140548A","TP0001057.Plate.13",5,9,"t",1,99.9,27.87,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140550A","PhaseII.VR.Plate.5",4,3,"t",1,10,11.96,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140550A","PhaseII.VR.Plate.5",5,3,"t",1,10,11.31,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140552A","TP0001061.Plate.15",4,7,"t",1,100.1,11.04,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140552A","TP0001061.Plate.15",5,7,"t",1,100.1,10.58,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140554A","TP0001058.Plate.4",2,4,"t",1,100,33.45,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140554A","TP0001058.Plate.4",3,4,"t",1,100,38.58,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140558A","TP0001061.Plate.13",6,3,"t",1,100,21.84,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140558A","TP0001061.Plate.13",7,3,"t",1,100,24.01,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140560A","PhaseII.VR.Plate.7",6,8,"t",1,1,13.29,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140560A","PhaseII.VR.Plate.7",7,8,"t",1,1,14.16,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140562A","PhaseII.VR.Plate.7",4,5,"t",1,1,9.84,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140562A","PhaseII.VR.Plate.7",5,5,"t",1,1,10.35,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140564A","TP0001057.Plate.15",2,10,"t",1,99.9,28.89,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140564A","TP0001057.Plate.15",3,10,"t",1,99.9,29.52,"TP0001057 Plate 15_CeeTox.csv","cort" +"01140566A","TP0001058.Plate.4",4,7,"t",1,100.1,17.99,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140566A","TP0001058.Plate.4",5,7,"t",1,100.1,17.93,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140568A","TP0001059.Plate.6",4,4,"t",1,100.1,20.35,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140568A","TP0001059.Plate.6",5,4,"t",1,100.1,22.05,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140570A","TP0001059.Plate.8",2,5,"t",1,100,21.92,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140570A","TP0001059.Plate.8",3,5,"t",1,100,21.85,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140572A","PhaseII.VR.Plate.7",6,3,"t",1,1,12.77,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140572A","PhaseII.VR.Plate.7",7,3,"t",1,1,14.86,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140574A","TP0001058.Plate.3",6,5,"t",1,100.1,36.86,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140574A","TP0001058.Plate.3",7,5,"t",1,100.1,40.21,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140576A","TP0001059.Plate.6",2,10,"t",1,50,19.74,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140576A","TP0001059.Plate.6",3,10,"t",1,50,20.41,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140578A","TP0001059.Plate.5",6,10,"t",1,99.9,24.4,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140578A","TP0001059.Plate.5",7,10,"t",1,99.9,24.58,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140580A","PhaseIIe1k.VR.Plate.1",4,9,"t",1,9.99,47.04,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140580A","PhaseIIe1k.VR.Plate.1",5,9,"t",1,9.99,54.15,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140582A","TP0001062.Plate.17",6,5,"t",1,100.1,22.56,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140582A","TP0001062.Plate.17",7,5,"t",1,100.1,28.34,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140584A","TP0001054.Plate.4",6,6,"t",1,99.9,18.37,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140584A","TP0001054.Plate.4",7,6,"t",1,99.9,18.17,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140586A","TP0001059.Plate.7",2,6,"t",1,100,6.97,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140586A","TP0001059.Plate.7",3,6,"t",1,100,5.75,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140588A","TP0001059.Plate.5",6,4,"t",1,100,23.09,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140588A","TP0001059.Plate.5",7,4,"t",1,100,20.02,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140590A","PhaseII.VR.Plate.5",4,6,"t",1,10,16.87,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140590A","PhaseII.VR.Plate.5",5,6,"t",1,10,16.92,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140592A","TP0001060.Plate.11",4,3,"t",1,20,4.05,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140592A","TP0001060.Plate.11",5,3,"t",1,20,4.38,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140594A","TP0001054.Plate.1",6,6,"t",1,100,41.72,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140594A","TP0001054.Plate.1",7,6,"t",1,100,39.72,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140596A","PhaseII.VR.Plate.4",6,3,"t",1,2,9.27,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140596A","PhaseII.VR.Plate.4",7,3,"t",1,2,9.56,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140598A","TP0001059.Plate.8",2,9,"t",1,99.9,10.14,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140598A","TP0001059.Plate.8",3,9,"t",1,99.9,10.07,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140600A","TP0001061.Plate.15",6,8,"t",1,100.1,25.35,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140600A","TP0001061.Plate.15",7,8,"t",1,100.1,28.16,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140602A","TP0001055.Plate.6",2,4,"t",1,50,25.89,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140602A","TP0001055.Plate.6",3,4,"t",1,50,25.44,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140604A","PhaseIIe1k.VR.Plate.3",4,7,"t",1,1,57.75,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01140604A","PhaseIIe1k.VR.Plate.3",5,7,"t",1,1,54.9,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01140608A","TP0001056.Plate.9",2,8,"t",1,100.1,21.3,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140608A","TP0001056.Plate.9",3,8,"t",1,100.1,27.51,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140610A","PhaseII.VR.Plate.5",6,7,"t",1,1,14.28,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140610A","PhaseII.VR.Plate.5",7,7,"t",1,1,14.19,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140612A","TP0001059.Plate.5",6,7,"t",1,100,42.94,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140612A","TP0001059.Plate.5",7,7,"t",1,100,44.05,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140614A","TP0001057.Plate.14",4,9,"t",1,99.9,23.1,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140614A","TP0001057.Plate.14",5,9,"t",1,99.9,26.19,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140616A","PhaseII.VR.Plate.8",2,8,"t",1,1,13.39,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140616A","PhaseII.VR.Plate.8",3,8,"t",1,1,13.77,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140618A","TP0001059.Plate.6",2,4,"t",1,100,25.1,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140618A","TP0001059.Plate.6",3,4,"t",1,100,22.39,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140620A","TP0001057.Plate.13",6,4,"t",1,99.9,23.54,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140620A","TP0001057.Plate.13",7,4,"t",1,99.9,30.81,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140622A","TP0001057.Plate.13",2,3,"t",1,100,22.89,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140622A","TP0001057.Plate.13",3,3,"t",1,100,29.13,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140624A","TP0001057.Plate.16",4,8,"t",1,100,29.82,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140624A","TP0001057.Plate.16",5,8,"t",1,100,26.97,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140626A","TP0001056.Plate.11",6,3,"t",1,99.9,25.86,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140626A","TP0001056.Plate.11",7,3,"t",1,99.9,28.16,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140628A","TP0001058.Plate.2",4,3,"t",1,99.9,25.05,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140628A","TP0001058.Plate.2",5,3,"t",1,99.9,24.77,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140630A","PhaseII.VR.Plate.8",6,10,"t",1,1,13.7,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140630A","PhaseII.VR.Plate.8",7,10,"t",1,1,18.53,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140632A","TP0001056.Plate.10",4,3,"t",1,99.9,25.58,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140632A","TP0001056.Plate.10",5,3,"t",1,99.9,26.42,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140634A","PhaseII.VR.Plate.7",6,10,"t",1,1,11.96,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140634A","PhaseII.VR.Plate.7",7,10,"t",1,1,11.63,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140636A","PhaseII.VR.Plate.5",4,10,"t",1,10.01,19.93,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140636A","PhaseII.VR.Plate.5",5,10,"t",1,10.01,24.62,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140638A","TP0001060.Plate.12",2,5,"t",1,100.1,20.6,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140638A","TP0001060.Plate.12",3,5,"t",1,100.1,22.54,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140640A","TP0001057.Plate.14",4,8,"t",1,100,30.26,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140640A","TP0001057.Plate.14",5,8,"t",1,100,33.92,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140642A","PhaseIIe1k.VR.Plate.3",6,7,"t",1,1,57.04,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01140642A","PhaseIIe1k.VR.Plate.3",7,7,"t",1,1,61.05,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01140644A","PhaseII.VR.Plate.5",4,5,"t",1,10.01,12.82,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140644A","PhaseII.VR.Plate.5",5,5,"t",1,10.01,14.2,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140646A","TP0001058.Plate.3",2,3,"t",1,99.9,13.43,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140646A","TP0001058.Plate.3",3,3,"t",1,99.9,17.73,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140648A","PhaseII.VR.Plate.6",4,6,"t",1,1,13.04,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140648A","PhaseII.VR.Plate.6",5,6,"t",1,1,14.32,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140650A","TP0001058.Plate.4",2,8,"t",1,100,30.69,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140650A","TP0001058.Plate.4",3,8,"t",1,100,31.13,"TP0001058 Plate 4_CeeTox.csv","cort" +"01140652A","TP0001059.Plate.8",6,7,"t",1,100.1,23.58,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140652A","TP0001059.Plate.8",7,7,"t",0,100.1,NA,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140654A","TP0001058.Plate.3",4,10,"t",1,100.1,35.64,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140654A","TP0001058.Plate.3",5,10,"t",1,100.1,36.67,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140656A","TP0001060.Plate.9",4,8,"t",1,100.1,21.99,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140656A","TP0001060.Plate.9",5,8,"t",1,100.1,19.96,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140658A","TP0001054.Plate.1",6,3,"t",1,100,34.01,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140658A","TP0001054.Plate.1",7,3,"t",1,100,36.97,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140660A","TP0001056.Plate.11",6,9,"t",1,99.9,17.37,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140660A","TP0001056.Plate.11",7,9,"t",1,99.9,19.59,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140662A","TP0001061.Plate.14",4,4,"t",1,99.9,28.97,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140662A","TP0001061.Plate.14",5,4,"t",1,99.9,19.67,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140664A","TP0001058.Plate.3",6,10,"t",1,100.1,26.21,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140664A","TP0001058.Plate.3",7,10,"t",1,100.1,19.48,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140666A","TP0001059.Plate.7",6,9,"t",1,100,31.46,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140666A","TP0001059.Plate.7",7,9,"t",1,100,25.49,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140668A","TP0001056.Plate.10",4,9,"t",1,99.9,27.47,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140668A","TP0001056.Plate.10",5,9,"t",1,99.9,24.81,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140670A","PhaseII.VR.Plate.3",4,9,"t",1,10.01,17.33,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140670A","PhaseII.VR.Plate.3",5,9,"t",1,10.01,17.65,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140672A","TP0001061.Plate.15",2,3,"t",1,100.1,20.94,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140672A","TP0001061.Plate.15",3,3,"t",1,100.1,26.56,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140674A","TP0001056.Plate.11",4,9,"t",1,100,28.2,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140674A","TP0001056.Plate.11",5,9,"t",1,100,28.25,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140676A","PhaseII.VR.Plate.8",4,4,"t",1,1,15.73,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140676A","PhaseII.VR.Plate.8",5,4,"t",1,1,13.34,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140678A","TP0001059.Plate.6",4,10,"t",1,100.1,33.63,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140678A","TP0001059.Plate.6",5,10,"t",1,100.1,31.06,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140680A","TP0001059.Plate.6",4,5,"t",1,100,18.46,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140680A","TP0001059.Plate.6",5,5,"t",1,100,16.94,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140682A","TP0001054.Plate.1",4,5,"t",1,100,22,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140682A","TP0001054.Plate.1",5,5,"t",1,100,20.9,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140684A","PhaseII.VR.Plate.3",2,5,"t",1,10.01,12.92,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140684A","PhaseII.VR.Plate.3",3,5,"t",1,10.01,13.03,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140686A","TP0001057.Plate.16",4,3,"t",1,100.1,24.92,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140686A","TP0001057.Plate.16",5,3,"t",1,100.1,22.68,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140688A","PhaseII.VR.Plate.8",6,3,"t",1,1,12.61,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140688A","PhaseII.VR.Plate.8",7,3,"t",1,1,13.15,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140690A","TP0001054.Plate.4",2,8,"t",1,99.9,25.28,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140690A","TP0001054.Plate.4",3,8,"t",1,99.9,33.19,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140692A","TP0001056.Plate.11",6,5,"t",1,100,0.98,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140692A","TP0001056.Plate.11",7,5,"t",1,100,1.05,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140694A","TP0001056.Plate.9",6,5,"t",1,99.9,19.67,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140694A","TP0001056.Plate.9",7,5,"t",1,99.9,21.36,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140696A","TP0001062.Plate.17",2,3,"t",1,100,27.64,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140696A","TP0001062.Plate.17",3,3,"t",1,100,36.36,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140698A","PhaseII.VR.Plate.8",4,9,"t",1,1,15.85,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140698A","PhaseII.VR.Plate.8",5,9,"t",1,1,13.84,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140700A","PhaseII.VR.Plate.6",4,9,"t",1,1,13.3,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140700A","PhaseII.VR.Plate.6",5,9,"t",1,1,12.61,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140702A","PhaseII.VR.Plate.7",4,10,"t",1,1,11.75,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140702A","PhaseII.VR.Plate.7",5,10,"t",1,1,15.94,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140704A","TP0001054.Plate.2",6,8,"t",1,50,19.14,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140704A","TP0001054.Plate.2",7,8,"t",1,50,17.74,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140706A","TP0001060.Plate.9",6,4,"t",1,99.9,8.5,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140706A","TP0001060.Plate.9",7,4,"t",1,99.9,9.54,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140708A","TP0001062.Plate.17",4,3,"t",1,50,27.98,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140708A","TP0001062.Plate.17",5,3,"t",1,50,21.02,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140710A","TP0001059.Plate.8",4,8,"t",1,100,25.63,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140710A","TP0001059.Plate.8",5,8,"t",1,100,26.92,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140714A","TP0001057.Plate.13",2,6,"t",1,99.9,15.61,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140714A","TP0001057.Plate.13",3,6,"t",1,99.9,16.85,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140716A","PhaseII.VR.Plate.7",2,8,"t",1,1,8.62,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140716A","PhaseII.VR.Plate.7",3,8,"t",1,1,10.2,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140718A","TP0001056.Plate.10",4,5,"t",1,100.1,32.26,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140718A","TP0001056.Plate.10",5,5,"t",1,100.1,30.86,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140720A","PhaseII.VR.Plate.6",6,7,"t",1,1,8.03,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140720A","PhaseII.VR.Plate.6",7,7,"t",1,1,11.87,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140722A","PhaseII.VR.Plate.6",2,9,"t",1,1,11.3,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140722A","PhaseII.VR.Plate.6",3,9,"t",1,1,11.57,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140724A","PhaseII.VR.Plate.4",2,4,"t",1,5,16.4,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140724A","PhaseII.VR.Plate.4",3,4,"t",1,5,18.48,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140726A","TP0001056.Plate.11",4,10,"t",1,100.1,38.92,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140726A","TP0001056.Plate.11",5,10,"t",1,100.1,35.39,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140728A","PhaseII.VR.Plate.4",4,5,"t",1,10.01,4.45,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140728A","PhaseII.VR.Plate.4",5,5,"t",1,10.01,3.83,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140730A","TP0001054.Plate.3",6,8,"t",1,100.1,32.8,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140730A","TP0001054.Plate.3",7,8,"t",1,100.1,26.92,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140732A","TP0001056.Plate.9",4,5,"t",1,99.9,26.2,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140732A","TP0001056.Plate.9",5,5,"t",1,99.9,23.89,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140734A","TP0001054.Plate.3",6,3,"t",1,99.9,27.22,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140734A","TP0001054.Plate.3",7,3,"t",1,99.9,28,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140736A","TP0001060.Plate.9",6,7,"t",1,100,22.66,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140736A","TP0001060.Plate.9",7,7,"t",1,100,23.34,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140738A","TP0001059.Plate.7",4,5,"t",1,100.1,24.45,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140738A","TP0001059.Plate.7",5,5,"t",1,100.1,23.84,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140740A","PhaseII.VR.Plate.3",2,3,"t",1,9.99,12.7,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140740A","PhaseII.VR.Plate.3",3,3,"t",1,9.99,13.27,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140742A","TP0001059.Plate.6",6,4,"t",1,100.1,23.56,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140742A","TP0001059.Plate.6",7,4,"t",1,100.1,22.67,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140744A","PhaseIIe1k.VR.Plate.3",2,5,"t",1,10,40.01,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01140744A","PhaseIIe1k.VR.Plate.3",3,5,"t",1,10,37.5,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01140746A","TP0001056.Plate.11",4,3,"t",1,100.1,25.67,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140746A","TP0001056.Plate.11",5,3,"t",1,100.1,28.47,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140748A","TP0001061.Plate.15",4,6,"t",1,100,23.49,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140748A","TP0001061.Plate.15",5,6,"t",1,100,24.92,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140750A","TP0001062.Plate.18",2,6,"t",1,100.1,13.5,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140750A","TP0001062.Plate.18",3,6,"t",1,100.1,15.13,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140752A","TP0001059.Plate.6",2,5,"t",1,99.9,21.27,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140752A","TP0001059.Plate.6",3,5,"t",1,99.9,23.24,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140754A","PhaseII.VR.Plate.4",2,6,"t",1,9.99,17.06,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140754A","PhaseII.VR.Plate.4",3,6,"t",1,9.99,17.01,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140756A","PhaseII.VR.Plate.1",2,8,"t",1,10.01,4.4,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140756A","PhaseII.VR.Plate.1",3,8,"t",1,10.01,5.22,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140758A","TP0001061.Plate.15",2,4,"t",1,100,17.16,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140758A","TP0001061.Plate.15",3,4,"t",1,100,13.92,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140760A","TP0001057.Plate.16",2,3,"t",1,100.1,26.9,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140760A","TP0001057.Plate.16",3,3,"t",1,100.1,26.55,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140762A","TP0001054.Plate.8",4,10,"t",1,100.1,35.18,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140762A","TP0001054.Plate.8",5,10,"t",1,100.1,31.11,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140764A","PhaseII.VR.Plate.1",4,6,"t",1,10.01,16.52,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140764A","PhaseII.VR.Plate.1",5,6,"t",1,10.01,15.63,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140766A","TP0001057.Plate.16",2,10,"t",1,99.9,33.3,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140766A","TP0001057.Plate.16",3,10,"t",1,99.9,34.02,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140768A","PhaseII.VR.Plate.7",2,3,"t",1,1,8.45,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140768A","PhaseII.VR.Plate.7",3,3,"t",1,1,6.72,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140770A","TP0001055.Plate.5",6,4,"t",1,99.9,24.17,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140770A","TP0001055.Plate.5",7,4,"t",1,99.9,19.21,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140772A","PhaseII.VR.Plate.2",6,9,"t",1,10,12.4,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140772A","PhaseII.VR.Plate.2",7,9,"t",1,10,12.91,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140774A","TP0001055.Plate.6",6,8,"t",1,100,30.66,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140774A","TP0001055.Plate.6",7,8,"t",1,100,29.87,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140776A","TP0001054.Plate.4",2,3,"t",1,99.9,22.59,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140776A","TP0001054.Plate.4",3,3,"t",1,99.9,24.64,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140778A","TP0001056.Plate.11",6,8,"t",1,100,26.3,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140778A","TP0001056.Plate.11",7,8,"t",1,100,30.05,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140780A","TP0001059.Plate.7",4,9,"t",1,100.1,1.35,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140780A","TP0001059.Plate.7",5,9,"t",1,100.1,1.54,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140782A","TP0001062.Plate.17",4,4,"t",1,100,2.2,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140782A","TP0001062.Plate.17",5,4,"t",1,100,1.4,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140784A","TP0001061.Plate.13",4,9,"t",1,100,34.77,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140784A","TP0001061.Plate.13",5,9,"t",1,100,29.77,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140786A","PhaseII.VR.Plate.4",2,5,"t",1,10.01,3.49,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140786A","PhaseII.VR.Plate.4",3,5,"t",1,10.01,3.33,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140788A","TP0001055.Plate.5",6,10,"t",1,99.9,21.73,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140788A","TP0001055.Plate.5",7,10,"t",1,99.9,25.49,"TP0001055 Plate 5_CeeTox.csv","cort" +"01140790A","TP0001056.Plate.12",4,10,"t",1,100.1,27.87,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140790A","TP0001056.Plate.12",5,10,"t",1,100.1,26.87,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140792A","TP0001061.Plate.13",6,4,"t",1,99.9,23,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140792A","TP0001061.Plate.13",7,4,"t",1,99.9,24.91,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140794A","TP0001056.Plate.9",6,10,"t",1,100,14.51,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140794A","TP0001056.Plate.9",7,10,"t",1,100,18.38,"TP0001056 Plate 9_CeeTox.csv","cort" +"01140796A","TP0001054.Plate.4",4,7,"t",1,100,25.31,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140796A","TP0001054.Plate.4",5,7,"t",1,100,26.95,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140798A","TP0001059.Plate.5",2,5,"t",1,99.9,13.44,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140798A","TP0001059.Plate.5",3,5,"t",1,99.9,11.31,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140800A","TP0001059.Plate.7",6,7,"t",1,100,31.46,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140800A","TP0001059.Plate.7",7,7,"t",1,100,26.31,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140802A","PhaseII.VR.Plate.2",4,10,"t",1,10,12.36,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140802A","PhaseII.VR.Plate.2",5,10,"t",1,10,12.51,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140804A","TP0001056.Plate.11",2,3,"t",1,99.9,22.02,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140804A","TP0001056.Plate.11",3,3,"t",1,99.9,28.82,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140806A","TP0001059.Plate.8",6,8,"t",1,99.9,21.51,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140806A","TP0001059.Plate.8",7,8,"t",1,99.9,22.33,"TP0001059 Plate 8_CeeTox.csv","cort" +"01140808A","PhaseII.VR.Plate.4",4,9,"t",1,2,13.73,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140808A","PhaseII.VR.Plate.4",5,9,"t",1,2,14.03,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140810A","TP0001059.Plate.5",4,9,"t",1,100,27.21,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140810A","TP0001059.Plate.5",5,9,"t",1,100,22.23,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140812A","TP0001054.Plate.2",4,7,"t",1,99.9,22.29,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140812A","TP0001054.Plate.2",5,7,"t",1,99.9,24.34,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140814A","PhaseII.VR.Plate.6",4,4,"t",1,1,13.12,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140814A","PhaseII.VR.Plate.6",5,4,"t",1,1,13.91,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140816A","TP0001060.Plate.9",4,3,"t",1,99.9,26.37,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140816A","TP0001060.Plate.9",5,3,"t",1,99.9,25.51,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140818A","TP0001061.Plate.13",4,5,"t",1,99.9,20.34,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140818A","TP0001061.Plate.13",5,5,"t",1,99.9,21.18,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140820A","PhaseII.VR.Plate.1",2,4,"t",1,9.99,10.2,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140820A","PhaseII.VR.Plate.1",3,4,"t",1,9.99,13.17,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140822A","TP0001060.Plate.11",4,5,"t",1,100.1,21.31,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140822A","TP0001060.Plate.11",5,5,"t",1,100.1,22.8,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140824A","PhaseII.VR.Plate.3",2,6,"t",1,10,5.37,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140824A","PhaseII.VR.Plate.3",3,6,"t",1,10,5.7,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140826A","TP0001060.Plate.12",4,6,"t",1,99.9,16.15,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140826A","TP0001060.Plate.12",5,6,"t",1,99.9,17.82,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140828A","TP0001061.Plate.13",4,4,"t",1,99.9,35.16,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140828A","TP0001061.Plate.13",5,4,"t",1,99.9,34.28,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140830A","TP0001058.Plate.2",4,4,"t",1,100.1,17.34,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140830A","TP0001058.Plate.2",5,4,"t",1,100.1,19.05,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140832A","TP0001060.Plate.9",4,10,"t",1,100,17.72,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140832A","TP0001060.Plate.9",5,10,"t",1,100,19.97,"TP0001060 Plate 9_CeeTox.csv","cort" +"01140834A","TP0001060.Plate.10",6,5,"t",1,100.1,24,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140834A","TP0001060.Plate.10",7,5,"t",1,100.1,23.07,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140836A","TP0001062.Plate.18",2,4,"t",1,100,28.55,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140836A","TP0001062.Plate.18",3,4,"t",1,100,30.66,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140838A","TP0001060.Plate.10",4,9,"t",1,99.9,19.08,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140838A","TP0001060.Plate.10",5,9,"t",1,99.9,22.53,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140840A","TP0001058.Plate.2",4,6,"t",1,100.1,24.36,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140840A","TP0001058.Plate.2",5,6,"t",1,100.1,29.03,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140842A","TP0001060.Plate.10",2,7,"t",1,99.9,22.78,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140842A","TP0001060.Plate.10",3,7,"t",1,99.9,22.57,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140844A","TP0001061.Plate.13",6,6,"t",1,100.1,17.09,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140844A","TP0001061.Plate.13",7,6,"t",1,100.1,19.88,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140846A","TP0001056.Plate.12",6,10,"t",1,100,29.61,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140846A","TP0001056.Plate.12",7,10,"t",1,100,30.57,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140848A","PhaseII.VR.Plate.6",6,9,"t",1,1,11.04,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140848A","PhaseII.VR.Plate.6",7,9,"t",1,1,13.36,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140850A","PhaseII.VR.Plate.5",4,7,"t",1,10.01,16.99,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140850A","PhaseII.VR.Plate.5",5,7,"t",1,10.01,19.65,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140852A","PhaseII.VR.Plate.1",4,10,"t",1,9.99,16.24,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140852A","PhaseII.VR.Plate.1",5,10,"t",1,9.99,17.65,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140854A","TP0001054.Plate.8",6,9,"t",1,50,26.97,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140854A","TP0001054.Plate.8",7,9,"t",1,50,22.65,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140856A","TP0001059.Plate.5",2,9,"t",1,99.9,19.98,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140856A","TP0001059.Plate.5",3,9,"t",1,99.9,20.4,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140858A","TP0001061.Plate.15",6,4,"t",1,100,21.78,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140858A","TP0001061.Plate.15",7,4,"t",1,100,23.32,"TP0001061 Plate 15_CeeTox.csv","cort" +"01140860A","TP0001055.Plate.6",4,6,"t",1,20,24.7,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140860A","TP0001055.Plate.6",5,6,"t",1,20,27.27,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140862A","PhaseII.VR.Plate.4",4,8,"t",1,9.99,16.84,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140862A","PhaseII.VR.Plate.4",5,8,"t",1,9.99,15.38,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140864A","TP0001055.Plate.6",4,9,"t",1,99.9,25.07,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140864A","TP0001055.Plate.6",5,9,"t",1,99.9,31.55,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140866A","TP0001061.Plate.13",2,4,"t",1,50,7.5,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140866A","TP0001061.Plate.13",3,4,"t",1,50,5.27,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140868A","TP0001057.Plate.13",2,10,"t",1,100,21.59,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140868A","TP0001057.Plate.13",3,10,"t",1,100,25.68,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140870A","TP0001056.Plate.10",2,4,"t",1,100,21.13,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140870A","TP0001056.Plate.10",3,4,"t",1,100,24.56,"TP0001056 Plate 10_CeeTox.csv","cort" +"01140872A","TP0001054.Plate.1",4,7,"t",1,100,18.23,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140872A","TP0001054.Plate.1",5,7,"t",1,100,17.32,"TP0001054 Plate 1_CeeTox.csv","cort" +"01140874A","TP0001061.Plate.16",2,5,"t",1,99.9,16.91,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140874A","TP0001061.Plate.16",3,5,"t",1,99.9,21.06,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140876A","TP0001060.Plate.10",4,8,"t",1,20,24.92,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140876A","TP0001060.Plate.10",5,8,"t",1,20,24.44,"TP0001060 Plate 10_CeeTox.csv","cort" +"01140878A","TP0001059.Plate.5",2,3,"t",1,100,32.11,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140878A","TP0001059.Plate.5",3,3,"t",1,100,26.4,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140880A","PhaseII.VR.Plate.1",2,10,"t",1,5,19.91,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140880A","PhaseII.VR.Plate.1",3,10,"t",1,5,20.4,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140882A","TP0001061.Plate.16",4,10,"t",1,99.9,25.26,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140882A","TP0001061.Plate.16",5,10,"t",1,99.9,28.43,"TP0001061 Plate 16_CeeTox.csv","cort" +"01140884A","TP0001059.Plate.7",4,7,"t",1,20,19.57,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140884A","TP0001059.Plate.7",5,7,"t",1,20,21.78,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140886A","TP0001061.Plate.14",4,8,"t",1,100.1,20.35,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140886A","TP0001061.Plate.14",5,8,"t",1,100.1,20.71,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140888A","TP0001059.Plate.7",2,9,"t",1,100.1,21.25,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140888A","TP0001059.Plate.7",3,9,"t",1,100.1,22.5,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140890A","TP0001059.Plate.6",2,8,"t",1,100,22.13,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140890A","TP0001059.Plate.6",3,8,"t",1,100,22.08,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140892A","TP0001056.Plate.11",4,5,"t",1,100,3.22,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140892A","TP0001056.Plate.11",5,5,"t",1,100,3.73,"TP0001056 Plate 11_CeeTox.csv","cort" +"01140894A","PhaseII.VR.Plate.6",4,10,"t",1,0.5,14.78,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140894A","PhaseII.VR.Plate.6",5,10,"t",1,0.5,13.14,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140896A","TP0001054.Plate.4",2,9,"t",1,100.1,24.57,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140896A","TP0001054.Plate.4",3,9,"t",1,100.1,23.71,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140898A","PhaseII.VR.Plate.6",2,4,"t",1,0.2,13.13,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140898A","PhaseII.VR.Plate.6",3,4,"t",1,0.2,12.23,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140900A","PhaseII.VR.Plate.1",2,7,"t",1,5,9.8,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140900A","PhaseII.VR.Plate.1",3,7,"t",1,5,12.77,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140902A","PhaseII.VR.Plate.5",6,10,"t",1,9.99,14.5,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140902A","PhaseII.VR.Plate.5",7,10,"t",1,9.99,16.1,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140904A","TP0001054.Plate.4",6,3,"t",1,100,26.16,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140904A","TP0001054.Plate.4",7,3,"t",1,100,27.02,"TP0001054 Plate 4_CeeTox.csv","cort" +"01140906A","TP0001057.Plate.16",6,7,"t",1,99.9,2.95,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140906A","TP0001057.Plate.16",7,7,"t",1,99.9,3.14,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140908A","TP0001058.Plate.3",2,8,"t",1,99.9,13.61,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140908A","TP0001058.Plate.3",3,8,"t",1,99.9,18.32,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140910A","TP0001061.Plate.14",6,6,"t",1,100.1,25.79,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140910A","TP0001061.Plate.14",7,6,"t",1,100.1,23.6,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140912A","PhaseII.VR.Plate.7",6,5,"t",1,1,9.98,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140912A","PhaseII.VR.Plate.7",7,5,"t",1,1,13.48,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140914A","TP0001054.Plate.3",2,10,"t",1,100.1,27.05,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140914A","TP0001054.Plate.3",3,10,"t",1,100.1,33.3,"TP0001054 Plate 3_CeeTox.csv","cort" +"01140916A","PhaseII.VR.Plate.1",2,5,"t",1,9.99,10.25,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140916A","PhaseII.VR.Plate.1",3,5,"t",1,9.99,13.51,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01140918A","TP0001061.Plate.13",4,7,"t",1,100.1,11.05,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140918A","TP0001061.Plate.13",5,7,"t",1,100.1,10.57,"TP0001061 Plate 13_CeeTox.csv","cort" +"01140920A","TP0001054.Plate.2",4,3,"t",1,100,18.73,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140920A","TP0001054.Plate.2",5,3,"t",1,100,21.25,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140922A","PhaseII.VR.Plate.4",6,7,"t",1,9.99,9.01,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140922A","PhaseII.VR.Plate.4",7,7,"t",1,9.99,8.92,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140924A","TP0001058.Plate.2",4,10,"t",1,100.1,18.9,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140924A","TP0001058.Plate.2",5,10,"t",1,100.1,17.47,"TP0001058 Plate 2_CeeTox.csv","cort" +"01140926A","TP0001059.Plate.7",4,6,"t",1,20,19.52,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140926A","TP0001059.Plate.7",5,6,"t",1,20,22.13,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140928A","TP0001058.Plate.3",6,6,"t",1,100,16.96,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140928A","TP0001058.Plate.3",7,6,"t",1,100,16.49,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140930A","TP0001059.Plate.5",4,6,"t",1,100.1,23.66,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140930A","TP0001059.Plate.5",5,6,"t",1,100.1,23.91,"TP0001059 Plate 5_CeeTox.csv","cort" +"01140932A","TP0001055.Plate.6",6,4,"t",1,100,30.56,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140932A","TP0001055.Plate.6",7,4,"t",1,100,26.96,"TP0001055 Plate 6_CeeTox.csv","cort" +"01140934A","TP0001057.Plate.16",6,3,"t",1,100,39.72,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140934A","TP0001057.Plate.16",7,3,"t",1,100,37.28,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140936A","TP0001054.Plate.7",4,5,"t",1,99.9,36.37,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140936A","TP0001054.Plate.7",5,5,"t",1,99.9,35.51,"TP0001055 Plate 7_CeeTox.csv","cort" +"01140938A","TP0001060.Plate.11",6,10,"t",1,99.9,21.95,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140938A","TP0001060.Plate.11",7,10,"t",1,99.9,25.57,"TP0001060 Plate 11_CeeTox.csv","cort" +"01140940A","PhaseII.VR.Plate.6",4,7,"t",1,1,14.96,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140940A","PhaseII.VR.Plate.6",5,7,"t",1,1,14.92,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140942A","TP0001054.Plate.8",2,10,"t",1,100,21.8,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140942A","TP0001054.Plate.8",3,10,"t",1,100,26.14,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140944A","TP0001056.Plate.12",6,7,"t",1,100,39.6,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140944A","TP0001056.Plate.12",7,7,"t",1,100,37.2,"TP0001056 Plate 12_CeeTox.csv","cort" +"01140946A","TP0001057.Plate.13",6,5,"t",1,99.9,22.27,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140946A","TP0001057.Plate.13",7,5,"t",1,99.9,21.24,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140948A","TP0001057.Plate.13",2,8,"t",1,100,14.05,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140948A","TP0001057.Plate.13",3,8,"t",1,100,18.14,"TP0001057 Plate 13_CeeTox.csv","cort" +"01140950A","TP0001062.Plate.18",2,7,"t",1,100.1,22.73,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140950A","TP0001062.Plate.18",3,7,"t",1,100.1,23.65,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140952A","TP0001061.Plate.14",4,5,"t",1,100.1,20.49,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140952A","TP0001061.Plate.14",5,5,"t",1,100.1,24.21,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140954A","PhaseII.VR.Plate.7",4,4,"t",1,1,10.39,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140954A","PhaseII.VR.Plate.7",5,4,"t",1,1,12.62,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01140956A","TP0001062.Plate.18",2,9,"t",1,20,15.09,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140956A","TP0001062.Plate.18",3,9,"t",1,20,17.56,"TP0001062_Plate_18_Ceetox.csv","cort" +"01140958A","PhaseII.VR.Plate.2",2,10,"t",1,10,16.73,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140958A","PhaseII.VR.Plate.2",3,10,"t",1,10,18.21,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01140960A","PhaseIIe1k.VR.Plate.1",6,3,"t",1,10,42.39,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140960A","PhaseIIe1k.VR.Plate.1",7,3,"t",1,10,46.93,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140960A","PhaseIIe1k.VR.Plate.1",6,4,"t",1,10,51.46,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140960A","PhaseIIe1k.VR.Plate.1",7,4,"t",1,10,52.85,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140960A","PhaseIIe1k.VR.Plate.1",6,5,"t",1,10,47.21,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140960A","PhaseIIe1k.VR.Plate.1",7,5,"t",1,10,48.17,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140960A","PhaseIIe1k.VR.Plate.1",6,6,"t",1,10,64.58,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140960A","PhaseIIe1k.VR.Plate.1",7,6,"t",1,10,65.45,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"01140962A","PhaseII.VR.Plate.6",4,5,"t",1,1,15.01,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140962A","PhaseII.VR.Plate.6",5,5,"t",1,1,13.64,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01140964A","TP0001059.Plate.7",2,10,"t",1,100.1,25.34,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140964A","TP0001059.Plate.7",3,10,"t",1,100.1,26.61,"TP0001059 Plate 7_CeeTox.csv","cort" +"01140966A","TP0001057.Plate.14",2,10,"t",1,100.1,29.98,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140966A","TP0001057.Plate.14",3,10,"t",1,100.1,28.45,"TP0001057 Plate 14_CeeTox.csv","cort" +"01140968A","TP0001054.Plate.2",6,5,"t",1,100,23.98,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140968A","TP0001054.Plate.2",7,5,"t",1,100,24.26,"TP0001054 Plate 2_CeeTox.csv","cort" +"01140970A","TP0001062.Plate.17",6,3,"t",1,99.9,38.04,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140970A","TP0001062.Plate.17",7,3,"t",1,99.9,41.88,"TP0001062_Plate_17_Ceetox.csv","cort" +"01140972A","TP0001058.Plate.3",4,8,"t",1,100.1,37.24,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140972A","TP0001058.Plate.3",5,8,"t",1,100.1,29.46,"TP0001058 Plate 3_CeeTox.csv","cort" +"01140974A","TP0001058.Plate.1",2,5,"t",1,100,28.52,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140974A","TP0001058.Plate.1",3,5,"t",1,100,28.39,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140976A","PhaseIIe1k.VR.Plate.3",4,3,"t",1,10.01,54.56,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01140976A","PhaseIIe1k.VR.Plate.3",5,3,"t",1,10.01,57.85,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01140976A","PhaseII.VR.Plate.3",6,7,"t",1,10.01,10.42,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140976A","PhaseII.VR.Plate.3",7,7,"t",1,10.01,11.63,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01140978A","PhaseII.VR.Plate.5",6,9,"t",1,10.01,16.25,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140978A","PhaseII.VR.Plate.5",7,9,"t",1,10.01,16.25,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01140980A","TP0001057.Plate.16",2,8,"t",1,100,29.24,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140980A","TP0001057.Plate.16",3,8,"t",1,100,31.36,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140982A","TP0001058.Plate.1",6,4,"t",1,100,1.5,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140982A","TP0001058.Plate.1",7,4,"t",1,100,2.21,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140984A","TP0001057.Plate.16",2,6,"t",1,99.9,27.1,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140984A","TP0001057.Plate.16",3,6,"t",1,99.9,32.07,"TP0001057 Plate 16_CeeTox.csv","cort" +"01140986A","TP0001054.Plate.8",2,8,"t",1,100,1.05,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140986A","TP0001054.Plate.8",3,8,"t",1,100,1.05,"TP0001055 Plate 8_CeeTox.csv","cort" +"01140988A","TP0001060.Plate.12",2,3,"t",1,100,35.26,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140988A","TP0001060.Plate.12",3,3,"t",1,100,34.03,"TP0001060 Plate 12_CeeTox.csv","cort" +"01140990A","TP0001061.Plate.14",6,10,"t",1,100.1,18.6,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140990A","TP0001061.Plate.14",7,10,"t",1,100.1,15.11,"TP0001061 Plate 14_CeeTox.csv","cort" +"01140992A","PhaseII.VR.Plate.8",4,10,"t",1,1,9.01,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140992A","PhaseII.VR.Plate.8",5,10,"t",1,1,12.4,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01140994A","TP0001059.Plate.6",4,8,"t",1,99.9,21.63,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140994A","TP0001059.Plate.6",5,8,"t",1,99.9,24.22,"TP0001059 Plate 6_CeeTox.csv","cort" +"01140996A","PhaseII.VR.Plate.4",2,7,"t",1,10.01,7.85,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140996A","PhaseII.VR.Plate.4",3,7,"t",1,10.01,7.88,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01140998A","TP0001058.Plate.1",2,9,"t",1,100.1,24.82,"TP0001058 Plate 1_Ceetox.csv","cort" +"01140998A","TP0001058.Plate.1",3,9,"t",1,100.1,19.91,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141000A","TP0001061.Plate.14",6,4,"t",1,100,23.48,"TP0001061 Plate 14_CeeTox.csv","cort" +"01141000A","TP0001061.Plate.14",7,4,"t",1,100,21.54,"TP0001061 Plate 14_CeeTox.csv","cort" +"01141002A","TP0001058.Plate.4",6,10,"t",1,100,27.53,"TP0001058 Plate 4_CeeTox.csv","cort" +"01141002A","TP0001058.Plate.4",7,10,"t",1,100,25.92,"TP0001058 Plate 4_CeeTox.csv","cort" +"01141004A","TP0001057.Plate.14",4,7,"t",1,100.1,29.12,"TP0001057 Plate 14_CeeTox.csv","cort" +"01141004A","TP0001057.Plate.14",5,7,"t",1,100.1,31.15,"TP0001057 Plate 14_CeeTox.csv","cort" +"01141006A","TP0001060.Plate.9",4,6,"t",1,99.9,24.32,"TP0001060 Plate 9_CeeTox.csv","cort" +"01141006A","TP0001060.Plate.9",5,6,"t",1,99.9,20.68,"TP0001060 Plate 9_CeeTox.csv","cort" +"01141008A","TP0001055.Plate.5",2,5,"t",1,100.1,29.36,"TP0001055 Plate 5_CeeTox.csv","cort" +"01141008A","TP0001055.Plate.5",3,5,"t",1,100.1,30.64,"TP0001055 Plate 5_CeeTox.csv","cort" +"01141010A","TP0001058.Plate.1",2,10,"t",1,99.9,5.08,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141010A","TP0001058.Plate.1",3,10,"t",1,99.9,3.81,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141012A","TP0001055.Plate.6",4,3,"t",1,100,26.02,"TP0001055 Plate 6_CeeTox.csv","cort" +"01141012A","TP0001055.Plate.6",5,3,"t",1,100,21.01,"TP0001055 Plate 6_CeeTox.csv","cort" +"01141014A","PhaseII.VR.Plate.6",2,8,"t",1,1,16.61,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01141014A","PhaseII.VR.Plate.6",3,8,"t",1,1,15.04,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01141016A","TP0001057.Plate.14",6,4,"t",1,99.9,28.63,"TP0001057 Plate 14_CeeTox.csv","cort" +"01141016A","TP0001057.Plate.14",7,4,"t",1,99.9,25.68,"TP0001057 Plate 14_CeeTox.csv","cort" +"01141018A","TP0001062.Plate.17",6,8,"t",1,99.9,28.13,"TP0001062_Plate_17_Ceetox.csv","cort" +"01141018A","TP0001062.Plate.17",7,8,"t",1,99.9,30.27,"TP0001062_Plate_17_Ceetox.csv","cort" +"01141020A","TP0001057.Plate.15",4,3,"t",1,99.9,29.41,"TP0001057 Plate 15_CeeTox.csv","cort" +"01141020A","TP0001057.Plate.15",5,3,"t",1,99.9,28.66,"TP0001057 Plate 15_CeeTox.csv","cort" +"01141022A","TP0001059.Plate.8",4,3,"t",1,100,31.73,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141022A","TP0001059.Plate.8",5,3,"t",1,100,29.74,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141024A","TP0001061.Plate.13",2,10,"t",1,100,19.85,"TP0001061 Plate 13_CeeTox.csv","cort" +"01141024A","TP0001061.Plate.13",3,10,"t",1,100,25.06,"TP0001061 Plate 13_CeeTox.csv","cort" +"01141026A","TP0001056.Plate.9",2,4,"t",1,100,21.08,"TP0001056 Plate 9_CeeTox.csv","cort" +"01141026A","TP0001056.Plate.9",3,4,"t",1,100,23.84,"TP0001056 Plate 9_CeeTox.csv","cort" +"01141028A","PhaseIIe1k.VR.Plate.3",2,7,"t",1,1,51.8,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01141028A","PhaseIIe1k.VR.Plate.3",3,7,"t",1,1,59.46,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01141030A","TP0001059.Plate.8",2,7,"t",1,100.1,16.21,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141030A","TP0001059.Plate.8",3,7,"t",1,100.1,26.33,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141032A","TP0001055.Plate.5",6,8,"t",1,20,20.85,"TP0001055 Plate 5_CeeTox.csv","cort" +"01141032A","TP0001055.Plate.5",7,8,"t",1,20,21.95,"TP0001055 Plate 5_CeeTox.csv","cort" +"01141034A","PhaseII.VR.Plate.3",4,4,"t",1,9.99,3.91,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01141034A","PhaseII.VR.Plate.3",5,4,"t",1,9.99,5.19,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01141036A","TP0001056.Plate.10",2,3,"t",1,99.9,20.24,"TP0001056 Plate 10_CeeTox.csv","cort" +"01141036A","TP0001056.Plate.10",3,3,"t",1,99.9,21.72,"TP0001056 Plate 10_CeeTox.csv","cort" +"01141038A","TP0001058.Plate.3",4,4,"t",1,99.9,4.2,"TP0001058 Plate 3_CeeTox.csv","cort" +"01141038A","TP0001058.Plate.3",5,4,"t",1,99.9,4.07,"TP0001058 Plate 3_CeeTox.csv","cort" +"01141040A","TP0001061.Plate.15",4,3,"t",1,100.1,7.93,"TP0001061 Plate 15_CeeTox.csv","cort" +"01141040A","TP0001061.Plate.15",5,3,"t",1,100.1,7.81,"TP0001061 Plate 15_CeeTox.csv","cort" +"01141042A","TP0001060.Plate.11",6,3,"t",1,100,24.81,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141042A","TP0001060.Plate.11",7,3,"t",1,100,24.12,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141044A","TP0001058.Plate.1",6,3,"t",1,99.9,28.84,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141044A","TP0001058.Plate.1",7,3,"t",1,99.9,32.6,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141046A","PhaseII.VR.Plate.5",2,9,"t",1,10.01,14.02,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01141046A","PhaseII.VR.Plate.5",3,9,"t",1,10.01,16.58,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01141048A","TP0001054.Plate.1",2,9,"t",1,100.1,15.86,"TP0001054 Plate 1_CeeTox.csv","cort" +"01141048A","TP0001054.Plate.1",3,9,"t",1,100.1,23.75,"TP0001054 Plate 1_CeeTox.csv","cort" +"01141050A","PhaseII.VR.Plate.8",6,6,"t",1,1,6.97,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01141050A","PhaseII.VR.Plate.8",7,6,"t",1,1,6.48,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01141052A","TP0001059.Plate.7",6,8,"t",1,99.9,39.01,"TP0001059 Plate 7_CeeTox.csv","cort" +"01141052A","TP0001059.Plate.7",7,8,"t",1,99.9,30.11,"TP0001059 Plate 7_CeeTox.csv","cort" +"01141054A","TP0001057.Plate.14",2,7,"t",1,100,28.76,"TP0001057 Plate 14_CeeTox.csv","cort" +"01141054A","TP0001057.Plate.14",3,7,"t",1,100,28.49,"TP0001057 Plate 14_CeeTox.csv","cort" +"01141056A","TP0001061.Plate.16",2,3,"t",1,100,25.88,"TP0001061 Plate 16_CeeTox.csv","cort" +"01141056A","TP0001061.Plate.16",3,3,"t",1,100,28.28,"TP0001061 Plate 16_CeeTox.csv","cort" +"01141058A","PhaseII.VR.Plate.1",6,8,"t",1,9.99,15.82,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01141058A","PhaseII.VR.Plate.1",7,8,"t",1,9.99,16.06,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01141060A","TP0001059.Plate.8",4,10,"t",1,100.1,23.43,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141060A","TP0001059.Plate.8",5,10,"t",1,100.1,28.42,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141062A","TP0001059.Plate.8",6,10,"t",1,100,23.12,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141062A","TP0001059.Plate.8",7,10,"t",1,100,22.12,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141064A","PhaseII.VR.Plate.2",2,7,"t",1,9.99,11.71,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01141064A","PhaseII.VR.Plate.2",3,7,"t",1,9.99,9.72,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01141066A","TP0001060.Plate.10",4,3,"t",1,99.9,13.82,"TP0001060 Plate 10_CeeTox.csv","cort" +"01141066A","TP0001060.Plate.10",5,3,"t",1,99.9,15.7,"TP0001060 Plate 10_CeeTox.csv","cort" +"01141068A","PhaseII.VR.Plate.2",2,4,"t",1,10.01,6.09,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01141068A","PhaseII.VR.Plate.2",3,4,"t",1,10.01,7.15,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01141070A","TP0001054.Plate.3",2,7,"t",1,99.9,19.22,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141070A","TP0001054.Plate.3",3,7,"t",1,99.9,27.17,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141072A","TP0001057.Plate.14",6,7,"t",1,100,20.51,"TP0001057 Plate 14_CeeTox.csv","cort" +"01141072A","TP0001057.Plate.14",7,7,"t",1,100,23.96,"TP0001057 Plate 14_CeeTox.csv","cort" +"01141074A","TP0001059.Plate.5",4,8,"t",1,50,18.24,"TP0001059 Plate 5_CeeTox.csv","cort" +"01141074A","TP0001059.Plate.5",5,8,"t",1,50,15.05,"TP0001059 Plate 5_CeeTox.csv","cort" +"01141076A","PhaseII.VR.Plate.7",6,6,"t",1,1,14.3,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01141076A","PhaseII.VR.Plate.7",7,6,"t",1,1,18.54,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01141078A","PhaseII.VR.Plate.8",4,3,"t",1,1,13.91,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01141078A","PhaseII.VR.Plate.8",5,3,"t",1,1,14.01,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01141080A","PhaseII.VR.Plate.4",2,9,"t",1,10,10.75,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01141080A","PhaseII.VR.Plate.4",3,9,"t",1,10,10.85,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01141082A","PhaseII.VR.Plate.4",2,10,"t",1,9.99,14.29,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01141082A","PhaseII.VR.Plate.4",3,10,"t",1,9.99,15.27,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01141084A","TP0001057.Plate.16",2,4,"t",1,100.1,29.79,"TP0001057 Plate 16_CeeTox.csv","cort" +"01141084A","TP0001057.Plate.16",3,4,"t",1,100.1,35.02,"TP0001057 Plate 16_CeeTox.csv","cort" +"01141086A","PhaseII.VR.Plate.3",6,8,"t",1,10,11.01,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01141086A","PhaseII.VR.Plate.3",7,8,"t",1,10,10.92,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01141088A","TP0001054.Plate.3",4,10,"t",1,100.1,14.16,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141088A","TP0001054.Plate.3",5,10,"t",1,100.1,14.65,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141090A","TP0001061.Plate.14",4,9,"t",1,99.9,6.16,"TP0001061 Plate 14_CeeTox.csv","cort" +"01141090A","TP0001061.Plate.14",5,9,"t",1,99.9,5.83,"TP0001061 Plate 14_CeeTox.csv","cort" +"01141092A","TP0001054.Plate.4",4,4,"t",1,100.1,26.6,"TP0001054 Plate 4_CeeTox.csv","cort" +"01141092A","TP0001054.Plate.4",5,4,"t",1,100.1,23.43,"TP0001054 Plate 4_CeeTox.csv","cort" +"01141094A","TP0001056.Plate.12",4,3,"t",1,100,27.24,"TP0001056 Plate 12_CeeTox.csv","cort" +"01141094A","TP0001056.Plate.12",5,3,"t",1,100,27.54,"TP0001056 Plate 12_CeeTox.csv","cort" +"01141096A","TP0001057.Plate.16",6,4,"t",1,100.1,35.39,"TP0001057 Plate 16_CeeTox.csv","cort" +"01141096A","TP0001057.Plate.16",7,4,"t",1,100.1,33.65,"TP0001057 Plate 16_CeeTox.csv","cort" +"01141098A","TP0001061.Plate.14",4,7,"t",1,100.1,41.01,"TP0001061 Plate 14_CeeTox.csv","cort" +"01141098A","TP0001061.Plate.14",5,7,"t",1,100.1,40.97,"TP0001061 Plate 14_CeeTox.csv","cort" +"01141100A","TP0001060.Plate.12",6,5,"t",1,99.9,18.16,"TP0001060 Plate 12_CeeTox.csv","cort" +"01141100A","TP0001060.Plate.12",7,5,"t",1,99.9,22.74,"TP0001060 Plate 12_CeeTox.csv","cort" +"01141102A","TP0001054.Plate.8",4,3,"t",1,99.9,20.99,"TP0001055 Plate 8_CeeTox.csv","cort" +"01141102A","TP0001054.Plate.8",5,3,"t",1,99.9,21.51,"TP0001055 Plate 8_CeeTox.csv","cort" +"01141104A","TP0001060.Plate.12",4,5,"t",1,100.1,19.64,"TP0001060 Plate 12_CeeTox.csv","cort" +"01141104A","TP0001060.Plate.12",5,5,"t",1,100.1,22.7,"TP0001060 Plate 12_CeeTox.csv","cort" +"01141106A","PhaseII.VR.Plate.1",6,4,"t",1,10,17.2,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01141106A","PhaseII.VR.Plate.1",7,4,"t",1,10,19.46,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01141108A","TP0001060.Plate.9",2,6,"t",1,100,21.17,"TP0001060 Plate 9_CeeTox.csv","cort" +"01141108A","TP0001060.Plate.9",3,6,"t",1,100,20.24,"TP0001060 Plate 9_CeeTox.csv","cort" +"01141110A","TP0001059.Plate.8",2,6,"t",1,100.1,26.58,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141110A","TP0001059.Plate.8",3,6,"t",1,100.1,20.2,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141112A","PhaseII.VR.Plate.5",4,8,"t",1,9.99,10.16,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01141112A","PhaseII.VR.Plate.5",5,8,"t",1,9.99,11.9,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01141114A","TP0001057.Plate.15",6,6,"t",1,99.9,25.82,"TP0001057 Plate 15_CeeTox.csv","cort" +"01141114A","TP0001057.Plate.15",7,6,"t",1,99.9,29.95,"TP0001057 Plate 15_CeeTox.csv","cort" +"01141118A","TP0001055.Plate.6",4,5,"t",1,100.1,34.28,"TP0001055 Plate 6_CeeTox.csv","cort" +"01141118A","TP0001055.Plate.6",5,5,"t",1,100.1,33.82,"TP0001055 Plate 6_CeeTox.csv","cort" +"01141120A","PhaseIIe1k.VR.Plate.3",2,3,"t",1,10,56.12,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01141120A","PhaseIIe1k.VR.Plate.3",3,3,"t",1,10,45.06,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01141122A","PhaseII.VR.Plate.7",4,9,"t",1,1,11.48,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01141122A","PhaseII.VR.Plate.7",5,9,"t",1,1,10.6,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01141124A","TP0001055.Plate.5",2,10,"t",1,100,1.15,"TP0001055 Plate 5_CeeTox.csv","cort" +"01141124A","TP0001055.Plate.5",3,10,"t",1,100,1.08,"TP0001055 Plate 5_CeeTox.csv","cort" +"01141126A","PhaseII.VR.Plate.6",4,8,"t",1,1,15.05,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01141126A","PhaseII.VR.Plate.6",5,8,"t",1,1,11.86,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01141128A","TP0001059.Plate.5",4,4,"t",1,100,9.25,"TP0001059 Plate 5_CeeTox.csv","cort" +"01141128A","TP0001059.Plate.5",5,4,"t",1,100,8.62,"TP0001059 Plate 5_CeeTox.csv","cort" +"01141130A","PhaseII.VR.Plate.1",6,5,"t",1,5,11.98,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01141130A","PhaseII.VR.Plate.1",7,5,"t",1,5,13.93,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01141132A","PhaseII.VR.Plate.7",2,10,"t",1,1,8.02,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01141132A","PhaseII.VR.Plate.7",3,10,"t",1,1,14.45,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01141134A","TP0001058.Plate.1",2,3,"t",1,10,24.86,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141134A","TP0001058.Plate.1",3,3,"t",1,10,21.14,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141136A","TP0001058.Plate.1",2,4,"t",1,99.9,30.28,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141136A","TP0001058.Plate.1",3,4,"t",1,99.9,26.71,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141138A","PhaseII.VR.Plate.5",2,8,"t",1,10,12.24,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01141138A","PhaseII.VR.Plate.5",3,8,"t",1,10,14.82,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"01141140A","PhaseII.VR.Plate.7",6,4,"t",1,1,8.11,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01141140A","PhaseII.VR.Plate.7",7,4,"t",1,1,8.12,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"01141142A","TP0001054.Plate.3",4,4,"t",1,100.1,11.71,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141142A","TP0001054.Plate.3",5,4,"t",1,100.1,12.14,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141144A","PhaseIIe1k.VR.Plate.2",2,3,"t",1,9.99,0.53,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"01141144A","PhaseIIe1k.VR.Plate.2",3,3,"t",1,9.99,0.66,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"01141146A","TP0001056.Plate.10",2,7,"t",1,100.1,6.49,"TP0001056 Plate 10_CeeTox.csv","cort" +"01141146A","TP0001056.Plate.10",3,7,"t",1,100.1,6.84,"TP0001056 Plate 10_CeeTox.csv","cort" +"01141148A","PhaseII.VR.Plate.4",6,6,"t",1,10,10.29,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01141148A","PhaseII.VR.Plate.4",7,6,"t",1,10,9.64,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"01141150A","TP0001054.Plate.2",2,7,"t",1,99.9,21.52,"TP0001054 Plate 2_CeeTox.csv","cort" +"01141150A","TP0001054.Plate.2",3,7,"t",1,99.9,24.66,"TP0001054 Plate 2_CeeTox.csv","cort" +"01141152A","TP0001059.Plate.6",6,5,"t",1,99.9,19.1,"TP0001059 Plate 6_CeeTox.csv","cort" +"01141152A","TP0001059.Plate.6",7,5,"t",1,99.9,18.88,"TP0001059 Plate 6_CeeTox.csv","cort" +"01141154A","TP0001061.Plate.14",2,7,"t",1,99.9,16.2,"TP0001061 Plate 14_CeeTox.csv","cort" +"01141154A","TP0001061.Plate.14",3,7,"t",1,99.9,20.42,"TP0001061 Plate 14_CeeTox.csv","cort" +"01141162A","TP0001060.Plate.11",4,8,"t",1,100,23.59,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141162A","TP0001060.Plate.11",5,8,"t",1,100,20.6,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141164A","TP0001058.Plate.3",2,7,"t",1,100.1,13.78,"TP0001058 Plate 3_CeeTox.csv","cort" +"01141164A","TP0001058.Plate.3",3,7,"t",1,100.1,20.43,"TP0001058 Plate 3_CeeTox.csv","cort" +"01141166A","PhaseII.VR.Plate.2",4,8,"t",1,9.99,10.36,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01141166A","PhaseII.VR.Plate.2",5,8,"t",1,9.99,10.81,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01141168A","TP0001060.Plate.10",4,7,"t",1,100,19.17,"TP0001060 Plate 10_CeeTox.csv","cort" +"01141168A","TP0001060.Plate.10",5,7,"t",1,100,20.77,"TP0001060 Plate 10_CeeTox.csv","cort" +"01141170A","TP0001061.Plate.13",2,8,"t",1,100,17.08,"TP0001061 Plate 13_CeeTox.csv","cort" +"01141170A","TP0001061.Plate.13",3,8,"t",1,100,17.59,"TP0001061 Plate 13_CeeTox.csv","cort" +"01141172A","PhaseII.VR.Plate.3",6,6,"t",1,10,8.06,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01141172A","PhaseII.VR.Plate.3",7,6,"t",1,10,9.02,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01141174A","PhaseIIe1k.VR.Plate.3",2,9,"t",1,1,52.83,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01141174A","PhaseIIe1k.VR.Plate.3",3,9,"t",1,1,52.05,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01141176A","TP0001055.Plate.6",2,7,"t",1,100,20.38,"TP0001055 Plate 6_CeeTox.csv","cort" +"01141176A","TP0001055.Plate.6",3,7,"t",1,100,19.44,"TP0001055 Plate 6_CeeTox.csv","cort" +"01141178A","TP0001055.Plate.6",2,6,"t",1,99.9,4.16,"TP0001055 Plate 6_CeeTox.csv","cort" +"01141178A","TP0001055.Plate.6",3,6,"t",1,99.9,4.85,"TP0001055 Plate 6_CeeTox.csv","cort" +"01141180A","TP0001062.Plate.17",4,8,"t",1,100,24.72,"TP0001062_Plate_17_Ceetox.csv","cort" +"01141180A","TP0001062.Plate.17",5,8,"t",1,100,26.41,"TP0001062_Plate_17_Ceetox.csv","cort" +"01141182A","PhaseII.VR.Plate.6",2,10,"t",1,1,12.48,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01141182A","PhaseII.VR.Plate.6",3,10,"t",1,1,10.49,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01141184A","TP0001059.Plate.7",6,6,"t",1,100.1,3.04,"TP0001059 Plate 7_CeeTox.csv","cort" +"01141184A","TP0001059.Plate.7",7,6,"t",1,100.1,3.04,"TP0001059 Plate 7_CeeTox.csv","cort" +"01141186A","PhaseII.VR.Plate.6",6,8,"t",1,1,9.09,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01141186A","PhaseII.VR.Plate.6",7,8,"t",1,1,10.18,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"01141188A","TP0001054.Plate.3",6,5,"t",1,100,28.55,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141188A","TP0001054.Plate.3",7,5,"t",1,100,25.72,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141190A","TP0001062.Plate.18",4,10,"t",1,50,37.12,"TP0001062_Plate_18_Ceetox.csv","cort" +"01141190A","TP0001062.Plate.18",5,10,"t",1,50,34.22,"TP0001062_Plate_18_Ceetox.csv","cort" +"01141192A","TP0001058.Plate.1",2,8,"t",1,100,18.93,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141192A","TP0001058.Plate.1",3,8,"t",1,100,15.23,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141194A","TP0001054.Plate.3",6,9,"t",1,50,110.29,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141194A","TP0001054.Plate.3",7,9,"t",1,50,112.69,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141196A","TP0001058.Plate.4",2,5,"t",1,50,51.07,"TP0001058 Plate 4_CeeTox.csv","cort" +"01141196A","TP0001058.Plate.4",3,5,"t",1,50,54.68,"TP0001058 Plate 4_CeeTox.csv","cort" +"01141200A","TP0001054.Plate.7",4,9,"t",1,10,25.02,"TP0001055 Plate 7_CeeTox.csv","cort" +"01141200A","TP0001054.Plate.7",5,9,"t",1,10,23.6,"TP0001055 Plate 7_CeeTox.csv","cort" +"01141202A","PhaseII.VR.Plate.8",6,4,"t",1,1,10.64,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01141202A","PhaseII.VR.Plate.8",7,4,"t",1,1,13.74,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"01141204A","TP0001060.Plate.11",2,4,"t",1,99.9,22.72,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141204A","TP0001060.Plate.11",3,4,"t",1,99.9,23.92,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141206A","TP0001061.Plate.16",2,4,"t",1,100,1.54,"TP0001061 Plate 16_CeeTox.csv","cort" +"01141206A","TP0001061.Plate.16",3,4,"t",1,100,1.56,"TP0001061 Plate 16_CeeTox.csv","cort" +"01141208A","TP0001060.Plate.10",2,10,"t",1,99.9,2.02,"TP0001060 Plate 10_CeeTox.csv","cort" +"01141208A","TP0001060.Plate.10",3,10,"t",1,99.9,2.26,"TP0001060 Plate 10_CeeTox.csv","cort" +"01141210A","TP0001058.Plate.1",6,6,"t",1,99.9,6.99,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141210A","TP0001058.Plate.1",7,6,"t",1,99.9,8.09,"TP0001058 Plate 1_Ceetox.csv","cort" +"01141212A","TP0001054.Plate.3",2,9,"t",1,100.1,21.64,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141212A","TP0001054.Plate.3",3,9,"t",1,100.1,21.47,"TP0001054 Plate 3_CeeTox.csv","cort" +"01141214A","PhaseII.VR.Plate.2",4,3,"t",1,10,11.01,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01141214A","PhaseII.VR.Plate.2",5,3,"t",1,10,11.09,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"01141216A","TP0001054.Plate.4",2,5,"t",1,100,22.39,"TP0001054 Plate 4_CeeTox.csv","cort" +"01141216A","TP0001054.Plate.4",3,5,"t",1,100,24.95,"TP0001054 Plate 4_CeeTox.csv","cort" +"01141218A","TP0001059.Plate.8",6,9,"t",1,100,9.33,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141218A","TP0001059.Plate.8",7,9,"t",1,100,8.79,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141220A","TP0001058.Plate.2",6,3,"t",1,100.1,23.24,"TP0001058 Plate 2_CeeTox.csv","cort" +"01141220A","TP0001058.Plate.2",7,3,"t",1,100.1,23.32,"TP0001058 Plate 2_CeeTox.csv","cort" +"01141222A","TP0001060.Plate.11",4,9,"t",1,100,19.2,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141222A","TP0001060.Plate.11",5,9,"t",1,100,20.82,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141224A","TP0001060.Plate.11",2,8,"t",1,100,22.09,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141224A","TP0001060.Plate.11",3,8,"t",1,100,21.8,"TP0001060 Plate 11_CeeTox.csv","cort" +"01141226A","PhaseIIe1k.VR.Plate.3",4,9,"t",1,1,58.34,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01141226A","PhaseIIe1k.VR.Plate.3",5,9,"t",1,1,54.77,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"01141228A","TP0001059.Plate.7",4,8,"t",1,100.1,16,"TP0001059 Plate 7_CeeTox.csv","cort" +"01141228A","TP0001059.Plate.7",5,8,"t",1,100.1,13.18,"TP0001059 Plate 7_CeeTox.csv","cort" +"01141230A","TP0001056.Plate.12",6,5,"t",1,100.1,29.97,"TP0001056 Plate 12_CeeTox.csv","cort" +"01141230A","TP0001056.Plate.12",7,5,"t",1,100.1,28.81,"TP0001056 Plate 12_CeeTox.csv","cort" +"01141232A","PhaseII.VR.Plate.3",6,9,"t",1,9.99,12.36,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01141232A","PhaseII.VR.Plate.3",7,9,"t",1,9.99,12.36,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"01141234A","PhaseII.VR.Plate.1",6,3,"t",1,9.99,13.83,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01141234A","PhaseII.VR.Plate.1",7,3,"t",1,9.99,12.78,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"01141236A","TP0001059.Plate.8",6,3,"t",1,100,25.68,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141236A","TP0001059.Plate.8",7,3,"t",1,100,26.94,"TP0001059 Plate 8_CeeTox.csv","cort" +"01141238A","TP0001059.Plate.7",4,10,"t",1,100,25.65,"TP0001059 Plate 7_CeeTox.csv","cort" +"01141238A","TP0001059.Plate.7",5,10,"t",1,100,25.56,"TP0001059 Plate 7_CeeTox.csv","cort" +"01141240A","TP0001062.Plate.18",2,5,"t",1,20,6.48,"TP0001062_Plate_18_Ceetox.csv","cort" +"01141240A","TP0001062.Plate.18",3,5,"t",1,20,7.13,"TP0001062_Plate_18_Ceetox.csv","cort" +"01141242A","TP0001060.Plate.10",6,6,"t",1,100.1,22.97,"TP0001060 Plate 10_CeeTox.csv","cort" +"01141242A","TP0001060.Plate.10",7,6,"t",1,100.1,24.09,"TP0001060 Plate 10_CeeTox.csv","cort" +"01141244A","TP0001059.Plate.5",6,5,"t",1,99.9,20.76,"TP0001059 Plate 5_CeeTox.csv","cort" +"01141244A","TP0001059.Plate.5",7,5,"t",1,99.9,20.62,"TP0001059 Plate 5_CeeTox.csv","cort" +"01141246A","TP0001054.Plate.4",4,8,"t",1,20,21.23,"TP0001054 Plate 4_CeeTox.csv","cort" +"01141246A","TP0001054.Plate.4",5,8,"t",1,20,21.03,"TP0001054 Plate 4_CeeTox.csv","cort" +"01141252A","TP0001056.Plate.10",4,4,"t",1,99.9,32.38,"TP0001056 Plate 10_CeeTox.csv","cort" +"01141252A","TP0001056.Plate.10",5,4,"t",1,99.9,34.25,"TP0001056 Plate 10_CeeTox.csv","cort" +"01141254A","TP0001056.Plate.9",6,4,"t",1,99.9,22.14,"TP0001056 Plate 9_CeeTox.csv","cort" +"01141254A","TP0001056.Plate.9",7,4,"t",1,99.9,25.82,"TP0001056 Plate 9_CeeTox.csv","cort" +"11140700A","PhaseII.VR.Plate.7",2,7,"t",1,1,14.05,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"11140700A","PhaseII.VR.Plate.7",3,7,"t",1,1,14.94,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"11140702A","PhaseII.VR.Plate.7",6,7,"t",1,1,14.67,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"11140702A","PhaseII.VR.Plate.7",7,7,"t",1,1,16.98,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"11140704A","TP0001058.Plate.1",6,10,"t",1,50,25.43,"TP0001058 Plate 1_Ceetox.csv","cort" +"11140704A","TP0001058.Plate.1",7,10,"t",1,50,25.41,"TP0001058 Plate 1_Ceetox.csv","cort" +"11140794A","TP0001057.Plate.15",4,7,"t",1,100,19.87,"TP0001057 Plate 15_CeeTox.csv","cort" +"11140794A","TP0001057.Plate.15",5,7,"t",1,100,18.19,"TP0001057 Plate 15_CeeTox.csv","cort" +"11141106A","PhaseII.VR.Plate.2",2,9,"t",1,10,17.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"11141106A","PhaseII.VR.Plate.2",3,9,"t",1,10,19.56,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"11141120A","PhaseIIe1k.VR.Plate.3",6,4,"t",1,10,55.03,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"11141120A","PhaseIIe1k.VR.Plate.3",7,4,"t",1,10,55.75,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"11141122A","PhaseII.VR.Plate.3",4,10,"t",1,10,11.49,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"11141122A","PhaseII.VR.Plate.3",5,10,"t",1,10,13.91,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"11141124A","TP0001057.Plate.15",2,6,"t",1,100,1.34,"TP0001057 Plate 15_CeeTox.csv","cort" +"11141124A","TP0001057.Plate.15",3,6,"t",1,100,1.25,"TP0001057 Plate 15_CeeTox.csv","cort" +"11141126A","PhaseII.VR.Plate.6",6,5,"t",1,1,13.14,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"11141126A","PhaseII.VR.Plate.6",7,5,"t",1,1,14.29,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"11141130A","TP0001055.Plate.5",6,3,"t",1,50,13.99,"TP0001055 Plate 5_CeeTox.csv","cort" +"11141130A","TP0001055.Plate.5",7,3,"t",1,50,12.56,"TP0001055 Plate 5_CeeTox.csv","cort" +"11141132A","PhaseII.VR.Plate.7",2,9,"t",1,1,13.33,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"11141132A","PhaseII.VR.Plate.7",3,9,"t",1,1,15.14,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"21140700A","PhaseII.VR.Plate.3",6,3,"t",1,10,14.19,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"21140700A","PhaseII.VR.Plate.3",7,3,"t",1,10,15.28,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"21140702A","PhaseII.VR.Plate.8",2,10,"t",1,1,12.96,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"21140702A","PhaseII.VR.Plate.8",3,10,"t",1,1,14.89,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"21140704A","TP0001061.Plate.16",6,8,"t",1,50,16.91,"TP0001061 Plate 16_CeeTox.csv","cort" +"21140704A","TP0001061.Plate.16",7,8,"t",1,50,17.46,"TP0001061 Plate 16_CeeTox.csv","cort" +"21140794A","TP0001061.Plate.13",2,9,"t",1,100,11.8,"TP0001061 Plate 13_CeeTox.csv","cort" +"21140794A","TP0001061.Plate.13",3,9,"t",1,100,14.4,"TP0001061 Plate 13_CeeTox.csv","cort" +"21141106A","PhaseII.VR.Plate.2",2,8,"t",1,10,15.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"21141106A","PhaseII.VR.Plate.2",3,8,"t",1,10,19.64,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"21141120A","PhaseIIe1k.VR.Plate.3",4,5,"t",1,10,54.43,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"21141120A","PhaseIIe1k.VR.Plate.3",5,5,"t",1,10,61.57,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"21141122A","PhaseII.VR.Plate.8",2,7,"t",1,1,12.03,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"21141122A","PhaseII.VR.Plate.8",3,7,"t",1,1,14.06,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"21141124A","TP0001058.Plate.4",6,7,"t",1,100,1.12,"TP0001058 Plate 4_CeeTox.csv","cort" +"21141124A","TP0001058.Plate.4",7,7,"t",1,100,1.14,"TP0001058 Plate 4_CeeTox.csv","cort" +"21141126A","TP0001059.Plate.7",6,10,"t",1,100,8.48,"TP0001059 Plate 7_CeeTox.csv","cort" +"21141126A","TP0001059.Plate.7",7,10,"t",1,100,7.83,"TP0001059 Plate 7_CeeTox.csv","cort" +"21141130A","PhaseII.VR.Plate.2",4,5,"t",1,5,13.38,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"21141130A","PhaseII.VR.Plate.2",5,5,"t",1,5,12.6,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"21141132A","PhaseII.VR.Plate.8",2,4,"t",1,1,13.99,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"21141132A","PhaseII.VR.Plate.8",3,4,"t",1,1,15.66,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"BF00107322","phIII.e1k.VR.Plate.3",6,5,"t",1,0.1,18.86,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"BF00107322","phIII.e1k.VR.Plate.3",7,5,"t",1,0.1,17.99,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"BF00128067","TP0000884.Plate.2",4,3,"t",1,100,9.81129236642242,"TP0000884 Plate 2A.xlsx","cort" +"BF00128067","TP0000884.Plate.2",5,3,"t",1,100,10.7274679953512,"TP0000884 Plate 2A.xlsx","cort" +"BF00128068","20120829.Plate.2",4,10,"t",1,1,10.3981585884811,"20120829 Plate 2B.xlsx","cort" +"BF00128068","20120829.Plate.2",5,10,"t",1,1,10.0770674484304,"20120829 Plate 2B.xlsx","cort" +"BF00128069","TP0000884.Plate.3",6,6,"t",1,100,14.9987448551521,"TP0000884 Plate 3A.xlsx","cort" +"BF00128069","TP0000884.Plate.3",7,6,"t",1,100,14.2039347261726,"TP0000884 Plate 3A.xlsx","cort" +"BF00128070","TP0000884.Plate.3",4,3,"t",1,100,14.1336806599992,"TP0000884 Plate 3A.xlsx","cort" +"BF00128070","TP0000884.Plate.3",5,3,"t",1,100,11.4989407889004,"TP0000884 Plate 3A.xlsx","cort" +"BF00128071","20120829.Plate.3",6,7,"t",1,1,11.7057085262389,"20120829 Plate 3A.xlsx","cort" +"BF00128071","20120829.Plate.3",7,7,"t",1,1,10.5984682230629,"20120829 Plate 3A.xlsx","cort" +"BF00128072","TP0000884.Plate.1",4,6,"t",1,100,14.8003994111396,"TP0000884 Plate 1A.xlsx","cort" +"BF00128072","TP0000884.Plate.1",5,6,"t",1,100,14.8297862550133,"TP0000884 Plate 1A.xlsx","cort" +"BF00128073","20120829.Plate.3",6,9,"t",1,1,0.804003087743217,"20120829 Plate 3A.xlsx","cort" +"BF00128073","20120829.Plate.3",7,9,"t",1,1,0.594245172192186,"20120829 Plate 3A.xlsx","cort" +"BF00128075","20120829.Plate.3",4,7,"t",1,1,10.3790772285511,"20120829 Plate 3A.xlsx","cort" +"BF00128075","20120829.Plate.3",5,7,"t",1,1,11.1717468496558,"20120829 Plate 3A.xlsx","cort" +"BF00128076","TP0000884.Plate.2",6,10,"t",1,100,13.1885877847457,"TP0000884 Plate 2A.xlsx","cort" +"BF00128076","TP0000884.Plate.2",7,10,"t",1,100,16.3029271500046,"TP0000884 Plate 2A.xlsx","cort" +"BF00128078","20120829.Plate.2",6,4,"t",1,1,11.9771433975232,"20120829 Plate 2B.xlsx","cort" +"BF00128078","20120829.Plate.2",7,4,"t",1,1,11.6141768269125,"20120829 Plate 2B.xlsx","cort" +"BF00128079","20120829.Plate.1",4,7,"t",1,1,15.4639285712957,"20120829 Plate 1A.xlsx","cort" +"BF00128079","20120829.Plate.1",5,7,"t",1,1,13.9524257455357,"20120829 Plate 1A.xlsx","cort" +"BF00128080","20120829.Plate.4",4,7,"t",1,10,11.4853016746653,"20120829 Plate 4B.xlsx","cort" +"BF00128080","20120829.Plate.4",5,7,"t",1,10,13.0490278603984,"20120829 Plate 4B.xlsx","cort" +"BF00128081","20120829.Plate.5",2,7,"t",1,10,8.03712872577456,"20120829 Plate 5A.xlsx","cort" +"BF00128081","20120829.Plate.5",3,7,"t",1,10,9.35171352497246,"20120829 Plate 5A.xlsx","cort" +"BF00128082","TP0000883.Plate.1",6,4,"t",1,100,14.4089330436993,"TP0000883 Plate 1A.xlsx","cort" +"BF00128082","TP0000883.Plate.1",7,4,"t",1,100,15.1479266235465,"TP0000883 Plate 1A.xlsx","cort" +"BF00128083","TP0000885.Plate.1",2,3,"t",1,100,6.90526268907032,"TP0000885 Plate 1A.xlsx","cort" +"BF00128083","TP0000885.Plate.1",3,3,"t",1,100,8.14211514676794,"TP0000885 Plate 1A.xlsx","cort" +"BF00128084","20120829.Plate.3",4,5,"t",1,1,14.4910110046257,"20120829 Plate 3A.xlsx","cort" +"BF00128084","20120829.Plate.3",5,5,"t",1,1,17.2614472061159,"20120829 Plate 3A.xlsx","cort" +"BF00128085","TP0000882.Plate.2",4,8,"t",1,100,15.2557576877619,"TP0000882 Plate 2B.xlsx","cort" +"BF00128085","TP0000882.Plate.2",5,8,"t",1,100,17.269265607541,"TP0000882 Plate 2B.xlsx","cort" +"BF00128086","TP0000883.Plate.1",4,9,"t",1,100,12.8089888877228,"TP0000883 Plate 1A.xlsx","cort" +"BF00128086","TP0000883.Plate.1",5,9,"t",1,100,24.4834653248911,"TP0000883 Plate 1A.xlsx","cort" +"BF00128087","20120829.Plate.1",2,6,"t",1,1,9.59256078067626,"20120829 Plate 1A.xlsx","cort" +"BF00128087","20120829.Plate.1",3,6,"t",1,1,10.6476583369789,"20120829 Plate 1A.xlsx","cort" +"BF00128088","20120829.Plate.2",6,6,"t",1,1,9.0638663886806,"20120829 Plate 2B.xlsx","cort" +"BF00128088","20120829.Plate.2",7,6,"t",1,1,9.27372778280849,"20120829 Plate 2B.xlsx","cort" +"BF00128090","20120829.Plate.1",6,9,"t",1,1,5.23422321160685,"20120829 Plate 1A.xlsx","cort" +"BF00128090","20120829.Plate.1",7,9,"t",1,1,5.47175537924269,"20120829 Plate 1A.xlsx","cort" +"BF00128091","TP0000882.Plate.2",6,3,"t",1,100,9.57527808312326,"TP0000882 Plate 2B.xlsx","cort" +"BF00128091","TP0000882.Plate.2",7,3,"t",1,100,9.66075819448092,"TP0000882 Plate 2B.xlsx","cort" +"BF00128092","20120829.Plate.5",2,10,"t",1,10,8.87732714880924,"20120829 Plate 5A.xlsx","cort" +"BF00128092","20120829.Plate.5",3,10,"t",1,10,10.0490588364365,"20120829 Plate 5A.xlsx","cort" +"BF00128094","TP0000884.Plate.2",4,10,"t",1,100,9.61213374612052,"TP0000884 Plate 2A.xlsx","cort" +"BF00128094","TP0000884.Plate.2",5,10,"t",1,100,11.8615012306198,"TP0000884 Plate 2A.xlsx","cort" +"BF00128096","20120829.Plate.6",2,8,"t",1,10,2.35001413360117,"20120829 Plate 6A.xlsx","cort" +"BF00128096","20120829.Plate.6",3,8,"t",1,10,2.40741577537311,"20120829 Plate 6A.xlsx","cort" +"BF00128097","TP0000883.Plate.3",6,7,"t",1,100,1.4257271494684,"TP0000883 Plate 3A.xlsx","cort" +"BF00128097","TP0000883.Plate.3",7,7,"t",1,100,1.46615783691342,"TP0000883 Plate 3A.xlsx","cort" +"BF00128098","20120829.Plate.2",2,9,"t",1,1,9.01281913728571,"20120829 Plate 2B.xlsx","cort" +"BF00128098","20120829.Plate.2",3,9,"t",1,1,8.76085351530206,"20120829 Plate 2B.xlsx","cort" +"BF00128099","TP0000884.Plate.4",2,7,"t",1,100,11.2801068627433,"TP0000884 Plate 4A.xlsx","cort" +"BF00128099","TP0000884.Plate.4",3,7,"t",1,100,14.6997112192099,"TP0000884 Plate 4A.xlsx","cort" +"BF00128100","TP0000882.Plate.1",4,4,"t",1,100,19.7534249548818,"TP0000882 Plate 1A.xlsx","cort" +"BF00128100","TP0000882.Plate.1",5,4,"t",1,100,17.1189093343032,"TP0000882 Plate 1A.xlsx","cort" +"BF00128101","20120829.Plate.4",6,5,"t",1,10,18.3357803711664,"20120829 Plate 4B.xlsx","cort" +"BF00128101","20120829.Plate.4",7,5,"t",1,10,12.5451584380466,"20120829 Plate 4B.xlsx","cort" +"BF00128102","20120829.Plate.5",4,6,"t",1,10,10.530933961841,"20120829 Plate 5A.xlsx","cort" +"BF00128102","20120829.Plate.5",5,6,"t",1,10,9.14095966260878,"20120829 Plate 5A.xlsx","cort" +"BF00128103","20120829.Plate.1",6,5,"t",1,1,12.5572177142051,"20120829 Plate 1A.xlsx","cort" +"BF00128103","20120829.Plate.1",7,5,"t",1,1,11.7770250463222,"20120829 Plate 1A.xlsx","cort" +"BF00128104","TP0000882.Plate.4",2,5,"t",1,100,15.5764424282322,"TP0000882 Plate 4A.xlsx","cort" +"BF00128104","TP0000882.Plate.4",3,5,"t",1,100,16.1233854984187,"TP0000882 Plate 4A.xlsx","cort" +"BF00128105","TP0000884.Plate.3",6,7,"t",1,100,18.4125190378314,"TP0000884 Plate 3A.xlsx","cort" +"BF00128105","TP0000884.Plate.3",7,7,"t",1,100,15.7055766963553,"TP0000884 Plate 3A.xlsx","cort" +"BF00128106","20120829.Plate.4",2,4,"t",1,1,9.21569733758149,"20120829 Plate 4B.xlsx","cort" +"BF00128106","20120829.Plate.4",3,4,"t",1,1,11.7811045315576,"20120829 Plate 4B.xlsx","cort" +"BF00128107","20120829.Plate.4",4,6,"t",1,10,12.1710185911078,"20120829 Plate 4B.xlsx","cort" +"BF00128107","20120829.Plate.4",5,6,"t",1,10,12.5315847064133,"20120829 Plate 4B.xlsx","cort" +"BF00128108","20120829.Plate.5",6,9,"t",1,10,7.01143902813311,"20120829 Plate 5A.xlsx","cort" +"BF00128108","20120829.Plate.5",7,9,"t",1,10,5.85226508896475,"20120829 Plate 5A.xlsx","cort" +"BF00128109","TP0000884.Plate.3",4,6,"t",1,100,24.8981487651902,"TP0000884 Plate 3A.xlsx","cort" +"BF00128109","TP0000884.Plate.3",5,6,"t",1,100,24.5224532885601,"TP0000884 Plate 3A.xlsx","cort" +"BF00128110","20120829.Plate.4",6,10,"t",1,10,12.9193287279515,"20120829 Plate 4B.xlsx","cort" +"BF00128110","20120829.Plate.4",7,10,"t",1,10,10.1757469878359,"20120829 Plate 4B.xlsx","cort" +"BF00128111","TP0000884.Plate.3",4,7,"t",1,100,11.1507897511331,"TP0000884 Plate 3A.xlsx","cort" +"BF00128111","TP0000884.Plate.3",5,7,"t",1,100,10.7559491725482,"TP0000884 Plate 3A.xlsx","cort" +"BF00128112","TP0000884.Plate.2",2,5,"t",1,100,0.824290450408623,"TP0000884 Plate 2A.xlsx","cort" +"BF00128112","TP0000884.Plate.2",3,5,"t",1,100,0.611950105002756,"TP0000884 Plate 2A.xlsx","cort" +"BF00128114","20120829.Plate.3",6,5,"t",1,1,16.1558187486692,"20120829 Plate 3A.xlsx","cort" +"BF00128114","20120829.Plate.3",7,5,"t",1,1,13.7697056601479,"20120829 Plate 3A.xlsx","cort" +"BF00128115","TP0000882.Plate.3",6,8,"t",1,100,14.4474144052135,"TP0000882 Plate 3A.xlsx","cort" +"BF00128115","TP0000882.Plate.3",7,8,"t",1,100,13.7961061068497,"TP0000882 Plate 3A.xlsx","cort" +"BF00128116","TP0000883.Plate.4",2,4,"t",1,100,16.4927805531405,"TP0000883 Plate 4A.xlsx","cort" +"BF00128116","TP0000883.Plate.4",3,4,"t",1,100,16.0372031547958,"TP0000883 Plate 4A.xlsx","cort" +"BF00128117","TP0000882.Plate.1",6,9,"t",1,100,19.544726115519,"TP0000882 Plate 1A.xlsx","cort" +"BF00128117","TP0000882.Plate.1",7,9,"t",1,100,16.5898625513218,"TP0000882 Plate 1A.xlsx","cort" +"BF00128118","TP0000882.Plate.4",4,3,"t",1,100,16.4892537484636,"TP0000882 Plate 4A.xlsx","cort" +"BF00128118","TP0000882.Plate.4",5,3,"t",1,100,17.1203541593482,"TP0000882 Plate 4A.xlsx","cort" +"BF00128119","TP0000882.Plate.1",6,5,"t",1,100,23.4824673182237,"TP0000882 Plate 1A.xlsx","cort" +"BF00128119","TP0000882.Plate.1",7,5,"t",1,100,21.8664168870686,"TP0000882 Plate 1A.xlsx","cort" +"BF00128120","TP0000883.Plate.2",6,8,"t",1,100,15.4304680552113,"TP0000883 Plate 2A.xlsx","cort" +"BF00128120","TP0000883.Plate.2",7,8,"t",1,100,15.1168027421882,"TP0000883 Plate 2A.xlsx","cort" +"BF00128121","TP0000882.Plate.1",6,3,"t",1,100,16.6745148916112,"TP0000882 Plate 1A.xlsx","cort" +"BF00128121","TP0000882.Plate.1",7,3,"t",1,100,19.6125751886615,"TP0000882 Plate 1A.xlsx","cort" +"BF00128122","TP0000882.Plate.1",2,6,"t",1,100,13.574608252705,"TP0000882 Plate 1A.xlsx","cort" +"BF00128122","TP0000882.Plate.1",3,6,"t",1,100,15.8585832283296,"TP0000882 Plate 1A.xlsx","cort" +"BF00128123","TP0000883.Plate.4",4,6,"t",1,100,14.3418922564002,"TP0000883 Plate 4A.xlsx","cort" +"BF00128123","TP0000883.Plate.4",5,6,"t",1,100,16.0639443624543,"TP0000883 Plate 4A.xlsx","cort" +"BF00128124","TP0000882.Plate.1",2,8,"t",1,100,15.6580221225526,"TP0000882 Plate 1A.xlsx","cort" +"BF00128124","TP0000882.Plate.1",3,8,"t",1,100,15.7695151515886,"TP0000882 Plate 1A.xlsx","cort" +"BF00128125","20120829.Plate.3",4,3,"t",1,1,16.9058386431436,"20120829 Plate 3A.xlsx","cort" +"BF00128125","20120829.Plate.3",5,3,"t",1,1,13.9370487645611,"20120829 Plate 3A.xlsx","cort" +"BF00128126","TP0000884.Plate.2",2,6,"t",1,100,12.6143909762955,"TP0000884 Plate 2A.xlsx","cort" +"BF00128126","TP0000884.Plate.2",3,6,"t",1,100,12.2977308957657,"TP0000884 Plate 2A.xlsx","cort" +"BF00128127","20120829.Plate.2",4,5,"t",1,1,14.2853932552243,"20120829 Plate 2B.xlsx","cort" +"BF00128127","20120829.Plate.2",5,5,"t",1,1,13.0105660218856,"20120829 Plate 2B.xlsx","cort" +"BF00128128","TP0000882.Plate.4",6,6,"t",1,100,17.8565866812081,"TP0000882 Plate 4A.xlsx","cort" +"BF00128128","TP0000882.Plate.4",7,6,"t",1,100,16.5134958103057,"TP0000882 Plate 4A.xlsx","cort" +"BF00128129","20120829.Plate.5",2,3,"t",1,10,10.5455028175672,"20120829 Plate 5A.xlsx","cort" +"BF00128129","20120829.Plate.5",3,3,"t",1,10,11.0502877800129,"20120829 Plate 5A.xlsx","cort" +"BF00128130","TP0000884.Plate.4",6,7,"t",1,100,8.39745168573182,"TP0000884 Plate 4A.xlsx","cort" +"BF00128130","TP0000884.Plate.4",7,7,"t",1,100,9.78968896006306,"TP0000884 Plate 4A.xlsx","cort" +"BF00128131","TP0000885.Plate.1",6,4,"t",1,100,13.2068236414782,"TP0000885 Plate 1A.xlsx","cort" +"BF00128131","TP0000885.Plate.1",7,4,"t",1,100,11.0344716187953,"TP0000885 Plate 1A.xlsx","cort" +"BF00128132","TP0000885.Plate.1",4,8,"t",1,100,6.0463667699027,"TP0000885 Plate 1A.xlsx","cort" +"BF00128132","TP0000885.Plate.1",5,8,"t",1,100,7.01550657083447,"TP0000885 Plate 1A.xlsx","cort" +"BF00128133","TP0000883.Plate.1",2,4,"t",1,100,14.346180936663,"TP0000883 Plate 1A.xlsx","cort" +"BF00128133","TP0000883.Plate.1",3,4,"t",1,100,15.4728558408268,"TP0000883 Plate 1A.xlsx","cort" +"BF00128134","TP0000883.Plate.3",4,8,"t",1,100,15.1972720458361,"TP0000883 Plate 3A.xlsx","cort" +"BF00128134","TP0000883.Plate.3",5,8,"t",1,100,12.4245596596139,"TP0000883 Plate 3A.xlsx","cort" +"BF00128135","20120829.Plate.2",4,8,"t",1,1,12.5449358531816,"20120829 Plate 2B.xlsx","cort" +"BF00128135","20120829.Plate.2",5,8,"t",1,1,13.1577290132254,"20120829 Plate 2B.xlsx","cort" +"BF00128136","TP0000883.Plate.2",6,4,"t",1,100,14.8770880830025,"TP0000883 Plate 2A.xlsx","cort" +"BF00128136","TP0000883.Plate.2",7,4,"t",1,100,15.265214203621,"TP0000883 Plate 2A.xlsx","cort" +"BF00128137","TP0000882.Plate.4",4,6,"t",1,100,15.74392355375,"TP0000882 Plate 4A.xlsx","cort" +"BF00128137","TP0000882.Plate.4",5,6,"t",1,100,17.2329451501249,"TP0000882 Plate 4A.xlsx","cort" +"BF00128138","TP0000883.Plate.4",2,8,"t",1,100,14.9404109880658,"TP0000883 Plate 4A.xlsx","cort" +"BF00128138","TP0000883.Plate.4",3,8,"t",1,100,13.9478138553221,"TP0000883 Plate 4A.xlsx","cort" +"BF00128139","TP0000883.Plate.3",4,9,"t",1,100,12.7299701803743,"TP0000883 Plate 3A.xlsx","cort" +"BF00128139","TP0000883.Plate.3",5,9,"t",1,100,10.1503032526055,"TP0000883 Plate 3A.xlsx","cort" +"BF00128140","20120829.Plate.4",6,7,"t",1,10,4.6349290092932,"20120829 Plate 4B.xlsx","cort" +"BF00128140","20120829.Plate.4",7,7,"t",1,10,4.20708550872293,"20120829 Plate 4B.xlsx","cort" +"BF00128141","TP0000883.Plate.1",6,8,"t",1,100,13.5798756800571,"TP0000883 Plate 1A.xlsx","cort" +"BF00128141","TP0000883.Plate.1",7,8,"t",1,100,11.5379975506342,"TP0000883 Plate 1A.xlsx","cort" +"BF00128142","TP0000884.Plate.2",6,8,"t",1,100,12.2069232968298,"TP0000884 Plate 2A.xlsx","cort" +"BF00128142","TP0000884.Plate.2",7,8,"t",1,100,14.1906985872433,"TP0000884 Plate 2A.xlsx","cort" +"BF00128143","TP0000883.Plate.1",2,9,"t",1,100,11.5867608185878,"TP0000883 Plate 1A.xlsx","cort" +"BF00128143","TP0000883.Plate.1",3,9,"t",1,100,11.0517606964585,"TP0000883 Plate 1A.xlsx","cort" +"BF00128144","TP0000883.Plate.1",4,6,"t",1,100,14.302749972129,"TP0000883 Plate 1A.xlsx","cort" +"BF00128144","TP0000883.Plate.1",5,6,"t",1,100,28.5019946237135,"TP0000883 Plate 1A.xlsx","cort" +"BF00128145","TP0000883.Plate.1",2,8,"t",1,100,11.671679877329,"TP0000883 Plate 1A.xlsx","cort" +"BF00128145","TP0000883.Plate.1",3,8,"t",1,100,12.389251222644,"TP0000883 Plate 1A.xlsx","cort" +"BF00128146","20120829.Plate.3",2,10,"t",1,1,8.96624973869594,"20120829 Plate 3A.xlsx","cort" +"BF00128146","20120829.Plate.3",3,10,"t",1,1,12.5632689272303,"20120829 Plate 3A.xlsx","cort" +"BF00128147","TP0000883.Plate.4",6,9,"t",1,100,12.5655961967849,"TP0000883 Plate 4A.xlsx","cort" +"BF00128147","TP0000883.Plate.4",7,9,"t",1,100,11.6797688737044,"TP0000883 Plate 4A.xlsx","cort" +"BF00128148","TP0000884.Plate.3",6,9,"t",1,100,13.8050439345168,"TP0000884 Plate 3A.xlsx","cort" +"BF00128148","TP0000884.Plate.3",7,9,"t",1,100,12.2181460586725,"TP0000884 Plate 3A.xlsx","cort" +"BF00128149","TP0000882.Plate.3",4,9,"t",1,100,13.3651858089738,"TP0000882 Plate 3A.xlsx","cort" +"BF00128149","TP0000882.Plate.3",5,9,"t",1,100,13.7531900307244,"TP0000882 Plate 3A.xlsx","cort" +"BF00128165","TP0000885.Plate.1",2,9,"t",1,100,10.4379187080522,"TP0000885 Plate 1A.xlsx","cort" +"BF00128165","TP0000885.Plate.1",3,9,"t",1,100,9.22460056160046,"TP0000885 Plate 1A.xlsx","cort" +"BF00128166","TP0000883.Plate.1",6,5,"t",1,100,15.8226623891642,"TP0000883 Plate 1A.xlsx","cort" +"BF00128166","TP0000883.Plate.1",7,5,"t",1,100,18.1737554271148,"TP0000883 Plate 1A.xlsx","cort" +"BF00128167","20120829.Plate.3",2,3,"t",1,1,11.2897758122109,"20120829 Plate 3A.xlsx","cort" +"BF00128167","20120829.Plate.3",3,3,"t",1,1,13.4646699459606,"20120829 Plate 3A.xlsx","cort" +"BF00128168","TP0000884.Plate.1",6,10,"t",1,100,11.7344188968284,"TP0000884 Plate 1A.xlsx","cort" +"BF00128168","TP0000884.Plate.1",7,10,"t",1,100,12.7145613644337,"TP0000884 Plate 1A.xlsx","cort" +"BF00128169","20120829.Plate.5",4,5,"t",1,10,3.56516124832412,"20120829 Plate 5A.xlsx","cort" +"BF00128169","20120829.Plate.5",5,5,"t",1,10,3.67022093080801,"20120829 Plate 5A.xlsx","cort" +"BF00128170","20120829.Plate.2",2,8,"t",1,1,15.1274378873809,"20120829 Plate 2B.xlsx","cort" +"BF00128170","20120829.Plate.2",3,8,"t",1,1,13.7673357325801,"20120829 Plate 2B.xlsx","cort" +"BF00128171","20120829.Plate.4",4,5,"t",1,10,14.6837805243335,"20120829 Plate 4B.xlsx","cort" +"BF00128171","20120829.Plate.4",5,5,"t",1,10,14.1007838352387,"20120829 Plate 4B.xlsx","cort" +"BF00128172","TP0000882.Plate.1",2,9,"t",1,100,22.3054869831904,"TP0000882 Plate 1A.xlsx","cort" +"BF00128172","TP0000882.Plate.1",3,9,"t",1,100,22.3355622132845,"TP0000882 Plate 1A.xlsx","cort" +"BF00128173","TP0000883.Plate.3",2,7,"t",1,100,15.0491990343853,"TP0000883 Plate 3A.xlsx","cort" +"BF00128173","TP0000883.Plate.3",3,7,"t",1,100,13.8161734743069,"TP0000883 Plate 3A.xlsx","cort" +"BF00128174","20120829.Plate.2",6,8,"t",1,1,10.8537893989821,"20120829 Plate 2B.xlsx","cort" +"BF00128174","20120829.Plate.2",7,8,"t",1,1,12.4220450077362,"20120829 Plate 2B.xlsx","cort" +"BF00128175","TP0000882.Plate.2",2,6,"t",1,100,4.44474872596412,"TP0000882 Plate 2B.xlsx","cort" +"BF00128175","TP0000882.Plate.2",3,6,"t",1,100,4.5232196488795,"TP0000882 Plate 2B.xlsx","cort" +"BF00128176","TP0000883.Plate.2",4,4,"t",1,100,18.3307513642681,"TP0000883 Plate 2A.xlsx","cort" +"BF00128176","TP0000883.Plate.2",5,4,"t",1,100,18.7245914719709,"TP0000883 Plate 2A.xlsx","cort" +"BF00128177","20120829.Plate.6",2,5,"t",1,10,10.0862059525695,"20120829 Plate 6A.xlsx","cort" +"BF00128177","20120829.Plate.6",3,5,"t",1,10,9.01453749596173,"20120829 Plate 6A.xlsx","cort" +"BF00128178","TP0000884.Plate.3",4,10,"t",1,100,19.6200121158914,"TP0000884 Plate 3A.xlsx","cort" +"BF00128178","TP0000884.Plate.3",5,10,"t",1,100,20.8051800866031,"TP0000884 Plate 3A.xlsx","cort" +"BF00128179","TP0000882.Plate.2",4,3,"t",1,100,7.86175557807187,"TP0000882 Plate 2B.xlsx","cort" +"BF00128179","TP0000882.Plate.2",5,3,"t",1,100,6.95328850967516,"TP0000882 Plate 2B.xlsx","cort" +"BF00128180","TP0000884.Plate.3",4,4,"t",1,100,13.7933448770212,"TP0000884 Plate 3A.xlsx","cort" +"BF00128180","TP0000884.Plate.3",5,4,"t",1,100,15.453703689626,"TP0000884 Plate 3A.xlsx","cort" +"BF00128181","20120829.Plate.6",2,9,"t",1,10,12.8650619943797,"20120829 Plate 6A.xlsx","cort" +"BF00128181","20120829.Plate.6",3,9,"t",1,10,12.8931087007957,"20120829 Plate 6A.xlsx","cort" +"BF00128182","TP0000884.Plate.1",2,3,"t",1,100,17.2859027190031,"TP0000884 Plate 1A.xlsx","cort" +"BF00128182","TP0000884.Plate.1",3,3,"t",1,100,23.1905686269585,"TP0000884 Plate 1A.xlsx","cort" +"BF00128183","TP0000884.Plate.1",2,10,"t",1,100,12.4486002439955,"TP0000884 Plate 1A.xlsx","cort" +"BF00128183","TP0000884.Plate.1",3,10,"t",1,100,15.9763570166679,"TP0000884 Plate 1A.xlsx","cort" +"BF00128185","20120829.Plate.1",6,4,"t",1,1,9.7189283025216,"20120829 Plate 1A.xlsx","cort" +"BF00128185","20120829.Plate.1",7,4,"t",1,1,9.79407668596637,"20120829 Plate 1A.xlsx","cort" +"BF00128186","TP0000884.Plate.2",4,6,"t",1,100,9.97694254394725,"TP0000884 Plate 2A.xlsx","cort" +"BF00128186","TP0000884.Plate.2",5,6,"t",1,100,10.6052878299687,"TP0000884 Plate 2A.xlsx","cort" +"BF00128187","TP0000884.Plate.2",2,8,"t",1,100,7.37244141880974,"TP0000884 Plate 2A.xlsx","cort" +"BF00128187","TP0000884.Plate.2",3,8,"t",1,100,7.25506751822477,"TP0000884 Plate 2A.xlsx","cort" +"BF00128188","TP0000882.Plate.3",6,10,"t",1,100,13.789279931863,"TP0000882 Plate 3A.xlsx","cort" +"BF00128188","TP0000882.Plate.3",7,10,"t",1,100,13.2713688135959,"TP0000882 Plate 3A.xlsx","cort" +"BF00128189","20120829.Plate.1",4,8,"t",1,1,16.603512411304,"20120829 Plate 1A.xlsx","cort" +"BF00128189","20120829.Plate.1",5,8,"t",1,1,14.1664367491764,"20120829 Plate 1A.xlsx","cort" +"BF00128190","TP0000884.Plate.4",4,7,"t",1,100,11.6452559311454,"TP0000884 Plate 4A.xlsx","cort" +"BF00128190","TP0000884.Plate.4",5,7,"t",1,100,13.9159335476608,"TP0000884 Plate 4A.xlsx","cort" +"BF00128191","TP0000883.Plate.3",6,8,"t",1,100,12.2041194742183,"TP0000883 Plate 3A.xlsx","cort" +"BF00128191","TP0000883.Plate.3",7,8,"t",1,100,11.6317832116979,"TP0000883 Plate 3A.xlsx","cort" +"BF00128192","20120829.Plate.1",6,10,"t",1,1,3.13616016774491,"20120829 Plate 1A.xlsx","cort" +"BF00128192","20120829.Plate.1",7,10,"t",1,1,3.05962367222951,"20120829 Plate 1A.xlsx","cort" +"BF00128193","20120829.Plate.1",6,8,"t",1,1,2.96609824848377,"20120829 Plate 1A.xlsx","cort" +"BF00128193","20120829.Plate.1",7,8,"t",1,1,2.67327742980592,"20120829 Plate 1A.xlsx","cort" +"BF00128194","20120829.Plate.5",2,6,"t",1,10,7.60823438139991,"20120829 Plate 5A.xlsx","cort" +"BF00128194","20120829.Plate.5",3,6,"t",1,10,9.30484611358712,"20120829 Plate 5A.xlsx","cort" +"BF00128195","20120829.Plate.1",2,8,"t",1,1,0.652818187776789,"20120829 Plate 1A.xlsx","cort" +"BF00128195","20120829.Plate.1",3,8,"t",1,1,0.73531593110178,"20120829 Plate 1A.xlsx","cort" +"BF00128196","TP0000882.Plate.4",6,3,"t",1,100,8.45618175052582,"TP0000882 Plate 4A.xlsx","cort" +"BF00128196","TP0000882.Plate.4",7,3,"t",1,100,7.53237583153568,"TP0000882 Plate 4A.xlsx","cort" +"BF00128197","20120829.Plate.5",4,8,"t",1,10,17.3204752373585,"20120829 Plate 5A.xlsx","cort" +"BF00128197","20120829.Plate.5",5,8,"t",1,10,19.2454144779899,"20120829 Plate 5A.xlsx","cort" +"BF00128198","20120829.Plate.3",4,9,"t",1,1,14.2623065488017,"20120829 Plate 3A.xlsx","cort" +"BF00128198","20120829.Plate.3",5,9,"t",1,1,13.5095959897511,"20120829 Plate 3A.xlsx","cort" +"BF00128199","TP0000884.Plate.3",6,3,"t",1,100,13.5196901227835,"TP0000884 Plate 3A.xlsx","cort" +"BF00128199","TP0000884.Plate.3",7,3,"t",1,100,14.3167475325765,"TP0000884 Plate 3A.xlsx","cort" +"BF00128200","TP0000883.Plate.3",4,7,"t",1,20.1,16.5848920670221,"TP0000883 Plate 3A.xlsx","cort" +"BF00128200","TP0000883.Plate.3",5,7,"t",1,20.1,16.8999798477838,"TP0000883 Plate 3A.xlsx","cort" +"BF00128201","TP0000883.Plate.3",2,10,"t",1,100,11.3524026009654,"TP0000883 Plate 3A.xlsx","cort" +"BF00128201","TP0000883.Plate.3",3,10,"t",1,100,9.35636684930345,"TP0000883 Plate 3A.xlsx","cort" +"BF00128203","TP0000884.Plate.3",4,8,"t",1,50,9.04453403101683,"TP0000884 Plate 3A.xlsx","cort" +"BF00128203","TP0000884.Plate.3",5,8,"t",1,50,9.97108572711367,"TP0000884 Plate 3A.xlsx","cort" +"BF00128204","20120829.Plate.4",6,3,"t",1,0.1,16.0066587486485,"20120829 Plate 4B.xlsx","cort" +"BF00128204","20120829.Plate.4",7,3,"t",1,0.1,13.4852904890059,"20120829 Plate 4B.xlsx","cort" +"BF00128205","TP0000882.Plate.2",2,3,"t",1,100,12.9075567671014,"TP0000882 Plate 2B.xlsx","cort" +"BF00128205","TP0000882.Plate.2",3,3,"t",1,100,13.4458961761732,"TP0000882 Plate 2B.xlsx","cort" +"BF00128206","TP0000885.Plate.1",6,7,"t",1,100,11.8452351611176,"TP0000885 Plate 1A.xlsx","cort" +"BF00128206","TP0000885.Plate.1",7,7,"t",1,100,11.9152769357036,"TP0000885 Plate 1A.xlsx","cort" +"BF00128208","TP0000882.Plate.2",2,10,"t",1,100,14.5324724192688,"TP0000882 Plate 2B.xlsx","cort" +"BF00128208","TP0000882.Plate.2",3,10,"t",1,100,14.3870368700551,"TP0000882 Plate 2B.xlsx","cort" +"BF00128209","TP0000882.Plate.3",6,3,"t",1,100,11.8537378047603,"TP0000882 Plate 3A.xlsx","cort" +"BF00128209","TP0000882.Plate.3",7,3,"t",1,100,18.9157709184612,"TP0000882 Plate 3A.xlsx","cort" +"BF00128210","TP0000883.Plate.4",4,3,"t",1,100,17.8006845171211,"TP0000883 Plate 4A.xlsx","cort" +"BF00128210","TP0000883.Plate.4",5,3,"t",1,100,13.6606743770739,"TP0000883 Plate 4A.xlsx","cort" +"BF00128211","20120829.Plate.4",4,8,"t",1,1,15.0485158773766,"20120829 Plate 4B.xlsx","cort" +"BF00128211","20120829.Plate.4",5,8,"t",1,1,15.1326213824674,"20120829 Plate 4B.xlsx","cort" +"BF00128212","TP0000884.Plate.3",6,8,"t",1,100,14.2408922526416,"TP0000884 Plate 3A.xlsx","cort" +"BF00128212","TP0000884.Plate.3",7,8,"t",1,100,12.9549555544235,"TP0000884 Plate 3A.xlsx","cort" +"BF00128213","20120829.Plate.6",2,6,"t",1,10,9.94091211690018,"20120829 Plate 6A.xlsx","cort" +"BF00128213","20120829.Plate.6",3,6,"t",1,10,9.99441715115229,"20120829 Plate 6A.xlsx","cort" +"BF00128214","20120829.Plate.2",6,3,"t",1,1,11.5826007493852,"20120829 Plate 2B.xlsx","cort" +"BF00128214","20120829.Plate.2",7,3,"t",1,1,11.4226024272209,"20120829 Plate 2B.xlsx","cort" +"BF00128215","20120829.Plate.5",2,8,"t",1,10,3.92448500279315,"20120829 Plate 5A.xlsx","cort" +"BF00128215","20120829.Plate.5",3,8,"t",1,10,5.36928206487435,"20120829 Plate 5A.xlsx","cort" +"BF00128216","TP0000883.Plate.2",2,9,"t",1,100,13.3454990664099,"TP0000883 Plate 2A.xlsx","cort" +"BF00128216","TP0000883.Plate.2",3,9,"t",1,100,13.0161562579873,"TP0000883 Plate 2A.xlsx","cort" +"BF00128218","20120829.Plate.6",2,10,"t",1,10,7.82975689414701,"20120829 Plate 6A.xlsx","cort" +"BF00128218","20120829.Plate.6",3,10,"t",1,10,8.98199923302795,"20120829 Plate 6A.xlsx","cort" +"BF00128219","TP0000882.Plate.2",2,4,"t",1,100,13.4167909651273,"TP0000882 Plate 2B.xlsx","cort" +"BF00128219","TP0000882.Plate.2",3,4,"t",1,100,14.5502647828447,"TP0000882 Plate 2B.xlsx","cort" +"BF00128220","TP0000882.Plate.4",2,10,"t",0,100,NA,"TP0000882 Plate 4A.xlsx","cort" +"BF00128220","TP0000882.Plate.4",3,10,"t",0,100,NA,"TP0000882 Plate 4A.xlsx","cort" +"BF00128221","20120829.Plate.1",2,9,"t",1,1,9.72610167837486,"20120829 Plate 1A.xlsx","cort" +"BF00128221","20120829.Plate.1",3,9,"t",1,1,9.96312033028648,"20120829 Plate 1A.xlsx","cort" +"BF00128222","20120829.Plate.3",2,5,"t",1,1,10.5217628894009,"20120829 Plate 3A.xlsx","cort" +"BF00128222","20120829.Plate.3",3,5,"t",1,1,12.7148898242368,"20120829 Plate 3A.xlsx","cort" +"BF00128223","TP0000883.Plate.4",6,8,"t",1,100,13.2410526540503,"TP0000883 Plate 4A.xlsx","cort" +"BF00128223","TP0000883.Plate.4",7,8,"t",1,100,12.0713851075439,"TP0000883 Plate 4A.xlsx","cort" +"BF00128224","TP0000884.Plate.1",4,8,"t",1,100,13.9017567405846,"TP0000884 Plate 1A.xlsx","cort" +"BF00128224","TP0000884.Plate.1",5,8,"t",1,100,14.4556944830441,"TP0000884 Plate 1A.xlsx","cort" +"BF00128225","20120829.Plate.1",4,5,"t",1,1,4.24331494068633,"20120829 Plate 1A.xlsx","cort" +"BF00128225","20120829.Plate.1",5,5,"t",1,1,3.83084606953642,"20120829 Plate 1A.xlsx","cort" +"BF00128226","20120829.Plate.5",6,3,"t",1,10,12.5550375227975,"20120829 Plate 5A.xlsx","cort" +"BF00128226","20120829.Plate.5",7,3,"t",1,10,10.8068575308971,"20120829 Plate 5A.xlsx","cort" +"BF00128227","20120829.Plate.6",2,3,"t",1,10,10.5858640818762,"20120829 Plate 6A.xlsx","cort" +"BF00128227","20120829.Plate.6",3,3,"t",1,10,11.2997877620846,"20120829 Plate 6A.xlsx","cort" +"BF00128228","TP0000882.Plate.3",4,10,"t",1,100,10.4409217655153,"TP0000882 Plate 3A.xlsx","cort" +"BF00128228","TP0000882.Plate.3",5,10,"t",1,100,8.76303608568724,"TP0000882 Plate 3A.xlsx","cort" +"BF00128229","TP0000882.Plate.1",6,7,"t",1,100,12.6482066361535,"TP0000882 Plate 1A.xlsx","cort" +"BF00128229","TP0000882.Plate.1",7,7,"t",1,100,13.0223140954707,"TP0000882 Plate 1A.xlsx","cort" +"BF00128230","TP0000884.Plate.4",6,6,"t",1,100,12.0585472218446,"TP0000884 Plate 4A.xlsx","cort" +"BF00128230","TP0000884.Plate.4",7,6,"t",1,100,13.5969302547397,"TP0000884 Plate 4A.xlsx","cort" +"BF00128232","TP0000883.Plate.4",4,4,"t",1,100,19.3378113699948,"TP0000883 Plate 4A.xlsx","cort" +"BF00128232","TP0000883.Plate.4",5,4,"t",1,100,15.7830002487498,"TP0000883 Plate 4A.xlsx","cort" +"BF00128233","TP0000883.Plate.4",4,10,"t",1,100,17.8984249906419,"TP0000883 Plate 4A.xlsx","cort" +"BF00128233","TP0000883.Plate.4",5,10,"t",1,100,14.5337983257798,"TP0000883 Plate 4A.xlsx","cort" +"BF00128234","20120829.Plate.2",2,6,"t",1,1,9.72707100347671,"20120829 Plate 2B.xlsx","cort" +"BF00128234","20120829.Plate.2",3,6,"t",1,1,10.0447693126443,"20120829 Plate 2B.xlsx","cort" +"BF00128235","20120829.Plate.1",4,10,"t",1,1,0.616324194829925,"20120829 Plate 1A.xlsx","cort" +"BF00128235","20120829.Plate.1",5,10,"t",1,1,0.553920227689357,"20120829 Plate 1A.xlsx","cort" +"BF00128236","TP0000882.Plate.3",2,7,"t",1,100,17.388431115402,"TP0000882 Plate 3A.xlsx","cort" +"BF00128236","TP0000882.Plate.3",3,7,"t",1,100,13.0324280913108,"TP0000882 Plate 3A.xlsx","cort" +"BF00128237","20120829.Plate.4",4,9,"t",1,1,14.752174899745,"20120829 Plate 4B.xlsx","cort" +"BF00128237","20120829.Plate.4",5,9,"t",1,1,13.9987112945563,"20120829 Plate 4B.xlsx","cort" +"BF00128238","TP0000883.Plate.1",6,6,"t",1,100,10.0574540225071,"TP0000883 Plate 1A.xlsx","cort" +"BF00128238","TP0000883.Plate.1",7,6,"t",1,100,8.9332789970093,"TP0000883 Plate 1A.xlsx","cort" +"BF00128239","20120829.Plate.2",2,4,"t",1,1,13.5221745328193,"20120829 Plate 2B.xlsx","cort" +"BF00128239","20120829.Plate.2",3,4,"t",1,1,12.1468740977778,"20120829 Plate 2B.xlsx","cort" +"BF00128240","TP0000883.Plate.1",2,3,"t",1,100,13.7500564138702,"TP0000883 Plate 1A.xlsx","cort" +"BF00128240","TP0000883.Plate.1",3,3,"t",1,100,14.2670341808272,"TP0000883 Plate 1A.xlsx","cort" +"BF00128241","20120829.Plate.5",6,10,"t",1,10,7.30429491386304,"20120829 Plate 5A.xlsx","cort" +"BF00128241","20120829.Plate.5",7,10,"t",1,10,8.27111478184909,"20120829 Plate 5A.xlsx","cort" +"BF00128243","20120829.Plate.3",6,3,"t",1,1,15.2745015165189,"20120829 Plate 3A.xlsx","cort" +"BF00128243","20120829.Plate.3",7,3,"t",1,1,13.5008643332914,"20120829 Plate 3A.xlsx","cort" +"BF00128244","TP0000883.Plate.4",2,3,"t",1,100,16.5579550985069,"TP0000883 Plate 4A.xlsx","cort" +"BF00128244","TP0000883.Plate.4",3,3,"t",1,100,18.8269098311604,"TP0000883 Plate 4A.xlsx","cort" +"BF00128245","20120829.Plate.5",4,4,"t",1,10,12.1273532017635,"20120829 Plate 5A.xlsx","cort" +"BF00128245","20120829.Plate.5",5,4,"t",1,10,11.675730070589,"20120829 Plate 5A.xlsx","cort" +"BF00128246","TP0000884.Plate.4",6,4,"t",1,100,13.3980258942388,"TP0000884 Plate 4A.xlsx","cort" +"BF00128246","TP0000884.Plate.4",7,4,"t",1,100,14.2105398780832,"TP0000884 Plate 4A.xlsx","cort" +"BF00128247","TP0000882.Plate.3",2,6,"t",1,100,12.8192713002461,"TP0000882 Plate 3A.xlsx","cort" +"BF00128247","TP0000882.Plate.3",3,6,"t",1,100,11.8582445558361,"TP0000882 Plate 3A.xlsx","cort" +"BF00128248","20120829.Plate.1",4,9,"t",1,1,4.18208039888726,"20120829 Plate 1A.xlsx","cort" +"BF00128248","20120829.Plate.1",5,9,"t",1,1,3.04887273295433,"20120829 Plate 1A.xlsx","cort" +"BF00128249","TP0000884.Plate.2",2,3,"t",1,100,12.7274864703062,"TP0000884 Plate 2A.xlsx","cort" +"BF00128249","TP0000884.Plate.2",3,3,"t",1,100,13.9479564177179,"TP0000884 Plate 2A.xlsx","cort" +"BF00128250","TP0000882.Plate.3",6,7,"t",1,100,17.5291735003808,"TP0000882 Plate 3A.xlsx","cort" +"BF00128250","TP0000882.Plate.3",7,7,"t",1,100,16.3377178785432,"TP0000882 Plate 3A.xlsx","cort" +"BF00128251","20120829.Plate.4",2,7,"t",1,1,9.23121152425619,"20120829 Plate 4B.xlsx","cort" +"BF00128251","20120829.Plate.4",3,7,"t",1,1,10.3767373938854,"20120829 Plate 4B.xlsx","cort" +"BF00128252","TP0000883.Plate.1",6,10,"t",1,100,18.3592996598761,"TP0000883 Plate 1A.xlsx","cort" +"BF00128252","TP0000883.Plate.1",7,10,"t",1,100,15.0862230559828,"TP0000883 Plate 1A.xlsx","cort" +"BF00128253","20120829.Plate.2",6,5,"t",1,1,11.1845236921594,"20120829 Plate 2B.xlsx","cort" +"BF00128253","20120829.Plate.2",7,5,"t",1,1,11.8546864130386,"20120829 Plate 2B.xlsx","cort" +"BF00128255","TP0000882.Plate.3",6,4,"t",1,100,16.0927133749513,"TP0000882 Plate 3A.xlsx","cort" +"BF00128255","TP0000882.Plate.3",7,4,"t",1,100,17.1292533616594,"TP0000882 Plate 3A.xlsx","cort" +"BF00128256","TP0000882.Plate.1",2,10,"t",1,100,17.2205654475861,"TP0000882 Plate 1A.xlsx","cort" +"BF00128256","TP0000882.Plate.1",3,10,"t",1,100,20.6690111142314,"TP0000882 Plate 1A.xlsx","cort" +"BF00128257","TP0000884.Plate.2",2,7,"t",1,100,15.003210025046,"TP0000884 Plate 2A.xlsx","cort" +"BF00128257","TP0000884.Plate.2",3,7,"t",1,100,13.6300966924642,"TP0000884 Plate 2A.xlsx","cort" +"BF00128258","20120829.Plate.1",6,7,"t",1,1,10.5741860662758,"20120829 Plate 1A.xlsx","cort" +"BF00128258","20120829.Plate.1",7,7,"t",1,1,10.2053274287888,"20120829 Plate 1A.xlsx","cort" +"BF00128259","20120829.Plate.6",4,7,"t",1,10,7.34395892089901,"20120829 Plate 6A.xlsx","cort" +"BF00128259","20120829.Plate.6",5,7,"t",1,10,6.94502549182211,"20120829 Plate 6A.xlsx","cort" +"BF00128260","TP0000883.Plate.2",2,8,"t",1,100,14.2558486086791,"TP0000883 Plate 2A.xlsx","cort" +"BF00128260","TP0000883.Plate.2",3,8,"t",1,100,13.1952535962136,"TP0000883 Plate 2A.xlsx","cort" +"BF00128261","20120829.Plate.1",4,4,"t",1,1,14.9142838730659,"20120829 Plate 1A.xlsx","cort" +"BF00128261","20120829.Plate.1",5,4,"t",1,1,13.7130980570106,"20120829 Plate 1A.xlsx","cort" +"BF00128262","TP0000884.Plate.2",2,4,"t",1,100,12.3199270505757,"TP0000884 Plate 2A.xlsx","cort" +"BF00128262","TP0000884.Plate.2",3,4,"t",1,100,11.5398072986151,"TP0000884 Plate 2A.xlsx","cort" +"BF00128263","TP0000883.Plate.2",4,6,"t",1,100,16.5002959431298,"TP0000883 Plate 2A.xlsx","cort" +"BF00128263","TP0000883.Plate.2",5,6,"t",1,100,15.9940340052466,"TP0000883 Plate 2A.xlsx","cort" +"BF00128264","TP0000883.Plate.1",4,3,"t",1,100,14.2136772292472,"TP0000883 Plate 1A.xlsx","cort" +"BF00128264","TP0000883.Plate.1",5,3,"t",1,100,29.8584249460171,"TP0000883 Plate 1A.xlsx","cort" +"BF00128265","20120829.Plate.6",4,3,"t",1,10,14.2448524021036,"20120829 Plate 6A.xlsx","cort" +"BF00128265","20120829.Plate.6",5,3,"t",1,10,12.4036155785176,"20120829 Plate 6A.xlsx","cort" +"BF00128266","TP0000883.Plate.1",4,10,"t",1,100,9.54464602622535,"TP0000883 Plate 1A.xlsx","cort" +"BF00128266","TP0000883.Plate.1",5,10,"t",1,100,20.0582499104658,"TP0000883 Plate 1A.xlsx","cort" +"BF00128267","20120829.Plate.5",2,9,"t",1,10,9.36089848237109,"20120829 Plate 5A.xlsx","cort" +"BF00128267","20120829.Plate.5",3,9,"t",1,10,11.7871358949897,"20120829 Plate 5A.xlsx","cort" +"BF00128268","20120829.Plate.3",6,6,"t",1,1,2.43671023343768,"20120829 Plate 3A.xlsx","cort" +"BF00128268","20120829.Plate.3",7,6,"t",1,1,1.93871020225407,"20120829 Plate 3A.xlsx","cort" +"BF00128269","TP0000882.Plate.3",4,6,"t",1,100,15.3375439023762,"TP0000882 Plate 3A.xlsx","cort" +"BF00128269","TP0000882.Plate.3",5,6,"t",1,100,13.7151403195479,"TP0000882 Plate 3A.xlsx","cort" +"BF00128270","20120829.Plate.5",6,4,"t",1,10,12.2918310170181,"20120829 Plate 5A.xlsx","cort" +"BF00128270","20120829.Plate.5",7,4,"t",1,10,9.67392386192041,"20120829 Plate 5A.xlsx","cort" +"BF00128271","TP0000884.Plate.4",2,10,"t",1,100,11.1171411213087,"TP0000884 Plate 4A.xlsx","cort" +"BF00128271","TP0000884.Plate.4",3,10,"t",1,100,12.2706359234927,"TP0000884 Plate 4A.xlsx","cort" +"BF00128272","TP0000883.Plate.3",6,6,"t",1,100,16.1008204857685,"TP0000883 Plate 3A.xlsx","cort" +"BF00128272","TP0000883.Plate.3",7,6,"t",1,100,14.6207437963411,"TP0000883 Plate 3A.xlsx","cort" +"BF00128273","20120829.Plate.5",2,4,"t",1,10,11.9900529485115,"20120829 Plate 5A.xlsx","cort" +"BF00128273","20120829.Plate.5",3,4,"t",1,10,12.4311237011001,"20120829 Plate 5A.xlsx","cort" +"BF00128274","TP0000882.Plate.4",2,9,"t",1,100,17.3210155416166,"TP0000882 Plate 4A.xlsx","cort" +"BF00128274","TP0000882.Plate.4",3,9,"t",1,100,14.8270095093267,"TP0000882 Plate 4A.xlsx","cort" +"BF00128275","TP0000884.Plate.1",2,6,"t",1,100,10.8805289655394,"TP0000884 Plate 1A.xlsx","cort" +"BF00128275","TP0000884.Plate.1",3,6,"t",1,100,15.2382049622568,"TP0000884 Plate 1A.xlsx","cort" +"BF00128276","TP0000884.Plate.4",4,10,"t",1,100,13.8093549371349,"TP0000884 Plate 4A.xlsx","cort" +"BF00128276","TP0000884.Plate.4",5,10,"t",1,100,12.7267806221987,"TP0000884 Plate 4A.xlsx","cort" +"BF00128277","TP0000883.Plate.4",6,10,"t",1,100,12.1352760881753,"TP0000883 Plate 4A.xlsx","cort" +"BF00128277","TP0000883.Plate.4",7,10,"t",1,100,11.2774611752688,"TP0000883 Plate 4A.xlsx","cort" +"BF00128278","20120829.Plate.6",4,6,"t",1,10,14.2386234303999,"20120829 Plate 6A.xlsx","cort" +"BF00128278","20120829.Plate.6",5,6,"t",1,10,13.8907204679721,"20120829 Plate 6A.xlsx","cort" +"BF00128279","TP0000883.Plate.1",4,5,"t",1,100,12.2252019522405,"TP0000883 Plate 1A.xlsx","cort" +"BF00128279","TP0000883.Plate.1",5,5,"t",1,100,26.8414030634793,"TP0000883 Plate 1A.xlsx","cort" +"BF00128280","20120829.Plate.3",2,8,"t",1,1,11.9503426629155,"20120829 Plate 3A.xlsx","cort" +"BF00128280","20120829.Plate.3",3,8,"t",1,1,14.7929688732714,"20120829 Plate 3A.xlsx","cort" +"BF00128281","TP0000883.Plate.1",6,3,"t",1,100,10.146882748287,"TP0000883 Plate 1A.xlsx","cort" +"BF00128281","TP0000883.Plate.1",7,3,"t",1,100,8.95737565533834,"TP0000883 Plate 1A.xlsx","cort" +"BF00128282","TP0000882.Plate.4",2,7,"t",1,100,7.30972955617409,"TP0000882 Plate 4A.xlsx","cort" +"BF00128282","TP0000882.Plate.4",3,7,"t",1,100,7.89695009463086,"TP0000882 Plate 4A.xlsx","cort" +"BF00128283","TP0000884.Plate.4",6,5,"t",1,100,8.03919544991444,"TP0000884 Plate 4A.xlsx","cort" +"BF00128283","TP0000884.Plate.4",7,5,"t",1,100,9.22414833204907,"TP0000884 Plate 4A.xlsx","cort" +"BF00128285","TP0000884.Plate.4",4,4,"t",1,100,12.7197221840802,"TP0000884 Plate 4A.xlsx","cort" +"BF00128285","TP0000884.Plate.4",5,4,"t",1,100,11.6540670142824,"TP0000884 Plate 4A.xlsx","cort" +"BF00128286","TP0000882.Plate.4",6,4,"t",1,100,9.78230412724888,"TP0000882 Plate 4A.xlsx","cort" +"BF00128286","TP0000882.Plate.4",7,4,"t",1,100,8.88454210066059,"TP0000882 Plate 4A.xlsx","cort" +"BF00128287","20120829.Plate.1",2,5,"t",1,1,11.15963781884,"20120829 Plate 1A.xlsx","cort" +"BF00128287","20120829.Plate.1",3,5,"t",1,1,9.51466754822269,"20120829 Plate 1A.xlsx","cort" +"BF00128288","TP0000882.Plate.4",4,7,"t",1,100,20.1531743584416,"TP0000882 Plate 4A.xlsx","cort" +"BF00128288","TP0000882.Plate.4",5,7,"t",1,100,18.8399044885253,"TP0000882 Plate 4A.xlsx","cort" +"BF00128289","TP0000884.Plate.1",6,7,"t",1,100,24.3965534008159,"TP0000884 Plate 1A.xlsx","cort" +"BF00128289","TP0000884.Plate.1",7,7,"t",1,100,23.9648228493337,"TP0000884 Plate 1A.xlsx","cort" +"BF00128290","20120829.Plate.4",2,10,"t",1,1,11.0083878575181,"20120829 Plate 4B.xlsx","cort" +"BF00128290","20120829.Plate.4",3,10,"t",1,1,11.7016510831092,"20120829 Plate 4B.xlsx","cort" +"BF00128291","TP0000884.Plate.4",4,6,"t",1,100,8.60786131369177,"TP0000884 Plate 4A.xlsx","cort" +"BF00128291","TP0000884.Plate.4",5,6,"t",1,100,8.65281598781669,"TP0000884 Plate 4A.xlsx","cort" +"BF00128292","20120829.Plate.5",4,3,"t",1,10,8.87254890984396,"20120829 Plate 5A.xlsx","cort" +"BF00128292","20120829.Plate.5",5,3,"t",1,10,9.47316894335819,"20120829 Plate 5A.xlsx","cort" +"BF00128293","20120829.Plate.3",6,4,"t",1,1,15.1234758389655,"20120829 Plate 3A.xlsx","cort" +"BF00128293","20120829.Plate.3",7,4,"t",1,1,11.9890686808498,"20120829 Plate 3A.xlsx","cort" +"BF00128294","TP0000883.Plate.2",4,7,"t",1,100,16.3474490000947,"TP0000883 Plate 2A.xlsx","cort" +"BF00128294","TP0000883.Plate.2",5,7,"t",1,100,17.0195279551058,"TP0000883 Plate 2A.xlsx","cort" +"BF00128295","20120829.Plate.6",4,10,"t",1,10,8.07161212852335,"20120829 Plate 6A.xlsx","cort" +"BF00128295","20120829.Plate.6",5,10,"t",1,10,8.83960725614642,"20120829 Plate 6A.xlsx","cort" +"BF00128296","TP0000883.Plate.2",6,7,"t",1,50,12.1697467077881,"TP0000883 Plate 2A.xlsx","cort" +"BF00128296","TP0000883.Plate.2",7,7,"t",1,50,11.8613375684172,"TP0000883 Plate 2A.xlsx","cort" +"BF00128297","20120829.Plate.3",4,10,"t",1,1,11.3467755374183,"20120829 Plate 3A.xlsx","cort" +"BF00128297","20120829.Plate.3",5,10,"t",1,1,12.5730291478256,"20120829 Plate 3A.xlsx","cort" +"BF00128298","TP0000882.Plate.3",4,8,"t",1,100,16.8916105654116,"TP0000882 Plate 3A.xlsx","cort" +"BF00128298","TP0000882.Plate.3",5,8,"t",1,100,13.3444705711986,"TP0000882 Plate 3A.xlsx","cort" +"BF00128299","20120829.Plate.5",6,5,"t",1,10,13.9981390966419,"20120829 Plate 5A.xlsx","cort" +"BF00128299","20120829.Plate.5",7,5,"t",1,10,9.15719076944519,"20120829 Plate 5A.xlsx","cort" +"BF00128300","TP0000883.Plate.3",4,5,"t",1,100,14.1739202618384,"TP0000883 Plate 3A.xlsx","cort" +"BF00128300","TP0000883.Plate.3",5,5,"t",1,100,14.5887502759165,"TP0000883 Plate 3A.xlsx","cort" +"BF00128301","20120829.Plate.6",2,7,"t",1,10,9.05030813026264,"20120829 Plate 6A.xlsx","cort" +"BF00128301","20120829.Plate.6",3,7,"t",1,10,11.4265912579302,"20120829 Plate 6A.xlsx","cort" +"BF00128302","TP0000883.Plate.4",6,3,"t",1,100,13.8553951002195,"TP0000883 Plate 4A.xlsx","cort" +"BF00128302","TP0000883.Plate.4",7,3,"t",1,100,10.5300201030463,"TP0000883 Plate 4A.xlsx","cort" +"BF00128303","TP0000882.Plate.2",6,8,"t",1,100,13.43,"TP0000882 Plate 2B.xlsx","cort" +"BF00128303","TP0000882.Plate.2",7,8,"t",1,100,15.73,"TP0000882 Plate 2B.xlsx","cort" +"BF00128304","20120829.Plate.3",6,8,"t",1,1,4.64882381749125,"20120829 Plate 3A.xlsx","cort" +"BF00128304","20120829.Plate.3",7,8,"t",1,1,3.73205385694636,"20120829 Plate 3A.xlsx","cort" +"BF00128305","20120829.Plate.4",4,10,"t",1,1,11.4977639726716,"20120829 Plate 4B.xlsx","cort" +"BF00128305","20120829.Plate.4",5,10,"t",1,1,11.7255244583274,"20120829 Plate 4B.xlsx","cort" +"BF00128306","TP0000885.Plate.1",2,10,"t",1,100,15.3600483007434,"TP0000885 Plate 1A.xlsx","cort" +"BF00128306","TP0000885.Plate.1",3,10,"t",1,100,13.6317565239245,"TP0000885 Plate 1A.xlsx","cort" +"BF00128307","20120829.Plate.3",4,8,"t",1,1,15.7032851863154,"20120829 Plate 3A.xlsx","cort" +"BF00128307","20120829.Plate.3",5,8,"t",1,1,15.1108106957486,"20120829 Plate 3A.xlsx","cort" +"BF00128308","20120829.Plate.5",2,5,"t",1,10,10.8079980582168,"20120829 Plate 5A.xlsx","cort" +"BF00128308","20120829.Plate.5",3,5,"t",1,10,11.2999394585587,"20120829 Plate 5A.xlsx","cort" +"BF00128309","20120829.Plate.1",2,7,"t",1,1,10.2279801320962,"20120829 Plate 1A.xlsx","cort" +"BF00128309","20120829.Plate.1",3,7,"t",1,1,9.59879302243289,"20120829 Plate 1A.xlsx","cort" +"BF00128310","TP0000882.Plate.1",4,3,"t",1,100,20.4356268299682,"TP0000882 Plate 1A.xlsx","cort" +"BF00128310","TP0000882.Plate.1",5,3,"t",1,100,17.3331953525677,"TP0000882 Plate 1A.xlsx","cort" +"BF00128311","TP0000882.Plate.2",6,9,"t",1,100,14.420674942605,"TP0000882 Plate 2B.xlsx","cort" +"BF00128311","TP0000882.Plate.2",7,9,"t",1,100,16.4532789024609,"TP0000882 Plate 2B.xlsx","cort" +"BF00128312","TP0000884.Plate.4",4,8,"t",1,100,13.6258281760598,"TP0000884 Plate 4A.xlsx","cort" +"BF00128312","TP0000884.Plate.4",5,8,"t",1,100,13.784926891571,"TP0000884 Plate 4A.xlsx","cort" +"BF00128313","TP0000884.Plate.3",2,10,"t",1,100,18.7558676234958,"TP0000884 Plate 3A.xlsx","cort" +"BF00128313","TP0000884.Plate.3",3,10,"t",1,100,25.764934078625,"TP0000884 Plate 3A.xlsx","cort" +"BF00128314","TP0000883.Plate.2",6,3,"t",1,100,11.7370072424851,"TP0000883 Plate 2A.xlsx","cort" +"BF00128314","TP0000883.Plate.2",7,3,"t",1,100,11.9433523103891,"TP0000883 Plate 2A.xlsx","cort" +"BF00128315","20120829.Plate.4",2,6,"t",1,1,9.82398422580811,"20120829 Plate 4B.xlsx","cort" +"BF00128315","20120829.Plate.4",3,6,"t",1,1,9.99400927721466,"20120829 Plate 4B.xlsx","cort" +"BF00128317","20120829.Plate.3",2,4,"t",1,1,11.8298423718954,"20120829 Plate 3A.xlsx","cort" +"BF00128317","20120829.Plate.3",3,4,"t",1,1,13.8707781116851,"20120829 Plate 3A.xlsx","cort" +"BF00128318","TP0000883.Plate.1",4,7,"t",1,100,12.5970100382581,"TP0000883 Plate 1A.xlsx","cort" +"BF00128318","TP0000883.Plate.1",5,7,"t",1,100,28.0990702092627,"TP0000883 Plate 1A.xlsx","cort" +"BF00128319","TP0000884.Plate.4",6,8,"t",1,100,10.0752942463407,"TP0000884 Plate 4A.xlsx","cort" +"BF00128319","TP0000884.Plate.4",7,8,"t",1,100,11.6759796219693,"TP0000884 Plate 4A.xlsx","cort" +"BF00128320","20120829.Plate.4",2,3,"t",1,1,12.3358368222385,"20120829 Plate 4B.xlsx","cort" +"BF00128320","20120829.Plate.4",3,3,"t",1,1,14.1604477107769,"20120829 Plate 4B.xlsx","cort" +"BF00128321","TP0000884.Plate.2",4,8,"t",1,100,11.6910212425438,"TP0000884 Plate 2A.xlsx","cort" +"BF00128321","TP0000884.Plate.2",5,8,"t",1,100,11.4110893679188,"TP0000884 Plate 2A.xlsx","cort" +"BF00128322","TP0000882.Plate.4",6,5,"t",1,100,14.5439892489516,"TP0000882 Plate 4A.xlsx","cort" +"BF00128322","TP0000882.Plate.4",7,5,"t",1,100,11.9631027008879,"TP0000882 Plate 4A.xlsx","cort" +"BF00128323","20120829.Plate.4",6,6,"t",1,10,15.0885344125694,"20120829 Plate 4B.xlsx","cort" +"BF00128323","20120829.Plate.4",7,6,"t",1,10,11.6555838608805,"20120829 Plate 4B.xlsx","cort" +"BF00128324","20120829.Plate.1",6,6,"t",1,1,4.48527109592002,"20120829 Plate 1A.xlsx","cort" +"BF00128324","20120829.Plate.1",7,6,"t",1,1,4.26395411922823,"20120829 Plate 1A.xlsx","cort" +"BF00128325","TP0000882.Plate.4",6,8,"t",1,100,13.4062926698739,"TP0000882 Plate 4A.xlsx","cort" +"BF00128325","TP0000882.Plate.4",7,8,"t",1,100,12.6520093979473,"TP0000882 Plate 4A.xlsx","cort" +"BF00128326","TP0000883.Plate.1",6,7,"t",1,100,18.8853486159224,"TP0000883 Plate 1A.xlsx","cort" +"BF00128326","TP0000883.Plate.1",7,7,"t",1,100,17.8144418145075,"TP0000883 Plate 1A.xlsx","cort" +"BF00128328","20120829.Plate.3",2,9,"t",1,1,8.81884528580415,"20120829 Plate 3A.xlsx","cort" +"BF00128328","20120829.Plate.3",3,9,"t",1,1,11.0076587622832,"20120829 Plate 3A.xlsx","cort" +"BF00128329","TP0000883.Plate.1",4,8,"t",1,100,13.4998406285047,"TP0000883 Plate 1A.xlsx","cort" +"BF00128329","TP0000883.Plate.1",5,8,"t",1,100,27.6820682004132,"TP0000883 Plate 1A.xlsx","cort" +"BF00128330","20120829.Plate.5",4,7,"t",1,10,11.2735240533634,"20120829 Plate 5A.xlsx","cort" +"BF00128330","20120829.Plate.5",5,7,"t",1,10,11.0643469158669,"20120829 Plate 5A.xlsx","cort" +"BF00128331","TP0000883.Plate.4",2,7,"t",1,100,12.7973793040127,"TP0000883 Plate 4A.xlsx","cort" +"BF00128331","TP0000883.Plate.4",3,7,"t",1,100,13.7016124931649,"TP0000883 Plate 4A.xlsx","cort" +"BF00128332","TP0000885.Plate.1",4,9,"t",1,50,15.0504903484939,"TP0000885 Plate 1A.xlsx","cort" +"BF00128332","TP0000885.Plate.1",5,9,"t",1,50,16.6248097502182,"TP0000885 Plate 1A.xlsx","cort" +"BF00128333","TP0000883.Plate.4",2,6,"t",1,100,12.866750100182,"TP0000883 Plate 4A.xlsx","cort" +"BF00128333","TP0000883.Plate.4",3,6,"t",1,100,14.4266107537368,"TP0000883 Plate 4A.xlsx","cort" +"BF00128334","TP0000883.Plate.2",2,3,"t",1,100,13.3649683649723,"TP0000883 Plate 2A.xlsx","cort" +"BF00128334","TP0000883.Plate.2",3,3,"t",1,100,15.5428508985238,"TP0000883 Plate 2A.xlsx","cort" +"BF00128335","20120829.Plate.2",2,3,"t",1,1,14.4643590247039,"20120829 Plate 2B.xlsx","cort" +"BF00128335","20120829.Plate.2",3,3,"t",1,1,11.2780802457994,"20120829 Plate 2B.xlsx","cort" +"BF00128336","20120829.Plate.1",4,6,"t",1,0.5,13.4894802336301,"20120829 Plate 1A.xlsx","cort" +"BF00128336","20120829.Plate.1",5,6,"t",1,0.5,11.1105305733915,"20120829 Plate 1A.xlsx","cort" +"BF00128337","TP0000884.Plate.3",2,9,"t",1,100,11.697045137451,"TP0000884 Plate 3A.xlsx","cort" +"BF00128337","TP0000884.Plate.3",3,9,"t",1,100,15.3684373121732,"TP0000884 Plate 3A.xlsx","cort" +"BF00128339","TP0000882.Plate.2",4,4,"t",1,100,14.8180372962316,"TP0000882 Plate 2B.xlsx","cort" +"BF00128339","TP0000882.Plate.2",5,4,"t",1,100,13.9827609253543,"TP0000882 Plate 2B.xlsx","cort" +"BF00128340","TP0000883.Plate.4",6,5,"t",1,100,14.1551026041088,"TP0000883 Plate 4A.xlsx","cort" +"BF00128340","TP0000883.Plate.4",7,5,"t",1,100,13.955794412348,"TP0000883 Plate 4A.xlsx","cort" +"BF00128341","20120829.Plate.3",4,6,"t",1,0.5,10.7658800557741,"20120829 Plate 3A.xlsx","cort" +"BF00128341","20120829.Plate.3",5,6,"t",1,0.5,11.1440018459995,"20120829 Plate 3A.xlsx","cort" +"BF00128342","20120829.Plate.4",6,4,"t",1,0.01,14.9387092094199,"20120829 Plate 4B.xlsx","cort" +"BF00128342","20120829.Plate.4",7,4,"t",1,0.01,11.7046706722498,"20120829 Plate 4B.xlsx","cort" +"BF00128343","20120829.Plate.5",4,10,"t",1,10,10.7067068556353,"20120829 Plate 5A.xlsx","cort" +"BF00128343","20120829.Plate.5",5,10,"t",1,10,10.8732091310685,"20120829 Plate 5A.xlsx","cort" +"BF00128344","TP0000884.Plate.2",6,9,"t",1,100,41.2106947408938,"TP0000884 Plate 2A.xlsx","cort" +"BF00128344","TP0000884.Plate.2",7,9,"t",1,100,42.7787315059324,"TP0000884 Plate 2A.xlsx","cort" +"BF00128345","TP0000882.Plate.1",4,5,"t",1,100,18.1616705360051,"TP0000882 Plate 1A.xlsx","cort" +"BF00128345","TP0000882.Plate.1",5,5,"t",1,100,18.676206642347,"TP0000882 Plate 1A.xlsx","cort" +"BF00128346","TP0000883.Plate.3",2,3,"t",1,100,15.16,"TP0000883 Plate 3A.xlsx","cort" +"BF00128346","TP0000883.Plate.3",3,3,"t",1,100,12.67,"TP0000883 Plate 3A.xlsx","cort" +"BF00128347","TP0000883.Plate.3",4,3,"t",1,100,13.1563028807625,"TP0000883 Plate 3A.xlsx","cort" +"BF00128347","TP0000883.Plate.3",5,3,"t",1,100,14.1143268394919,"TP0000883 Plate 3A.xlsx","cort" +"BF00128348","TP0000884.Plate.3",2,7,"t",1,100,10.4450326514285,"TP0000884 Plate 3A.xlsx","cort" +"BF00128348","TP0000884.Plate.3",3,7,"t",1,100,13.485273917075,"TP0000884 Plate 3A.xlsx","cort" +"BF00128349","TP0000884.Plate.4",2,9,"t",1,100,21.0637135240357,"TP0000884 Plate 4A.xlsx","cort" +"BF00128349","TP0000884.Plate.4",3,9,"t",1,100,20.0476634877294,"TP0000884 Plate 4A.xlsx","cort" +"BF00128350","20120829.Plate.6",4,4,"t",1,10,13.391501953388,"20120829 Plate 6A.xlsx","cort" +"BF00128350","20120829.Plate.6",5,4,"t",1,10,12.3492909235467,"20120829 Plate 6A.xlsx","cort" +"BF00128351","TP0000883.Plate.2",5,9,"t",1,100,21.3752243973538,"TP0000883 Plate 2A.xlsx","cort" +"BF00128351","TP0000883.Plate.2",4,9,"t",1,100,18.0595391598819,"TP0000883 Plate 2A.xlsx","cort" +"BF00128352","20120829.Plate.3",6,10,"t",1,1,12.2182230535358,"20120829 Plate 3A.xlsx","cort" +"BF00128352","20120829.Plate.3",7,10,"t",1,1,10.4104603752047,"20120829 Plate 3A.xlsx","cort" +"BF00128353","20120829.Plate.5",6,7,"t",1,10,10.0301355835576,"20120829 Plate 5A.xlsx","cort" +"BF00128353","20120829.Plate.5",7,7,"t",1,10,8.26888654360707,"20120829 Plate 5A.xlsx","cort" +"BF00128354","TP0000882.Plate.3",6,6,"t",1,100,17.3053698037795,"TP0000882 Plate 3A.xlsx","cort" +"BF00128354","TP0000882.Plate.3",7,6,"t",1,100,16.709593748083,"TP0000882 Plate 3A.xlsx","cort" +"BF00128355","TP0000882.Plate.4",4,4,"t",1,100,13.8513012565507,"TP0000882 Plate 4A.xlsx","cort" +"BF00128355","TP0000882.Plate.4",5,4,"t",1,100,12.7931583759304,"TP0000882 Plate 4A.xlsx","cort" +"BF00128356","20120829.Plate.5",4,9,"t",1,10,3.03947184060423,"20120829 Plate 5A.xlsx","cort" +"BF00128356","20120829.Plate.5",5,9,"t",1,10,3.23255424666185,"20120829 Plate 5A.xlsx","cort" +"BF00128357","TP0000885.Plate.1",6,8,"t",1,100,9.30393729804302,"TP0000885 Plate 1A.xlsx","cort" +"BF00128357","TP0000885.Plate.1",7,8,"t",1,100,8.82460461753517,"TP0000885 Plate 1A.xlsx","cort" +"BF00128358","20120829.Plate.3",4,4,"t",1,1,13.9048788861195,"20120829 Plate 3A.xlsx","cort" +"BF00128358","20120829.Plate.3",5,4,"t",1,1,13.4960184417775,"20120829 Plate 3A.xlsx","cort" +"BF00128359","20120829.Plate.2",6,10,"t",1,1,11.1127643374803,"20120829 Plate 2B.xlsx","cort" +"BF00128359","20120829.Plate.2",7,10,"t",1,1,10.9982924574664,"20120829 Plate 2B.xlsx","cort" +"BF00131805","20120829.Plate.1",4,3,"t",1,1,16.035658340377,"20120829 Plate 1A.xlsx","cort" +"BF00131805","20120829.Plate.1",5,3,"t",1,1,14.0697226194312,"20120829 Plate 1A.xlsx","cort" +"BF00131806","TP0000882.Plate.3",2,5,"t",1,100,12.5239423990412,"TP0000882 Plate 3A.xlsx","cort" +"BF00131806","TP0000882.Plate.3",3,5,"t",1,100,13.1357208425022,"TP0000882 Plate 3A.xlsx","cort" +"BF00131807","TP0000882.Plate.3",2,9,"t",1,100,9.25156799294221,"TP0000882 Plate 3A.xlsx","cort" +"BF00131807","TP0000882.Plate.3",3,9,"t",1,100,9.76390303495519,"TP0000882 Plate 3A.xlsx","cort" +"BF00131808","TP0000884.Plate.4",2,3,"t",1,100,7.83986848796089,"TP0000884 Plate 4A.xlsx","cort" +"BF00131808","TP0000884.Plate.4",3,3,"t",1,100,8.27445451515058,"TP0000884 Plate 4A.xlsx","cort" +"BF10128127","20120829.Plate.2",4,4,"t",1,1,11.613599528072,"20120829 Plate 2B.xlsx","cort" +"BF10128127","20120829.Plate.2",5,4,"t",1,1,10.3526794954809,"20120829 Plate 2B.xlsx","cort" +"BF10128135","20120829.Plate.2",4,9,"t",1,1,10.1229982287116,"20120829 Plate 2B.xlsx","cort" +"BF10128135","20120829.Plate.2",5,9,"t",1,1,11.1283355139216,"20120829 Plate 2B.xlsx","cort" +"BF10128140","20120829.Plate.4",6,9,"t",1,10,4.71718337983745,"20120829 Plate 4B.xlsx","cort" +"BF10128140","20120829.Plate.4",7,9,"t",1,10,4.19057899671593,"20120829 Plate 4B.xlsx","cort" +"BF10128140","TP0000884.Plate.2",2,10,"t",1,10,0.872443763665897,"TP0000884 Plate 2A.xlsx","cort" +"BF10128140","TP0000884.Plate.2",3,10,"t",1,10,0.786257627822595,"TP0000884 Plate 2A.xlsx","cort" +"BF10128280","20120829.Plate.3",2,7,"t",1,1,9.88438389190423,"20120829 Plate 3A.xlsx","cort" +"BF10128280","20120829.Plate.3",3,7,"t",1,1,12.3908721698155,"20120829 Plate 3A.xlsx","cort" +"BF10128287","20120829.Plate.1",2,4,"t",1,1,12.0773773944777,"20120829 Plate 1A.xlsx","cort" +"BF10128287","20120829.Plate.1",3,4,"t",1,1,9.40076697914381,"20120829 Plate 1A.xlsx","cort" +"BF10128288","TP0000884.Plate.1",6,8,"t",1,100,14.8675689767792,"TP0000884 Plate 1A.xlsx","cort" +"BF10128288","TP0000884.Plate.1",7,8,"t",1,100,16.4872458554749,"TP0000884 Plate 1A.xlsx","cort" +"BF10128290","20120829.Plate.4",2,9,"t",1,1,10.2713739789444,"20120829 Plate 4B.xlsx","cort" +"BF10128290","20120829.Plate.4",3,9,"t",1,1,9.79036383240561,"20120829 Plate 4B.xlsx","cort" +"BF10128353","20120829.Plate.5",6,8,"t",1,10,13.033023201627,"20120829 Plate 5A.xlsx","cort" +"BF10128353","20120829.Plate.5",7,8,"t",1,10,10.2802653220061,"20120829 Plate 5A.xlsx","cort" +"BF10128353","TP0000884.Plate.4",6,10,"t",1,10,1.4496143121237,"TP0000884 Plate 4A.xlsx","cort" +"BF10128353","TP0000884.Plate.4",7,10,"t",1,10,1.66465104302488,"TP0000884 Plate 4A.xlsx","cort" +"BF20128127","20120829.Plate.2",4,3,"t",1,1,16.008561020272,"20120829 Plate 2B.xlsx","cort" +"BF20128127","20120829.Plate.2",5,3,"t",1,1,13.0849873422571,"20120829 Plate 2B.xlsx","cort" +"BF20128135","20120829.Plate.2",4,7,"t",1,1,11.8396989445982,"20120829 Plate 2B.xlsx","cort" +"BF20128135","20120829.Plate.2",5,7,"t",1,1,11.013420426177,"20120829 Plate 2B.xlsx","cort" +"BF20128140","20120829.Plate.4",6,8,"t",1,10,5.42358514971738,"20120829 Plate 4B.xlsx","cort" +"BF20128140","20120829.Plate.4",7,8,"t",1,10,4.66671222900398,"20120829 Plate 4B.xlsx","cort" +"BF20128140","TP0000884.Plate.4",6,9,"t",1,10,0.74840937179755,"TP0000884 Plate 4A.xlsx","cort" +"BF20128140","TP0000884.Plate.4",7,9,"t",1,10,0.703047532771706,"TP0000884 Plate 4A.xlsx","cort" +"BF20128280","20120829.Plate.3",2,6,"t",1,1,9.00764426559235,"20120829 Plate 3A.xlsx","cort" +"BF20128280","20120829.Plate.3",3,6,"t",1,1,10.9296202099883,"20120829 Plate 3A.xlsx","cort" +"BF20128287","20120829.Plate.1",2,3,"t",1,1,13.6916799809676,"20120829 Plate 1A.xlsx","cort" +"BF20128287","20120829.Plate.1",3,3,"t",1,1,11.8405932818961,"20120829 Plate 1A.xlsx","cort" +"BF20128288","TP0000885.Plate.1",4,7,"t",1,100,14.7285937220174,"TP0000885 Plate 1A.xlsx","cort" +"BF20128288","TP0000885.Plate.1",5,7,"t",1,100,17.1495228226489,"TP0000885 Plate 1A.xlsx","cort" +"BF20128290","20120829.Plate.4",2,8,"t",1,1,13.2870858899884,"20120829 Plate 4B.xlsx","cort" +"BF20128290","20120829.Plate.4",3,8,"t",1,1,10.679123731905,"20120829 Plate 4B.xlsx","cort" +"DMSO","20120829.Plate.1",6,11,"n",1,NA,14.7317698917739,"20120829 Plate 1A.xlsx","cort" +"DMSO","20120829.Plate.1",7,11,"n",1,NA,14.0260541728852,"20120829 Plate 1A.xlsx","cort" +"DMSO","20120829.Plate.2",6,11,"n",1,NA,12.4021903093459,"20120829 Plate 2B.xlsx","cort" +"DMSO","20120829.Plate.2",7,11,"n",1,NA,12.0117422718471,"20120829 Plate 2B.xlsx","cort" +"DMSO","20120829.Plate.3",6,11,"n",1,NA,13.0643994434786,"20120829 Plate 3A.xlsx","cort" +"DMSO","20120829.Plate.3",7,11,"n",1,NA,10.9624744059084,"20120829 Plate 3A.xlsx","cort" +"DMSO","20120829.Plate.4",6,11,"n",1,NA,13.0284923587718,"20120829 Plate 4B.xlsx","cort" +"DMSO","20120829.Plate.4",7,11,"n",1,NA,10.4819908234422,"20120829 Plate 4B.xlsx","cort" +"DMSO","20120829.Plate.5",6,11,"n",1,NA,12.8710221601468,"20120829 Plate 5A.xlsx","cort" +"DMSO","20120829.Plate.5",7,11,"n",1,NA,10.0204158543117,"20120829 Plate 5A.xlsx","cort" +"DMSO","20120829.Plate.6",6,11,"n",1,NA,12.1080434935232,"20120829 Plate 6A.xlsx","cort" +"DMSO","20120829.Plate.6",7,11,"n",1,NA,11.6078572576673,"20120829 Plate 6A.xlsx","cort" +"DMSO","TP0000882.Plate.1",6,11,"n",1,NA,19.4572989096746,"TP0000882 Plate 1A.xlsx","cort" +"DMSO","TP0000882.Plate.1",7,11,"n",1,NA,16.7339070896128,"TP0000882 Plate 1A.xlsx","cort" +"DMSO","TP0000882.Plate.2",6,11,"n",1,NA,12.5361036844585,"TP0000882 Plate 2B.xlsx","cort" +"DMSO","TP0000882.Plate.2",7,11,"n",1,NA,16.0075546357186,"TP0000882 Plate 2B.xlsx","cort" +"DMSO","TP0000882.Plate.3",6,11,"n",1,NA,15.8812773027416,"TP0000882 Plate 3A.xlsx","cort" +"DMSO","TP0000882.Plate.3",7,11,"n",1,NA,14.9330340859974,"TP0000882 Plate 3A.xlsx","cort" +"DMSO","TP0000882.Plate.4",6,11,"n",1,NA,18.8498534014689,"TP0000882 Plate 4A.xlsx","cort" +"DMSO","TP0000882.Plate.4",7,11,"n",1,NA,17.7880978325932,"TP0000882 Plate 4A.xlsx","cort" +"DMSO","TP0000883.Plate.1",6,11,"n",1,NA,19.4280587294852,"TP0000883 Plate 1A.xlsx","cort" +"DMSO","TP0000883.Plate.1",7,11,"n",1,NA,13.981912781991,"TP0000883 Plate 1A.xlsx","cort" +"DMSO","TP0000883.Plate.2",6,11,"n",1,NA,19.0312143922795,"TP0000883 Plate 2A.xlsx","cort" +"DMSO","TP0000883.Plate.2",7,11,"n",1,NA,16.8718989928819,"TP0000883 Plate 2A.xlsx","cort" +"DMSO","TP0000883.Plate.3",6,11,"n",1,NA,14.2286278026196,"TP0000883 Plate 3A.xlsx","cort" +"DMSO","TP0000883.Plate.3",7,11,"n",1,NA,13.9704142055078,"TP0000883 Plate 3A.xlsx","cort" +"DMSO","TP0000883.Plate.4",6,11,"n",1,NA,14.1666105415805,"TP0000883 Plate 4A.xlsx","cort" +"DMSO","TP0000883.Plate.4",7,11,"n",1,NA,12.0860071699212,"TP0000883 Plate 4A.xlsx","cort" +"DMSO","TP0000884.Plate.1",6,11,"n",1,NA,11.5713085942053,"TP0000884 Plate 1A.xlsx","cort" +"DMSO","TP0000884.Plate.1",7,11,"n",1,NA,11.9891308939159,"TP0000884 Plate 1A.xlsx","cort" +"DMSO","TP0000884.Plate.2",6,11,"n",1,NA,13.7977766908647,"TP0000884 Plate 2A.xlsx","cort" +"DMSO","TP0000884.Plate.2",7,11,"n",1,NA,14.6037028094551,"TP0000884 Plate 2A.xlsx","cort" +"DMSO","TP0000884.Plate.3",6,11,"n",1,NA,15.7477619478389,"TP0000884 Plate 3A.xlsx","cort" +"DMSO","TP0000884.Plate.3",7,11,"n",1,NA,12.3619541378129,"TP0000884 Plate 3A.xlsx","cort" +"DMSO","TP0000884.Plate.4",6,11,"n",1,NA,10.7634802884169,"TP0000884 Plate 4A.xlsx","cort" +"DMSO","TP0000884.Plate.4",7,11,"n",1,NA,10.9027160845466,"TP0000884 Plate 4A.xlsx","cort" +"DMSO","TP0000885.Plate.1",6,11,"n",1,NA,8.08347331528234,"TP0000885 Plate 1A.xlsx","cort" +"DMSO","TP0000885.Plate.1",7,11,"n",1,NA,10.9435805666764,"TP0000885 Plate 1A.xlsx","cort" +"DMSO","TP0001109.Plate.1",6,11,"n",1,NA,68.43,"TP0001109 Plate 1_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.1",7,11,"n",1,NA,67.49,"TP0001109 Plate 1_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.1",6,12,"n",1,NA,59.84,"TP0001109 Plate 1_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.1",7,12,"n",1,NA,64.77,"TP0001109 Plate 1_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.2",6,11,"n",1,NA,63.05,"TP0001109 Plate 2_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.2",7,11,"n",1,NA,58.2,"TP0001109 Plate 2_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.2",6,12,"n",1,NA,60.32,"TP0001109 Plate 2_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.2",7,12,"n",1,NA,57.57,"TP0001109 Plate 2_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.3",6,11,"n",1,NA,64.63,"TP0001109 Plate 3_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.3",7,11,"n",1,NA,63.29,"TP0001109 Plate 3_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.3",6,12,"n",1,NA,66.6,"TP0001109 Plate 3_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.3",7,12,"n",1,NA,58.3,"TP0001109 Plate 3_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.4",6,11,"n",1,NA,64.14,"TP0001109 Plate 4_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.4",7,11,"n",1,NA,62.04,"TP0001109 Plate 4_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.4",6,12,"n",1,NA,59.54,"TP0001109 Plate 4_Ceetox.csv","cort" +"DMSO","TP0001109.Plate.4",7,12,"n",1,NA,59.53,"TP0001109 Plate 4_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.5",6,11,"n",1,NA,73.03,"TP0001110 Plate 5_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.5",7,11,"n",1,NA,63.02,"TP0001110 Plate 5_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.5",6,12,"n",1,NA,72.77,"TP0001110 Plate 5_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.5",7,12,"n",1,NA,57.25,"TP0001110 Plate 5_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.6",6,11,"n",1,NA,64.67,"TP0001110 Plate 6_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.6",7,11,"n",1,NA,61.83,"TP0001110 Plate 6_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.6",6,12,"n",1,NA,56.81,"TP0001110 Plate 6_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.6",7,12,"n",1,NA,61.49,"TP0001110 Plate 6_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.7",6,11,"n",1,NA,60.26,"TP0001110 Plate 7_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.7",7,11,"n",1,NA,51.32,"TP0001110 Plate 7_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.7",6,12,"n",1,NA,55.33,"TP0001110 Plate 7_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.7",7,12,"n",1,NA,53.99,"TP0001110 Plate 7_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.8",6,11,"n",1,NA,70.06,"TP0001110 Plate 8_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.8",7,11,"n",1,NA,65.23,"TP0001110 Plate 8_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.8",6,12,"n",1,NA,64.73,"TP0001110 Plate 8_Ceetox.csv","cort" +"DMSO","TP0001110.Plate.8",7,12,"n",1,NA,61.11,"TP0001110 Plate 8_Ceetox.csv","cort" 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Plate 10_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.10",7,11,"n",1,NA,25.28,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.11",6,11,"n",1,NA,26.79,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.11",7,11,"n",1,NA,24.59,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.12",6,11,"n",1,NA,23.54,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.12",7,11,"n",1,NA,23.92,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.13",6,11,"n",1,NA,30.19,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.13",7,11,"n",1,NA,25.34,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.14",6,11,"n",1,NA,26.81,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.14",7,11,"n",1,NA,23.29,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.15",6,11,"n",1,NA,24.77,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.15",7,11,"n",1,NA,25.71,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.16",6,11,"n",1,NA,25.92,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.16",7,11,"n",1,NA,23.81,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.17",6,11,"n",1,NA,25.98,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.17",7,11,"n",1,NA,21.78,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.18",6,11,"n",1,NA,24.68,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.18",7,11,"n",1,NA,27.89,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.2",6,11,"n",1,NA,25.67,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.2",7,11,"n",1,NA,24.82,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.3",6,11,"n",1,NA,24.6,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.3",7,11,"n",1,NA,19.77,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.4",6,11,"n",1,NA,26.43,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.4",7,11,"n",1,NA,29.09,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.5",6,11,"n",1,NA,26.11,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.5",7,11,"n",1,NA,22.26,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.6",6,11,"n",1,NA,25.01,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" +"DMSO","phIII.e1k.Plate.6",7,11,"n",1,NA,22.23,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" 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2_Cyprotex.csv","cort" +"DMSO","phIII.e1k.VR.Plate.2",7,11,"n",1,NA,47.95,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"DMSO","phIII.e1k.VR.Plate.3",6,11,"n",1,NA,56.28,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"DMSO","phIII.e1k.VR.Plate.3",7,11,"n",1,NA,59.59,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"FOR","20120829.Plate.1",4,11,"p",1,10,43.2372673177652,"20120829 Plate 1A.xlsx","cort" +"FOR","20120829.Plate.1",5,11,"p",1,10,43.576754720032,"20120829 Plate 1A.xlsx","cort" +"FOR","20120829.Plate.2",4,11,"p",1,10,43.5725018547524,"20120829 Plate 2B.xlsx","cort" +"FOR","20120829.Plate.2",5,11,"p",1,10,42.3410361910527,"20120829 Plate 2B.xlsx","cort" +"FOR","20120829.Plate.3",4,11,"p",1,10,41.5053556501284,"20120829 Plate 3A.xlsx","cort" +"FOR","20120829.Plate.3",5,11,"p",1,10,44.41240107023,"20120829 Plate 3A.xlsx","cort" +"FOR","20120829.Plate.4",4,11,"p",1,10,44.5457658178313,"20120829 Plate 4B.xlsx","cort" +"FOR","20120829.Plate.4",5,11,"p",1,10,45.4351873073413,"20120829 Plate 4B.xlsx","cort" +"FOR","20120829.Plate.5",4,11,"p",1,10,38.6146515879616,"20120829 Plate 5A.xlsx","cort" +"FOR","20120829.Plate.5",5,11,"p",1,10,39.5636878232533,"20120829 Plate 5A.xlsx","cort" +"FOR","20120829.Plate.6",4,11,"p",1,10,39.8536023404572,"20120829 Plate 6A.xlsx","cort" +"FOR","20120829.Plate.6",5,11,"p",1,10,44.3056706880695,"20120829 Plate 6A.xlsx","cort" +"FOR","TP0000882.Plate.1",4,11,"p",1,10,50.0680124291033,"TP0000882 Plate 1A.xlsx","cort" +"FOR","TP0000882.Plate.1",5,11,"p",1,10,49.2613809241447,"TP0000882 Plate 1A.xlsx","cort" +"FOR","TP0000882.Plate.2",4,11,"p",1,10,54.8162417570621,"TP0000882 Plate 2B.xlsx","cort" +"FOR","TP0000882.Plate.2",5,11,"p",1,10,42.2016523448652,"TP0000882 Plate 2B.xlsx","cort" +"FOR","TP0000882.Plate.3",4,11,"p",1,10,50.0283541225737,"TP0000882 Plate 3A.xlsx","cort" +"FOR","TP0000882.Plate.3",5,11,"p",1,10,49.756404868849,"TP0000882 Plate 3A.xlsx","cort" +"FOR","TP0000882.Plate.4",4,11,"p",1,10,48.3792414143403,"TP0000882 Plate 4A.xlsx","cort" +"FOR","TP0000882.Plate.4",5,11,"p",1,10,54.7475595744524,"TP0000882 Plate 4A.xlsx","cort" +"FOR","TP0000883.Plate.1",4,11,"p",1,10,48.8089565807079,"TP0000883 Plate 1A.xlsx","cort" +"FOR","TP0000883.Plate.1",5,11,"p",1,10,105.82,"TP0000883 Plate 1A.xlsx","cort" +"FOR","TP0000883.Plate.2",4,11,"p",1,10,46.403751466806,"TP0000883 Plate 2A.xlsx","cort" +"FOR","TP0000883.Plate.2",5,11,"p",1,10,52.8712461144377,"TP0000883 Plate 2A.xlsx","cort" +"FOR","TP0000883.Plate.3",4,11,"p",1,10,47.7189480840776,"TP0000883 Plate 3A.xlsx","cort" +"FOR","TP0000883.Plate.3",5,11,"p",1,10,42.0198274942392,"TP0000883 Plate 3A.xlsx","cort" +"FOR","TP0000883.Plate.4",4,11,"p",1,10,44.51716368927,"TP0000883 Plate 4A.xlsx","cort" +"FOR","TP0000883.Plate.4",5,11,"p",1,10,43.7063229723135,"TP0000883 Plate 4A.xlsx","cort" +"FOR","TP0000884.Plate.1",4,11,"p",1,10,55.8580610558202,"TP0000884 Plate 1A.xlsx","cort" +"FOR","TP0000884.Plate.1",5,11,"p",1,10,52.1758701417473,"TP0000884 Plate 1A.xlsx","cort" +"FOR","TP0000884.Plate.2",4,11,"p",1,10,43.093940807131,"TP0000884 Plate 2A.xlsx","cort" +"FOR","TP0000884.Plate.2",5,11,"p",1,10,45.487502439651,"TP0000884 Plate 2A.xlsx","cort" +"FOR","TP0000884.Plate.3",4,11,"p",1,10,45.8498529836939,"TP0000884 Plate 3A.xlsx","cort" +"FOR","TP0000884.Plate.3",5,11,"p",1,10,47.4738876307514,"TP0000884 Plate 3A.xlsx","cort" +"FOR","TP0000884.Plate.4",4,11,"p",1,10,47.4522501821034,"TP0000884 Plate 4A.xlsx","cort" +"FOR","TP0000884.Plate.4",5,11,"p",1,10,41.1886948833685,"TP0000884 Plate 4A.xlsx","cort" +"FOR","TP0000885.Plate.1",4,11,"p",1,10,28.5188094221805,"TP0000885 Plate 1A.xlsx","cort" +"FOR","TP0000885.Plate.1",5,11,"p",1,10,34.8794901264068,"TP0000885 Plate 1A.xlsx","cort" +"FOR","TP0001109.Plate.1",4,11,"p",1,NA,189.69,"TP0001109 Plate 1_Ceetox.csv","cort" +"FOR","TP0001109.Plate.1",5,11,"p",1,NA,201.96,"TP0001109 Plate 1_Ceetox.csv","cort" +"FOR","TP0001109.Plate.2",4,11,"p",1,NA,209.38,"TP0001109 Plate 2_Ceetox.csv","cort" +"FOR","TP0001109.Plate.2",5,11,"p",1,NA,189.47,"TP0001109 Plate 2_Ceetox.csv","cort" +"FOR","TP0001109.Plate.3",4,11,"p",1,NA,214.95,"TP0001109 Plate 3_Ceetox.csv","cort" +"FOR","TP0001109.Plate.3",5,11,"p",1,NA,161.21,"TP0001109 Plate 3_Ceetox.csv","cort" +"FOR","TP0001109.Plate.4",4,11,"p",1,NA,212.32,"TP0001109 Plate 4_Ceetox.csv","cort" +"FOR","TP0001109.Plate.4",5,11,"p",1,NA,202.21,"TP0001109 Plate 4_Ceetox.csv","cort" +"FOR","TP0001110.Plate.5",4,11,"p",1,NA,190.24,"TP0001110 Plate 5_Ceetox.csv","cort" +"FOR","TP0001110.Plate.5",5,11,"p",1,NA,184.84,"TP0001110 Plate 5_Ceetox.csv","cort" +"FOR","TP0001110.Plate.6",4,11,"p",1,NA,215.31,"TP0001110 Plate 6_Ceetox.csv","cort" +"FOR","TP0001110.Plate.6",5,11,"p",1,NA,193.08,"TP0001110 Plate 6_Ceetox.csv","cort" +"FOR","TP0001110.Plate.7",4,11,"p",1,NA,178.54,"TP0001110 Plate 7_Ceetox.csv","cort" +"FOR","TP0001110.Plate.7",5,11,"p",1,NA,195.18,"TP0001110 Plate 7_Ceetox.csv","cort" +"FOR","TP0001110.Plate.8",4,11,"p",1,NA,206.99,"TP0001110 Plate 8_Ceetox.csv","cort" +"FOR","TP0001110.Plate.8",5,11,"p",1,NA,211.51,"TP0001110 Plate 8_Ceetox.csv","cort" +"FOR","TP0001111.Plate.10",4,11,"p",1,NA,185.62,"TP0001111 Plate 10_Ceetox.csv","cort" +"FOR","TP0001111.Plate.10",5,11,"p",1,NA,199.54,"TP0001111 Plate 10_Ceetox.csv","cort" +"FOR","TP0001111.Plate.11",4,11,"p",1,NA,206.36,"TP0001111 Plate 11_Ceetox.csv","cort" +"FOR","TP0001111.Plate.11",5,11,"p",1,NA,190.29,"TP0001111 Plate 11_Ceetox.csv","cort" +"FOR","TP0001111.Plate.12",4,11,"p",1,NA,183.65,"TP0001111 Plate 12_Ceetox.csv","cort" +"FOR","TP0001111.Plate.12",5,11,"p",1,NA,171.49,"TP0001111 Plate 12_Ceetox.csv","cort" +"FOR","TP0001111.Plate.9",4,11,"p",1,NA,175.22,"TP0001111 Plate 9_Ceetox.csv","cort" +"FOR","TP0001111.Plate.9",5,11,"p",1,NA,203.66,"TP0001111 Plate 9_Ceetox.csv","cort" +"FOR","TP0001112.Plate.13",4,11,"p",1,NA,208.67,"TP0001112 Plate 13_Ceetox.csv","cort" +"FOR","TP0001112.Plate.13",5,11,"p",1,NA,211,"TP0001112 Plate 13_Ceetox.csv","cort" +"FOR","TP0001112.Plate.14",4,11,"p",1,NA,209.18,"TP0001112 Plate 14_Ceetox.csv","cort" +"FOR","TP0001112.Plate.14",5,11,"p",1,NA,212.25,"TP0001112 Plate 14_Ceetox.csv","cort" +"FOR","TP0001112.Plate.15",4,11,"p",1,NA,183.79,"TP0001112 Plate 15_Ceetox.csv","cort" +"FOR","TP0001112.Plate.15",5,11,"p",1,NA,196.7,"TP0001112 Plate 15_Ceetox.csv","cort" +"FOR","TP0001112.Plate.16",4,11,"p",1,NA,166.7,"TP0001112 Plate 16_Ceetox.csv","cort" +"FOR","TP0001112.Plate.16",5,11,"p",1,NA,173.06,"TP0001112 Plate 16_Ceetox.csv","cort" +"FOR","TP0001113.Plate.17",4,11,"p",1,NA,164.28,"TP0001113 Plate 17_Ceetox.csv","cort" +"FOR","TP0001113.Plate.17",5,11,"p",1,NA,133.28,"TP0001113 Plate 17_Ceetox.csv","cort" +"FOR","TP0001113.Plate.18",4,11,"p",1,NA,174.95,"TP0001113 Plate 18_Ceetox.csv","cort" +"FOR","TP0001113.Plate.18",5,11,"p",1,NA,189,"TP0001113 Plate 18_Ceetox.csv","cort" +"FOR","TP0001113.Plate.19",4,11,"p",1,NA,178.96,"TP0001113 Plate 19_Ceetox.csv","cort" +"FOR","TP0001113.Plate.19",5,11,"p",1,NA,199.97,"TP0001113 Plate 19_Ceetox.csv","cort" +"FOR","TP0001113.Plate.20",4,11,"p",1,NA,162.76,"TP0001113 Plate 20_Ceetox.csv","cort" +"FOR","TP0001113.Plate.20",5,11,"p",1,NA,184.68,"TP0001113 Plate 20_Ceetox.csv","cort" +"FOR","TP0001114.Plate.21",4,11,"p",1,NA,186.58,"TP0001114 Plate 21_Ceetox.csv","cort" +"FOR","TP0001114.Plate.21",5,11,"p",1,NA,185.38,"TP0001114 Plate 21_Ceetox.csv","cort" +"FOR","TP0001114.Plate.22",4,11,"p",1,NA,213.64,"TP0001114 Plate 22_Ceetox.csv","cort" +"FOR","TP0001114.Plate.22",5,11,"p",1,NA,197.67,"TP0001114 Plate 22_Ceetox.csv","cort" +"FOR","TP0001114.Plate.23",4,11,"p",1,NA,185.16,"TP0001114 Plate 23_Ceetox.csv","cort" 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+"FOR","TP0001056.Plate.12",2,2,"p",1,10,67.25,"TP0001056 Plate 12_CeeTox.csv","cort" +"FOR","TP0001056.Plate.12",3,2,"p",1,10,66.67,"TP0001056 Plate 12_CeeTox.csv","cort" +"FOR","TP0001056.Plate.9",2,2,"p",1,10,61.01,"TP0001056 Plate 9_CeeTox.csv","cort" +"FOR","TP0001056.Plate.9",3,2,"p",1,10,68.18,"TP0001056 Plate 9_CeeTox.csv","cort" +"FOR","TP0001057.Plate.13",2,2,"p",1,10,62.76,"TP0001057 Plate 13_CeeTox.csv","cort" +"FOR","TP0001057.Plate.13",3,2,"p",1,10,67.62,"TP0001057 Plate 13_CeeTox.csv","cort" +"FOR","TP0001057.Plate.14",2,2,"p",1,10,67.75,"TP0001057 Plate 14_CeeTox.csv","cort" +"FOR","TP0001057.Plate.14",3,2,"p",1,10,65.87,"TP0001057 Plate 14_CeeTox.csv","cort" +"FOR","TP0001057.Plate.15",2,2,"p",1,10,67.4,"TP0001057 Plate 15_CeeTox.csv","cort" +"FOR","TP0001057.Plate.15",3,2,"p",1,10,70.19,"TP0001057 Plate 15_CeeTox.csv","cort" +"FOR","TP0001057.Plate.16",2,2,"p",1,10,60.69,"TP0001057 Plate 16_CeeTox.csv","cort" +"FOR","TP0001057.Plate.16",3,2,"p",1,10,74.59,"TP0001057 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+"FOR","TP0001059.Plate.6",3,2,"p",1,10,69.58,"TP0001059 Plate 6_CeeTox.csv","cort" +"FOR","TP0001059.Plate.7",2,2,"p",1,10,80.68,"TP0001059 Plate 7_CeeTox.csv","cort" +"FOR","TP0001059.Plate.7",3,2,"p",1,10,85.42,"TP0001059 Plate 7_CeeTox.csv","cort" +"FOR","TP0001059.Plate.8",2,2,"p",1,10,82.01,"TP0001059 Plate 8_CeeTox.csv","cort" +"FOR","TP0001059.Plate.8",3,2,"p",1,10,83.37,"TP0001059 Plate 8_CeeTox.csv","cort" +"FOR","TP0001060.Plate.10",2,2,"p",1,10,71.34,"TP0001060 Plate 10_CeeTox.csv","cort" +"FOR","TP0001060.Plate.10",3,2,"p",1,10,81.53,"TP0001060 Plate 10_CeeTox.csv","cort" +"FOR","TP0001060.Plate.11",2,2,"p",1,10,73,"TP0001060 Plate 11_CeeTox.csv","cort" +"FOR","TP0001060.Plate.11",3,2,"p",1,10,84.93,"TP0001060 Plate 11_CeeTox.csv","cort" +"FOR","TP0001060.Plate.12",2,2,"p",1,10,75.84,"TP0001060 Plate 12_CeeTox.csv","cort" +"FOR","TP0001060.Plate.12",3,2,"p",1,10,72.06,"TP0001060 Plate 12_CeeTox.csv","cort" +"FOR","TP0001060.Plate.9",2,2,"p",1,10,75.44,"TP0001060 Plate 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+"FOR","TP0001062.Plate.18",2,2,"p",1,10,70.7,"TP0001062_Plate_18_Ceetox.csv","cort" +"FOR","TP0001062.Plate.18",3,2,"p",1,10,73.95,"TP0001062_Plate_18_Ceetox.csv","cort" +"FOR","E1K.VR.Plate.10",4,11,"p",1,NA,52.82,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"FOR","E1K.VR.Plate.10",5,11,"p",1,NA,64.22,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"FOR","E1K.VR.Plate.11",4,11,"p",1,NA,57.09,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"FOR","E1K.VR.Plate.11",5,11,"p",1,NA,62.68,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"FOR","E1K.VR.Plate.9",4,11,"p",1,NA,63.06,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"FOR","E1K.VR.Plate.9",5,11,"p",1,NA,57.19,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"FOR","PhaseIIe1k.VR.Plate.1",4,11,"p",1,NA,69.61,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"FOR","PhaseIIe1k.VR.Plate.1",5,11,"p",1,NA,70.42,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"FOR","PhaseIIe1k.VR.Plate.2",4,11,"p",1,NA,69.58,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"FOR","PhaseIIe1k.VR.Plate.2",5,11,"p",1,NA,67.72,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"FOR","PhaseIIe1k.VR.Plate.3",4,11,"p",1,NA,66.09,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"FOR","PhaseIIe1k.VR.Plate.3",5,11,"p",1,NA,65.77,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"FOR","PhaseIIe1k.VR.Plate.4",4,11,"p",1,NA,64.56,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"FOR","PhaseIIe1k.VR.Plate.4",5,11,"p",1,NA,75.13,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.1",4,11,"p",1,10,57.45,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.1",5,11,"p",1,10,66.13,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.2",4,11,"p",1,10,58.88,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.2",5,11,"p",1,10,67.85,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.3",4,11,"p",1,10,60.76,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.3",5,11,"p",1,10,55.01,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.4",4,11,"p",1,10,58.7,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.4",5,11,"p",1,10,61.99,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.5",4,11,"p",1,10,58.06,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.5",5,11,"p",1,10,61.67,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.6",4,11,"p",1,10,57.94,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.6",5,11,"p",1,10,53.07,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.7",4,11,"p",1,10,49.03,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.7",5,11,"p",1,10,48.41,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.8",4,11,"p",1,10,55.76,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"FOR","PhaseII.VR.Plate.8",5,11,"p",1,10,58.11,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"FOR","phIII.e1k.Plate.1",4,11,"p",1,NA,201.72,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.1",5,11,"p",1,NA,199.75,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.10",4,11,"p",1,NA,120.24,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.10",5,11,"p",1,NA,121.74,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.11",4,11,"p",1,NA,123.04,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.11",5,11,"p",1,NA,116.02,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.12",4,11,"p",1,NA,116.92,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.12",5,11,"p",1,NA,104.14,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.13",4,11,"p",1,NA,123.15,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.13",5,11,"p",0,NA,NA,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.14",4,11,"p",1,NA,116.15,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.14",5,11,"p",1,NA,112.17,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.15",4,11,"p",1,NA,102.54,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.15",5,11,"p",1,NA,105.24,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.16",4,11,"p",1,NA,125.49,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.16",5,11,"p",1,NA,105.07,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.17",4,11,"p",1,NA,110.58,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.17",5,11,"p",1,NA,110.25,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.18",4,11,"p",1,NA,116.63,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.18",5,11,"p",1,NA,100.02,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.2",4,11,"p",1,NA,126.53,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.2",5,11,"p",1,NA,114.15,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.3",4,11,"p",1,NA,128.56,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.3",5,11,"p",1,NA,105.5,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.4",4,11,"p",1,NA,103.75,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.4",5,11,"p",1,NA,96.68,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.5",4,11,"p",1,NA,101.06,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.5",5,11,"p",1,NA,93.54,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.6",4,11,"p",1,NA,114.81,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.6",5,11,"p",1,NA,100.83,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.7",4,11,"p",1,NA,93.91,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.7",5,11,"p",1,NA,115.28,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.8",4,11,"p",1,NA,112.19,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.8",5,11,"p",1,NA,113.23,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.9",4,11,"p",1,NA,133.36,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"FOR","phIII.e1k.Plate.9",5,11,"p",1,NA,108.47,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"FOR","phIII.e1k.VR.Plate.1",4,11,"p",1,NA,213.11,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"FOR","phIII.e1k.VR.Plate.1",5,11,"p",1,NA,209.67,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"FOR","phIII.e1k.VR.Plate.2",4,11,"p",1,NA,203.74,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"FOR","phIII.e1k.VR.Plate.2",5,11,"p",1,NA,180.12,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"FOR","phIII.e1k.VR.Plate.3",4,11,"p",1,NA,215.53,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"FOR","phIII.e1k.VR.Plate.3",5,11,"p",1,NA,221.37,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"PRO","20120829.Plate.1",2,11,"m",1,3,0.567128208635768,"20120829 Plate 1A.xlsx","cort" +"PRO","20120829.Plate.1",3,11,"m",1,3,0.588618219120001,"20120829 Plate 1A.xlsx","cort" +"PRO","20120829.Plate.2",2,11,"m",1,3,0.535489267718073,"20120829 Plate 2B.xlsx","cort" +"PRO","20120829.Plate.2",3,11,"m",1,3,0.53874606439567,"20120829 Plate 2B.xlsx","cort" +"PRO","20120829.Plate.3",2,11,"m",1,3,0.47,"20120829 Plate 3A.xlsx","cort" +"PRO","20120829.Plate.3",3,11,"m",1,3,0.50060681965791,"20120829 Plate 3A.xlsx","cort" +"PRO","20120829.Plate.4",2,11,"m",1,3,0.513933034840466,"20120829 Plate 4B.xlsx","cort" +"PRO","20120829.Plate.4",3,11,"m",1,3,0.45,"20120829 Plate 4B.xlsx","cort" +"PRO","20120829.Plate.5",2,11,"m",1,3,0.56183241183814,"20120829 Plate 5A.xlsx","cort" +"PRO","20120829.Plate.5",3,11,"m",1,3,0.54260884797301,"20120829 Plate 5A.xlsx","cort" +"PRO","20120829.Plate.6",2,11,"m",1,3,0.555406482140959,"20120829 Plate 6A.xlsx","cort" +"PRO","20120829.Plate.6",3,11,"m",1,3,0.47,"20120829 Plate 6A.xlsx","cort" +"PRO","TP0000882.Plate.1",2,11,"m",1,3,0.64825012590846,"TP0000882 Plate 1A.xlsx","cort" +"PRO","TP0000882.Plate.1",3,11,"m",1,3,0.755560856184828,"TP0000882 Plate 1A.xlsx","cort" +"PRO","TP0000882.Plate.2",2,11,"m",1,3,0.44,"TP0000882 Plate 2B.xlsx","cort" +"PRO","TP0000882.Plate.2",3,11,"m",1,3,0.521063104048986,"TP0000882 Plate 2B.xlsx","cort" +"PRO","TP0000882.Plate.3",2,11,"m",1,3,0.46,"TP0000882 Plate 3A.xlsx","cort" +"PRO","TP0000882.Plate.3",3,11,"m",1,3,0.49,"TP0000882 Plate 3A.xlsx","cort" +"PRO","TP0000882.Plate.4",2,11,"m",1,3,0.500864820636551,"TP0000882 Plate 4A.xlsx","cort" +"PRO","TP0000882.Plate.4",3,11,"m",1,3,0.530979000840192,"TP0000882 Plate 4A.xlsx","cort" +"PRO","TP0000883.Plate.1",2,11,"m",1,3,0.43,"TP0000883 Plate 1A.xlsx","cort" +"PRO","TP0000883.Plate.1",3,11,"m",1,3,0.505998380187313,"TP0000883 Plate 1A.xlsx","cort" +"PRO","TP0000883.Plate.2",2,11,"m",1,3,0.527957139185097,"TP0000883 Plate 2A.xlsx","cort" +"PRO","TP0000883.Plate.2",3,11,"m",1,3,0.578671247315383,"TP0000883 Plate 2A.xlsx","cort" +"PRO","TP0000883.Plate.3",2,11,"m",1,3,0.571954877594603,"TP0000883 Plate 3A.xlsx","cort" +"PRO","TP0000883.Plate.3",3,11,"m",1,3,0.552060316620954,"TP0000883 Plate 3A.xlsx","cort" +"PRO","TP0000883.Plate.4",2,11,"m",1,3,0.524841297622991,"TP0000883 Plate 4A.xlsx","cort" +"PRO","TP0000883.Plate.4",3,11,"m",1,3,0.592289276382768,"TP0000883 Plate 4A.xlsx","cort" +"PRO","TP0000884.Plate.1",2,11,"m",1,3,0.46,"TP0000884 Plate 1A.xlsx","cort" +"PRO","TP0000884.Plate.1",3,11,"m",1,3,0.45,"TP0000884 Plate 1A.xlsx","cort" +"PRO","TP0000884.Plate.2",2,11,"m",1,3,0.527163681941058,"TP0000884 Plate 2A.xlsx","cort" +"PRO","TP0000884.Plate.2",3,11,"m",1,3,0.46,"TP0000884 Plate 2A.xlsx","cort" +"PRO","TP0000884.Plate.3",2,11,"m",1,3,0.46,"TP0000884 Plate 3A.xlsx","cort" +"PRO","TP0000884.Plate.3",3,11,"m",1,3,0.43,"TP0000884 Plate 3A.xlsx","cort" +"PRO","TP0000884.Plate.4",2,11,"m",1,3,0.44,"TP0000884 Plate 4A.xlsx","cort" +"PRO","TP0000884.Plate.4",3,11,"m",1,3,0.45,"TP0000884 Plate 4A.xlsx","cort" +"PRO","TP0000885.Plate.1",2,11,"m",1,3,0.41,"TP0000885 Plate 1A.xlsx","cort" +"PRO","TP0000885.Plate.1",3,11,"m",1,3,0.39,"TP0000885 Plate 1A.xlsx","cort" +"PRO","TP0001109.Plate.1",2,11,"m",1,NA,0.71,"TP0001109 Plate 1_Ceetox.csv","cort" +"PRO","TP0001109.Plate.1",3,11,"m",1,NA,0.76,"TP0001109 Plate 1_Ceetox.csv","cort" +"PRO","TP0001109.Plate.2",2,11,"m",1,NA,0.93,"TP0001109 Plate 2_Ceetox.csv","cort" +"PRO","TP0001109.Plate.2",3,11,"m",1,NA,0.76,"TP0001109 Plate 2_Ceetox.csv","cort" +"PRO","TP0001109.Plate.3",2,11,"m",1,NA,0.7,"TP0001109 Plate 3_Ceetox.csv","cort" +"PRO","TP0001109.Plate.3",3,11,"m",1,NA,0.67,"TP0001109 Plate 3_Ceetox.csv","cort" +"PRO","TP0001109.Plate.4",2,11,"m",1,NA,0.62,"TP0001109 Plate 4_Ceetox.csv","cort" +"PRO","TP0001109.Plate.4",3,11,"m",1,NA,0.66,"TP0001109 Plate 4_Ceetox.csv","cort" +"PRO","TP0001110.Plate.5",2,11,"m",1,NA,0.58,"TP0001110 Plate 5_Ceetox.csv","cort" +"PRO","TP0001110.Plate.5",3,11,"m",0,NA,NA,"TP0001110 Plate 5_Ceetox.csv","cort" +"PRO","TP0001110.Plate.6",2,11,"m",1,NA,0.54,"TP0001110 Plate 6_Ceetox.csv","cort" +"PRO","TP0001110.Plate.6",3,11,"m",1,NA,0.63,"TP0001110 Plate 6_Ceetox.csv","cort" +"PRO","TP0001110.Plate.7",2,11,"m",1,NA,0.58,"TP0001110 Plate 7_Ceetox.csv","cort" +"PRO","TP0001110.Plate.7",3,11,"m",1,NA,0.57,"TP0001110 Plate 7_Ceetox.csv","cort" +"PRO","TP0001110.Plate.8",2,11,"m",1,NA,0.73,"TP0001110 Plate 8_Ceetox.csv","cort" +"PRO","TP0001110.Plate.8",3,11,"m",1,NA,0.55,"TP0001110 Plate 8_Ceetox.csv","cort" +"PRO","TP0001111.Plate.10",2,11,"m",1,NA,0.78,"TP0001111 Plate 10_Ceetox.csv","cort" +"PRO","TP0001111.Plate.10",3,11,"m",1,NA,0.68,"TP0001111 Plate 10_Ceetox.csv","cort" +"PRO","TP0001111.Plate.11",2,11,"m",1,NA,0.57,"TP0001111 Plate 11_Ceetox.csv","cort" +"PRO","TP0001111.Plate.11",3,11,"m",1,NA,0.59,"TP0001111 Plate 11_Ceetox.csv","cort" +"PRO","TP0001111.Plate.12",2,11,"m",1,NA,0.67,"TP0001111 Plate 12_Ceetox.csv","cort" +"PRO","TP0001111.Plate.12",3,11,"m",1,NA,0.62,"TP0001111 Plate 12_Ceetox.csv","cort" +"PRO","TP0001111.Plate.9",2,11,"m",1,NA,0.62,"TP0001111 Plate 9_Ceetox.csv","cort" +"PRO","TP0001111.Plate.9",3,11,"m",1,NA,0.61,"TP0001111 Plate 9_Ceetox.csv","cort" +"PRO","TP0001112.Plate.13",2,11,"m",1,NA,0.64,"TP0001112 Plate 13_Ceetox.csv","cort" +"PRO","TP0001112.Plate.13",3,11,"m",1,NA,0.56,"TP0001112 Plate 13_Ceetox.csv","cort" +"PRO","TP0001112.Plate.14",2,11,"m",1,NA,0.71,"TP0001112 Plate 14_Ceetox.csv","cort" +"PRO","TP0001112.Plate.14",3,11,"m",1,NA,0.69,"TP0001112 Plate 14_Ceetox.csv","cort" +"PRO","TP0001112.Plate.15",2,11,"m",1,NA,0.71,"TP0001112 Plate 15_Ceetox.csv","cort" +"PRO","TP0001112.Plate.15",3,11,"m",1,NA,0.57,"TP0001112 Plate 15_Ceetox.csv","cort" +"PRO","TP0001112.Plate.16",2,11,"m",1,NA,0.7,"TP0001112 Plate 16_Ceetox.csv","cort" +"PRO","TP0001112.Plate.16",3,11,"m",1,NA,1.04,"TP0001112 Plate 16_Ceetox.csv","cort" +"PRO","TP0001113.Plate.17",2,11,"m",1,NA,0.65,"TP0001113 Plate 17_Ceetox.csv","cort" +"PRO","TP0001113.Plate.17",3,11,"m",1,NA,0.61,"TP0001113 Plate 17_Ceetox.csv","cort" +"PRO","TP0001113.Plate.18",2,11,"m",1,NA,0.67,"TP0001113 Plate 18_Ceetox.csv","cort" +"PRO","TP0001113.Plate.18",3,11,"m",1,NA,0.6,"TP0001113 Plate 18_Ceetox.csv","cort" +"PRO","TP0001113.Plate.19",2,11,"m",1,NA,0.69,"TP0001113 Plate 19_Ceetox.csv","cort" +"PRO","TP0001113.Plate.19",3,11,"m",1,NA,0.64,"TP0001113 Plate 19_Ceetox.csv","cort" +"PRO","TP0001113.Plate.20",2,11,"m",1,NA,0.68,"TP0001113 Plate 20_Ceetox.csv","cort" +"PRO","TP0001113.Plate.20",3,11,"m",1,NA,0.69,"TP0001113 Plate 20_Ceetox.csv","cort" +"PRO","TP0001114.Plate.21",2,11,"m",1,NA,0.56,"TP0001114 Plate 21_Ceetox.csv","cort" +"PRO","TP0001114.Plate.21",3,11,"m",0,NA,NA,"TP0001114 Plate 21_Ceetox.csv","cort" +"PRO","TP0001114.Plate.22",2,11,"m",1,NA,0.66,"TP0001114 Plate 22_Ceetox.csv","cort" +"PRO","TP0001114.Plate.22",3,11,"m",1,NA,0.57,"TP0001114 Plate 22_Ceetox.csv","cort" +"PRO","TP0001114.Plate.23",2,11,"m",1,NA,0.6,"TP0001114 Plate 23_Ceetox.csv","cort" +"PRO","TP0001114.Plate.23",3,11,"m",1,NA,0.56,"TP0001114 Plate 23_Ceetox.csv","cort" +"PRO","TP0001114.Plate.24",2,11,"m",1,NA,0.65,"TP0001114 Plate 24_Ceetox.csv","cort" +"PRO","TP0001114.Plate.24",3,11,"m",1,NA,0.65,"TP0001114 Plate 24_Ceetox.csv","cort" +"PRO","TP0001054.Plate.1",4,2,"m",1,3,0.6,"TP0001054 Plate 1_CeeTox.csv","cort" +"PRO","TP0001054.Plate.1",5,2,"m",1,3,0.68,"TP0001054 Plate 1_CeeTox.csv","cort" +"PRO","TP0001054.Plate.2",4,2,"m",1,3,0.71,"TP0001054 Plate 2_CeeTox.csv","cort" +"PRO","TP0001054.Plate.2",5,2,"m",1,3,0.71,"TP0001054 Plate 2_CeeTox.csv","cort" +"PRO","TP0001054.Plate.3",4,2,"m",1,3,0.76,"TP0001054 Plate 3_CeeTox.csv","cort" +"PRO","TP0001054.Plate.3",5,2,"m",1,3,0.67,"TP0001054 Plate 3_CeeTox.csv","cort" +"PRO","TP0001054.Plate.4",4,2,"m",1,3,0.76,"TP0001054 Plate 4_CeeTox.csv","cort" +"PRO","TP0001054.Plate.4",5,2,"m",1,3,0.66,"TP0001054 Plate 4_CeeTox.csv","cort" +"PRO","TP0001055.Plate.5",4,2,"m",1,3,0.6,"TP0001055 Plate 5_CeeTox.csv","cort" +"PRO","TP0001055.Plate.5",5,2,"m",1,3,0.6,"TP0001055 Plate 5_CeeTox.csv","cort" +"PRO","TP0001055.Plate.6",4,2,"m",1,3,0.74,"TP0001055 Plate 6_CeeTox.csv","cort" +"PRO","TP0001055.Plate.6",5,2,"m",1,3,0.72,"TP0001055 Plate 6_CeeTox.csv","cort" +"PRO","TP0001054.Plate.7",4,2,"m",1,3,0.89,"TP0001055 Plate 7_CeeTox.csv","cort" +"PRO","TP0001054.Plate.7",5,2,"m",1,3,0.78,"TP0001055 Plate 7_CeeTox.csv","cort" +"PRO","TP0001054.Plate.8",4,2,"m",1,3,0.72,"TP0001055 Plate 8_CeeTox.csv","cort" +"PRO","TP0001054.Plate.8",5,2,"m",1,3,0.77,"TP0001055 Plate 8_CeeTox.csv","cort" +"PRO","TP0001056.Plate.10",4,2,"m",1,3,0.65,"TP0001056 Plate 10_CeeTox.csv","cort" +"PRO","TP0001056.Plate.10",5,2,"m",1,3,0.64,"TP0001056 Plate 10_CeeTox.csv","cort" +"PRO","TP0001056.Plate.11",4,2,"m",1,3,0.73,"TP0001056 Plate 11_CeeTox.csv","cort" +"PRO","TP0001056.Plate.11",5,2,"m",1,3,0.79,"TP0001056 Plate 11_CeeTox.csv","cort" +"PRO","TP0001056.Plate.12",4,2,"m",1,3,0.78,"TP0001056 Plate 12_CeeTox.csv","cort" +"PRO","TP0001056.Plate.12",5,2,"m",1,3,0.59,"TP0001056 Plate 12_CeeTox.csv","cort" +"PRO","TP0001056.Plate.9",4,2,"m",1,3,0.65,"TP0001056 Plate 9_CeeTox.csv","cort" +"PRO","TP0001056.Plate.9",5,2,"m",1,3,0.69,"TP0001056 Plate 9_CeeTox.csv","cort" +"PRO","TP0001057.Plate.13",4,2,"m",1,3,0.59,"TP0001057 Plate 13_CeeTox.csv","cort" +"PRO","TP0001057.Plate.13",5,2,"m",1,3,0.65,"TP0001057 Plate 13_CeeTox.csv","cort" +"PRO","TP0001057.Plate.14",4,2,"m",1,3,0.7,"TP0001057 Plate 14_CeeTox.csv","cort" +"PRO","TP0001057.Plate.14",5,2,"m",1,3,0.63,"TP0001057 Plate 14_CeeTox.csv","cort" +"PRO","TP0001057.Plate.15",4,2,"m",1,3,0.6,"TP0001057 Plate 15_CeeTox.csv","cort" +"PRO","TP0001057.Plate.15",5,2,"m",1,3,0.62,"TP0001057 Plate 15_CeeTox.csv","cort" +"PRO","TP0001057.Plate.16",4,2,"m",1,3,0.74,"TP0001057 Plate 16_CeeTox.csv","cort" +"PRO","TP0001057.Plate.16",5,2,"m",1,3,0.69,"TP0001057 Plate 16_CeeTox.csv","cort" +"PRO","TP0001058.Plate.1",4,2,"m",1,3,0.45,"TP0001058 Plate 1_Ceetox.csv","cort" +"PRO","TP0001058.Plate.1",5,2,"m",1,3,0.46,"TP0001058 Plate 1_Ceetox.csv","cort" +"PRO","TP0001058.Plate.2",4,2,"m",1,3,0.52,"TP0001058 Plate 2_CeeTox.csv","cort" +"PRO","TP0001058.Plate.2",5,2,"m",1,3,0.64,"TP0001058 Plate 2_CeeTox.csv","cort" +"PRO","TP0001058.Plate.3",4,2,"m",1,3,0.66,"TP0001058 Plate 3_CeeTox.csv","cort" +"PRO","TP0001058.Plate.3",5,2,"m",1,3,0.7,"TP0001058 Plate 3_CeeTox.csv","cort" +"PRO","TP0001058.Plate.4",4,2,"m",1,3,0.65,"TP0001058 Plate 4_CeeTox.csv","cort" +"PRO","TP0001058.Plate.4",5,2,"m",1,3,0.64,"TP0001058 Plate 4_CeeTox.csv","cort" +"PRO","TP0001059.Plate.5",4,2,"m",1,3,0.6,"TP0001059 Plate 5_CeeTox.csv","cort" +"PRO","TP0001059.Plate.5",5,2,"m",1,3,0.63,"TP0001059 Plate 5_CeeTox.csv","cort" +"PRO","TP0001059.Plate.6",4,2,"m",1,3,0.63,"TP0001059 Plate 6_CeeTox.csv","cort" +"PRO","TP0001059.Plate.6",5,2,"m",1,3,0.59,"TP0001059 Plate 6_CeeTox.csv","cort" +"PRO","TP0001059.Plate.7",4,2,"m",1,3,0.63,"TP0001059 Plate 7_CeeTox.csv","cort" +"PRO","TP0001059.Plate.7",5,2,"m",1,3,0.66,"TP0001059 Plate 7_CeeTox.csv","cort" +"PRO","TP0001059.Plate.8",4,2,"m",1,3,0.63,"TP0001059 Plate 8_CeeTox.csv","cort" +"PRO","TP0001059.Plate.8",5,2,"m",1,3,0.68,"TP0001059 Plate 8_CeeTox.csv","cort" +"PRO","TP0001060.Plate.10",4,2,"m",1,3,0.53,"TP0001060 Plate 10_CeeTox.csv","cort" +"PRO","TP0001060.Plate.10",5,2,"m",1,3,0.57,"TP0001060 Plate 10_CeeTox.csv","cort" +"PRO","TP0001060.Plate.11",4,2,"m",1,3,0.64,"TP0001060 Plate 11_CeeTox.csv","cort" +"PRO","TP0001060.Plate.11",5,2,"m",1,3,0.66,"TP0001060 Plate 11_CeeTox.csv","cort" +"PRO","TP0001060.Plate.12",4,2,"m",1,3,0.66,"TP0001060 Plate 12_CeeTox.csv","cort" +"PRO","TP0001060.Plate.12",5,2,"m",1,3,0.77,"TP0001060 Plate 12_CeeTox.csv","cort" +"PRO","TP0001060.Plate.9",4,2,"m",1,3,0.58,"TP0001060 Plate 9_CeeTox.csv","cort" +"PRO","TP0001060.Plate.9",5,2,"m",1,3,0.62,"TP0001060 Plate 9_CeeTox.csv","cort" +"PRO","TP0001061.Plate.13",4,2,"m",1,3,0.65,"TP0001061 Plate 13_CeeTox.csv","cort" +"PRO","TP0001061.Plate.13",5,2,"m",1,3,0.77,"TP0001061 Plate 13_CeeTox.csv","cort" +"PRO","TP0001061.Plate.14",4,2,"m",1,3,0.58,"TP0001061 Plate 14_CeeTox.csv","cort" +"PRO","TP0001061.Plate.14",5,2,"m",0,3,NA,"TP0001061 Plate 14_CeeTox.csv","cort" +"PRO","TP0001061.Plate.15",4,2,"m",1,3,0.65,"TP0001061 Plate 15_CeeTox.csv","cort" +"PRO","TP0001061.Plate.15",5,2,"m",1,3,0.59,"TP0001061 Plate 15_CeeTox.csv","cort" +"PRO","TP0001061.Plate.16",4,2,"m",1,3,0.65,"TP0001061 Plate 16_CeeTox.csv","cort" +"PRO","TP0001061.Plate.16",5,2,"m",1,3,0.65,"TP0001061 Plate 16_CeeTox.csv","cort" +"PRO","TP0001062.Plate.17",4,2,"m",1,3,0.65,"TP0001062_Plate_17_Ceetox.csv","cort" +"PRO","TP0001062.Plate.17",5,2,"m",1,3,0.6,"TP0001062_Plate_17_Ceetox.csv","cort" +"PRO","TP0001062.Plate.18",4,2,"m",1,3,0.56,"TP0001062_Plate_18_Ceetox.csv","cort" +"PRO","TP0001062.Plate.18",5,2,"m",1,3,0.65,"TP0001062_Plate_18_Ceetox.csv","cort" +"PRO","E1K.VR.Plate.10",2,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"PRO","E1K.VR.Plate.10",3,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"PRO","E1K.VR.Plate.11",2,11,"m",1,NA,0.53,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"PRO","E1K.VR.Plate.11",3,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"PRO","E1K.VR.Plate.9",2,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"PRO","E1K.VR.Plate.9",3,11,"m",0,NA,NA,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"PRO","PhaseIIe1k.VR.Plate.1",2,11,"m",1,NA,0.75,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"PRO","PhaseIIe1k.VR.Plate.1",3,11,"m",1,NA,0.66,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"PRO","PhaseIIe1k.VR.Plate.2",2,11,"m",1,NA,0.62,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"PRO","PhaseIIe1k.VR.Plate.2",3,11,"m",1,NA,0.82,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"PRO","PhaseIIe1k.VR.Plate.3",2,11,"m",1,NA,0.67,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"PRO","PhaseIIe1k.VR.Plate.3",3,11,"m",1,NA,0.73,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"PRO","PhaseIIe1k.VR.Plate.4",2,11,"m",1,NA,0.65,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"PRO","PhaseIIe1k.VR.Plate.4",3,11,"m",1,NA,0.75,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.1",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.1",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.2",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.2",3,11,"m",1,3,0.51,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.3",2,11,"m",1,3,0.54,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.3",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.4",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.4",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.5",2,11,"m",1,3,0.51,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.5",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.6",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.6",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 6_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.7",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.7",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.8",2,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"PRO","PhaseII.VR.Plate.8",3,11,"m",0,3,NA,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"PRO","phIII.e1k.Plate.1",2,11,"m",1,NA,0.9,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.1",3,11,"m",1,NA,0.89,"2900-TO3 Phase III E1K Set 2 Plate 1_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.10",2,11,"m",1,NA,0.59,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.10",3,11,"m",1,NA,0.61,"2900-TO3 Phase III E1K Set 2 Plate 10_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.11",2,11,"m",1,NA,0.59,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.11",3,11,"m",1,NA,0.92,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.12",2,11,"m",1,NA,0.59,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.12",3,11,"m",1,NA,0.61,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.13",2,11,"m",1,NA,0.57,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.13",3,11,"m",1,NA,0.52,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.14",2,11,"m",1,NA,0.59,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.14",3,11,"m",1,NA,0.57,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.15",2,11,"m",0,NA,NA,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.15",3,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 15_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.16",2,11,"m",1,NA,0.57,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.16",3,11,"m",1,NA,0.69,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.17",2,11,"m",1,NA,0.5,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.17",3,11,"m",1,NA,0.52,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.18",2,11,"m",1,NA,0.63,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.18",3,11,"m",1,NA,0.57,"2900-TO3 Phase III E1K Set 2 Plate 18_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.2",2,11,"m",1,NA,0.54,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.2",3,11,"m",0,NA,NA,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.3",2,11,"m",1,NA,0.56,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.3",3,11,"m",1,NA,0.6,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.4",2,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.4",3,11,"m",1,NA,0.51,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.5",2,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.5",3,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.6",2,11,"m",1,NA,0.55,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.6",3,11,"m",1,NA,0.61,"2900-TO3 Phase III E1K Set 2 Plate 6_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.7",2,11,"m",1,NA,0.52,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.7",3,11,"m",1,NA,0.54,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.8",2,11,"m",1,NA,0.65,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.8",3,11,"m",1,NA,0.62,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.9",2,11,"m",1,NA,0.67,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"PRO","phIII.e1k.Plate.9",3,11,"m",1,NA,0.62,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"PRO","phIII.e1k.VR.Plate.1",2,11,"m",1,NA,0.84,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"PRO","phIII.e1k.VR.Plate.1",3,11,"m",1,NA,0.96,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"PRO","phIII.e1k.VR.Plate.2",2,11,"m",1,NA,0.8,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"PRO","phIII.e1k.VR.Plate.2",3,11,"m",1,NA,0.85,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"PRO","phIII.e1k.VR.Plate.3",2,11,"m",1,NA,0.91,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"PRO","phIII.e1k.VR.Plate.3",3,11,"m",1,NA,1.06,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX000097","TP0001058.Plate.2",2,6,"t",1,20,18.58,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX000097","TP0001058.Plate.2",3,6,"t",1,20,23.79,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX000777","20120829.Plate.2",6,9,"t",1,0.2,11.1711447266845,"20120829 Plate 2B.xlsx","cort" +"TX000777","20120829.Plate.2",7,9,"t",1,0.2,9.57857067701961,"20120829 Plate 2B.xlsx","cort" +"TX000789","TP0000882.Plate.3",6,5,"t",1,20,11.8375753935395,"TP0000882 Plate 3A.xlsx","cort" +"TX000789","TP0000882.Plate.3",7,5,"t",1,20,10.9617204960161,"TP0000882 Plate 3A.xlsx","cort" +"TX000991","TP0001111.Plate.11",6,5,"t",1,100,69.22,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX000991","TP0001111.Plate.11",7,5,"t",1,100,75.5,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX001026","TP0001111.Plate.11",2,9,"t",1,100,55.29,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX001026","TP0001111.Plate.11",3,9,"t",1,100,60.4,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX001028","TP0001110.Plate.8",4,3,"t",1,100,100.14,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX001028","TP0001110.Plate.8",5,3,"t",1,100,58.73,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX001030","TP0001110.Plate.7",4,6,"t",1,100,61.22,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX001030","TP0001110.Plate.7",5,6,"t",1,100,65.19,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX001034","TP0001109.Plate.2",4,5,"t",1,20,68.38,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX001034","TP0001109.Plate.2",5,5,"t",1,20,64.14,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX001038","TP0001054.Plate.7",6,6,"t",1,20,26.51,"TP0001055 Plate 7_CeeTox.csv","cort" +"TX001038","TP0001054.Plate.7",7,6,"t",1,20,28.31,"TP0001055 Plate 7_CeeTox.csv","cort" +"TX001040","TP0001114.Plate.22",2,10,"t",1,105.96,52.3,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX001040","TP0001114.Plate.22",3,10,"t",1,105.96,55.44,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX001052","TP0001112.Plate.13",4,6,"t",1,100,66.23,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX001052","TP0001112.Plate.13",5,6,"t",1,100,67.69,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX001060","TP0001112.Plate.15",6,9,"t",1,100,58.75,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX001060","TP0001112.Plate.15",7,9,"t",1,100,61.71,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX001064","TP0001114.Plate.21",6,3,"t",1,100,66.37,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX001064","TP0001114.Plate.21",7,3,"t",1,100,51.39,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX001068","TP0001113.Plate.19",2,3,"t",1,100,59.29,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX001068","TP0001113.Plate.19",3,3,"t",1,100,64.85,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX001069","TP0001056.Plate.11",6,4,"t",1,20,28.94,"TP0001056 Plate 11_CeeTox.csv","cort" +"TX001069","TP0001056.Plate.11",7,4,"t",1,20,28.11,"TP0001056 Plate 11_CeeTox.csv","cort" +"TX001072","TP0001114.Plate.22",6,8,"t",1,100,56.84,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX001072","TP0001114.Plate.22",7,8,"t",1,100,61.53,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX001074","TP0001110.Plate.6",6,10,"t",1,100,68.15,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX001074","TP0001110.Plate.6",7,10,"t",1,100,71.32,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX001083","phIII.e1k.Plate.4",2,3,"t",1,20,15.05,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX001083","phIII.e1k.Plate.4",3,3,"t",1,20,15.22,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX001086","TP0001111.Plate.12",6,4,"t",1,100,65.25,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX001086","TP0001111.Plate.12",7,4,"t",1,100,55.93,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX001087","phIII.e1k.VR.Plate.1",6,10,"t",1,2,71.58,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX001087","phIII.e1k.VR.Plate.1",7,10,"t",1,2,48.12,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX001106","TP0001109.Plate.1",4,3,"t",1,100,51.02,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX001106","TP0001109.Plate.1",5,3,"t",1,100,49.08,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX001112","TP0001114.Plate.24",2,6,"t",1,20,55.57,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX001112","TP0001114.Plate.24",3,6,"t",1,20,64.69,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX001118","TP0001113.Plate.18",2,10,"t",1,100,57.08,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX001118","TP0001113.Plate.18",3,10,"t",1,100,68.97,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX001132","TP0001112.Plate.16",6,9,"t",1,100,21.46,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX001132","TP0001112.Plate.16",7,9,"t",1,100,19.76,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX001134","E1K.VR.Plate.10",2,4,"t",1,1,16.74,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX001134","E1K.VR.Plate.10",3,4,"t",1,1,14.14,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX001140","TP0001109.Plate.3",2,6,"t",1,50,35,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX001140","TP0001109.Plate.3",3,6,"t",1,50,39.83,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX001166","TP0001111.Plate.12",4,3,"t",1,100,59.66,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX001166","TP0001111.Plate.12",5,3,"t",1,100,57.34,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX001178","TP0001112.Plate.16",2,9,"t",1,100,45.45,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX001178","TP0001112.Plate.16",3,9,"t",1,100,50.57,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX001184","TP0001111.Plate.9",4,6,"t",1,50,36.73,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX001184","TP0001111.Plate.9",5,6,"t",1,50,33.31,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX001222","TP0001110.Plate.7",2,6,"t",1,100,52.26,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX001222","TP0001110.Plate.7",3,6,"t",1,100,61.85,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX001230","TP0001109.Plate.3",4,10,"t",1,100,79.29,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX001230","TP0001109.Plate.3",5,10,"t",1,100,66.47,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX001247","phIII.e1k.Plate.14",4,6,"t",1,20,24.95,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX001247","phIII.e1k.Plate.14",5,6,"t",1,20,25.31,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX0012711","TP0001110.Plate.5",4,6,"t",1,100,70.75,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX0012711","TP0001110.Plate.5",5,6,"t",1,100,66.66,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX0012712","TP0001110.Plate.8",6,10,"t",1,100,53.49,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX0012712","TP0001110.Plate.8",7,10,"t",1,100,57.07,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX0012713","TP0001113.Plate.18",6,9,"t",1,100,55.15,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX0012713","TP0001113.Plate.18",7,9,"t",1,100,50.53,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX0012714","TP0001114.Plate.22",4,3,"t",1,100,60.67,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX0012714","TP0001114.Plate.22",5,3,"t",1,100,65.17,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX0012715","TP0001112.Plate.16",2,8,"t",1,20,55.96,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX0012715","TP0001112.Plate.16",3,8,"t",1,20,60.31,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX0012716","TP0001112.Plate.16",6,8,"t",1,100,55.81,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX0012716","TP0001112.Plate.16",7,8,"t",1,100,58.91,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX0012717","TP0001113.Plate.17",6,4,"t",1,100,49.68,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX0012717","TP0001113.Plate.17",7,4,"t",1,100,46.23,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX0012718","TP0001112.Plate.15",2,10,"t",1,100,62.05,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX0012718","TP0001112.Plate.15",3,10,"t",1,100,64.27,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX0012719","TP0001111.Plate.9",2,10,"t",1,100,53.86,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX0012719","TP0001111.Plate.9",3,10,"t",1,100,64.23,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX0012720","TP0001113.Plate.20",2,4,"t",1,50,56.69,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX0012720","TP0001113.Plate.20",3,4,"t",1,50,64.43,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX0012721","TP0001110.Plate.7",6,3,"t",1,50,58.83,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX0012721","TP0001110.Plate.7",7,3,"t",1,50,57.21,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX0012722","TP0001110.Plate.8",2,7,"t",1,77.62,73.59,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX0012722","TP0001110.Plate.8",3,7,"t",1,77.62,69.02,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX0012723","TP0001110.Plate.8",4,7,"t",1,50,66.6,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX0012723","TP0001110.Plate.8",5,7,"t",1,50,72.04,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX0012724","TP0001113.Plate.17",2,5,"t",1,100,51.95,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX0012724","TP0001113.Plate.17",3,5,"t",1,100,64.92,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX0012725","TP0001114.Plate.23",2,8,"t",1,100,67.11,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX0012725","TP0001114.Plate.23",3,8,"t",1,100,62.23,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX0012726","TP0001112.Plate.14",4,3,"t",1,100,64.5,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX0012726","TP0001112.Plate.14",5,3,"t",1,100,59.39,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX0012727","TP0001111.Plate.12",6,9,"t",1,20,65.28,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX0012727","TP0001111.Plate.12",7,9,"t",1,20,52.39,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX0012728","TP0001114.Plate.23",6,9,"t",1,100,68.85,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX0012728","TP0001114.Plate.23",7,9,"t",1,100,60.76,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX0012729","TP0001112.Plate.14",4,9,"t",1,100,57.41,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX0012729","TP0001112.Plate.14",5,9,"t",1,100,63.74,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX0012730","TP0001113.Plate.19",4,10,"t",1,100,58.15,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX0012730","TP0001113.Plate.19",5,10,"t",1,100,62.33,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX0012731","TP0001109.Plate.3",2,5,"t",1,100,62.55,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX0012731","TP0001109.Plate.3",3,5,"t",1,100,61.9,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX0012732","TP0001111.Plate.9",2,5,"t",1,100,53.29,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX0012732","TP0001111.Plate.9",3,5,"t",1,100,67.26,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX0012733","TP0001109.Plate.3",2,8,"t",1,100,30.48,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX0012733","TP0001109.Plate.3",3,8,"t",1,100,31.99,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX0012734","TP0001110.Plate.7",6,7,"t",1,100,64.35,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX0012734","TP0001110.Plate.7",7,7,"t",1,100,61.18,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX0012735","TP0001114.Plate.21",2,3,"t",1,100,49.46,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX0012735","TP0001114.Plate.21",3,3,"t",1,100,59.6,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX0012736","TP0001111.Plate.11",6,8,"t",1,20,61.29,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX0012736","TP0001111.Plate.11",7,8,"t",1,20,63.3,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX0012737","TP0001109.Plate.1",4,4,"t",1,100,62.05,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX0012737","TP0001109.Plate.1",5,4,"t",1,100,61.37,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX0012738","TP0001113.Plate.20",2,8,"t",1,100,55.65,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX0012738","TP0001113.Plate.20",3,8,"t",1,100,63.57,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX0012739","PhaseIIe1k.VR.Plate.2",6,3,"t",1,10,19.44,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"TX0012739","PhaseIIe1k.VR.Plate.2",7,3,"t",1,10,20.18,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"TX0012741","phIII.e1k.Plate.3",6,5,"t",1,20,19.13,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX0012741","phIII.e1k.Plate.3",7,5,"t",1,20,15.91,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX0012745","phIII.e1k.VR.Plate.3",4,4,"t",1,0.5,55.43,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX0012745","phIII.e1k.VR.Plate.3",5,4,"t",1,0.5,61.22,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX0012750","phIII.e1k.Plate.17",4,5,"t",1,100,20.91,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"TX0012750","phIII.e1k.Plate.17",5,5,"t",1,100,27.35,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"TX0012757","phIII.e1k.Plate.13",4,8,"t",1,11.8,29.95,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX0012757","phIII.e1k.Plate.13",5,8,"t",1,11.8,28.22,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX0012762","phIII.e1k.Plate.2",4,8,"t",1,100,29.36,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"TX0012762","phIII.e1k.Plate.2",5,8,"t",1,100,22.12,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"TX0012769","phIII.e1k.Plate.3",2,5,"t",1,20,25.91,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX0012769","phIII.e1k.Plate.3",3,5,"t",1,20,24.34,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX0012774","phIII.e1k.Plate.3",2,4,"t",1,20,26.49,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX0012774","phIII.e1k.Plate.3",3,4,"t",1,20,21.91,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX0012777","phIII.e1k.VR.Plate.1",2,8,"t",1,1,53.92,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX0012777","phIII.e1k.VR.Plate.1",3,8,"t",1,1,54.44,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX001343","TP0001114.Plate.23",4,4,"t",1,100,79.41,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX001343","TP0001114.Plate.23",5,4,"t",1,100,82.22,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX001350","TP0001111.Plate.12",4,7,"t",1,100,72.2,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX001350","TP0001111.Plate.12",5,7,"t",1,100,71.51,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX001394","TP0001061.Plate.15",6,5,"t",1,20,19.58,"TP0001061 Plate 15_CeeTox.csv","cort" +"TX001394","TP0001061.Plate.15",7,5,"t",1,20,20.64,"TP0001061 Plate 15_CeeTox.csv","cort" +"TX001399","TP0001111.Plate.9",4,5,"t",1,50,64.38,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX001399","TP0001111.Plate.9",5,5,"t",1,50,65.73,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX001400","TP0001113.Plate.19",6,9,"t",1,100,62.95,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX001400","TP0001113.Plate.19",7,9,"t",1,100,68.21,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX001440","TP0000884.Plate.2",4,5,"t",1,20,12.0320587224838,"TP0000884 Plate 2A.xlsx","cort" +"TX001440","TP0000884.Plate.2",5,5,"t",1,20,15.7949672085805,"TP0000884 Plate 2A.xlsx","cort" +"TX001556","TP0001060.Plate.9",6,8,"t",1,8.4,21.69,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX001556","TP0001060.Plate.9",7,8,"t",1,8.4,24.28,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX001593","TP0000882.Plate.2",2,9,"t",1,10,3.43833999435551,"TP0000882 Plate 2B.xlsx","cort" +"TX001593","TP0000882.Plate.2",3,9,"t",1,10,2.57288501419098,"TP0000882 Plate 2B.xlsx","cort" +"TX001595","TP0000882.Plate.2",6,4,"t",1,10,12.7851363207248,"TP0000882 Plate 2B.xlsx","cort" +"TX001595","TP0000882.Plate.2",7,4,"t",1,10,12.1933768779136,"TP0000882 Plate 2B.xlsx","cort" +"TX001598","20120829.Plate.2",6,7,"t",1,0.2,10.1851560611486,"20120829 Plate 2B.xlsx","cort" +"TX001598","20120829.Plate.2",7,7,"t",1,0.2,9.68224223863252,"20120829 Plate 2B.xlsx","cort" +"TX001609","TP0000884.Plate.1",4,7,"t",1,10,15.8120201628609,"TP0000884 Plate 1A.xlsx","cort" +"TX001609","TP0000884.Plate.1",5,7,"t",1,10,14.748941094338,"TP0000884 Plate 1A.xlsx","cort" +"TX001612","TP0000885.Plate.1",4,6,"t",1,8.9,11.290006305084,"TP0000885 Plate 1A.xlsx","cort" +"TX001612","TP0000885.Plate.1",5,6,"t",1,8.9,12.2219929957969,"TP0000885 Plate 1A.xlsx","cort" +"TX001620","20120829.Plate.2",2,7,"t",1,0.24,9.88945940698784,"20120829 Plate 2B.xlsx","cort" +"TX001620","20120829.Plate.2",3,7,"t",1,0.24,10.3088407748688,"20120829 Plate 2B.xlsx","cort" +"TX001632","TP0001113.Plate.19",2,6,"t",1,100,60.75,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX001632","TP0001113.Plate.19",3,6,"t",1,100,66.08,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX001689","TP0001113.Plate.20",6,5,"t",1,50,24.32,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX001689","TP0001113.Plate.20",7,5,"t",1,50,21.88,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX001697","TP0001109.Plate.4",6,4,"t",1,100,65.93,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX001697","TP0001109.Plate.4",7,4,"t",1,100,68.99,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX001698","TP0001054.Plate.8",6,10,"t",1,20,25.04,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX001698","TP0001054.Plate.8",7,10,"t",1,20,24.33,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX001701","TP0001114.Plate.21",2,8,"t",1,100,58.28,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX001701","TP0001114.Plate.21",3,8,"t",1,100,63.86,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX001705","TP0001057.Plate.14",4,5,"t",1,100,27.73,"TP0001057 Plate 14_CeeTox.csv","cort" +"TX001705","TP0001057.Plate.14",5,5,"t",1,100,25.91,"TP0001057 Plate 14_CeeTox.csv","cort" +"TX001708","TP0001061.Plate.13",6,10,"t",1,100,23.48,"TP0001061 Plate 13_CeeTox.csv","cort" +"TX001708","TP0001061.Plate.13",7,10,"t",1,100,24.85,"TP0001061 Plate 13_CeeTox.csv","cort" +"TX001712","TP0001059.Plate.8",2,4,"t",1,20,21.09,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX001712","TP0001059.Plate.8",3,4,"t",1,20,25.94,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX001716","TP0001056.Plate.9",2,6,"t",1,100,19.95,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX001716","TP0001056.Plate.9",3,6,"t",1,100,20.76,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX001735","TP0001055.Plate.5",4,10,"t",1,10.2,21.9,"TP0001055 Plate 5_CeeTox.csv","cort" +"TX001735","TP0001055.Plate.5",5,10,"t",1,10.2,23.77,"TP0001055 Plate 5_CeeTox.csv","cort" +"TX001757","phIII.e1k.Plate.4",4,7,"t",1,20,23.33,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX001757","phIII.e1k.Plate.4",5,7,"t",1,20,18.77,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX001775","TP0001113.Plate.20",2,5,"t",1,100,56.5,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX001775","TP0001113.Plate.20",3,5,"t",1,100,67.85,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX001784","TP0001059.Plate.5",2,4,"t",1,20,26.24,"TP0001059 Plate 5_CeeTox.csv","cort" +"TX001784","TP0001059.Plate.5",3,4,"t",1,20,24.07,"TP0001059 Plate 5_CeeTox.csv","cort" +"TX001787","TP0001110.Plate.7",2,5,"t",1,100,47.38,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX001787","TP0001110.Plate.7",3,5,"t",1,100,53.46,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX001793","TP0001111.Plate.11",2,5,"t",1,100,58.88,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX001793","TP0001111.Plate.11",3,5,"t",1,100,68.36,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX001796","TP0001109.Plate.1",2,10,"t",1,100,65.96,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX001796","TP0001109.Plate.1",3,10,"t",1,100,67.09,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX001801","TP0001054.Plate.4",2,4,"t",1,20,25.57,"TP0001054 Plate 4_CeeTox.csv","cort" +"TX001801","TP0001054.Plate.4",3,4,"t",1,20,29.3,"TP0001054 Plate 4_CeeTox.csv","cort" +"TX001810","TP0001111.Plate.9",6,5,"t",1,100,53.87,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX001810","TP0001111.Plate.9",7,5,"t",1,100,58.57,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX001830","TP0001057.Plate.14",2,6,"t",1,20,28.4,"TP0001057 Plate 14_CeeTox.csv","cort" +"TX001830","TP0001057.Plate.14",3,6,"t",1,20,30.99,"TP0001057 Plate 14_CeeTox.csv","cort" +"TX001843","TP0001054.Plate.2",4,8,"t",1,20,18.97,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX001843","TP0001054.Plate.2",5,8,"t",1,20,21.3,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX001876","TP0001061.Plate.14",2,5,"t",1,100,21.11,"TP0001061 Plate 14_CeeTox.csv","cort" +"TX001876","TP0001061.Plate.14",3,5,"t",1,100,22.1,"TP0001061 Plate 14_CeeTox.csv","cort" +"TX001881","TP0001112.Plate.15",4,3,"t",1,100,53.52,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX001881","TP0001112.Plate.15",5,3,"t",1,100,57.88,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX001882","TP0001054.Plate.1",2,8,"t",1,20.7,23.65,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX001882","TP0001054.Plate.1",3,8,"t",1,20.7,21.12,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX001887","TP0001058.Plate.1",2,7,"t",1,100,22.94,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX001887","TP0001058.Plate.1",3,7,"t",1,100,24.8,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX001903","TP0001060.Plate.12",6,10,"t",1,100,21.47,"TP0001060 Plate 12_CeeTox.csv","cort" +"TX001903","TP0001060.Plate.12",7,10,"t",1,100,21.51,"TP0001060 Plate 12_CeeTox.csv","cort" +"TX001907","TP0001054.Plate.8",4,5,"t",1,20,22.35,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX001907","TP0001054.Plate.8",5,5,"t",1,20,23.13,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX001919","TP0001114.Plate.23",2,5,"t",1,100,55.15,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX001919","TP0001114.Plate.23",3,5,"t",1,100,60.05,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX001921","TP0001054.Plate.3",6,6,"t",1,100,38.54,"TP0001054 Plate 3_CeeTox.csv","cort" +"TX001921","TP0001054.Plate.3",7,6,"t",1,100,30.16,"TP0001054 Plate 3_CeeTox.csv","cort" +"TX002104","TP0001055.Plate.5",2,4,"t",1,20.8,26.6,"TP0001055 Plate 5_CeeTox.csv","cort" +"TX002104","TP0001055.Plate.5",3,4,"t",1,20.8,24.64,"TP0001055 Plate 5_CeeTox.csv","cort" +"TX002114","TP0001110.Plate.8",2,10,"t",1,100,77.8,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX002114","TP0001110.Plate.8",3,10,"t",1,100,73.64,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX002126","TP0001110.Plate.6",4,4,"t",1,100,73.19,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX002126","TP0001110.Plate.6",5,4,"t",1,100,70.08,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX002131","TP0001113.Plate.17",6,10,"t",1,100,61.28,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX002131","TP0001113.Plate.17",7,10,"t",1,100,49.13,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX002132","TP0001057.Plate.16",2,5,"t",1,100,27.51,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX002132","TP0001057.Plate.16",3,5,"t",1,100,27.57,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX002152","TP0001111.Plate.10",6,9,"t",1,100,65.96,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002152","TP0001111.Plate.10",7,9,"t",1,100,65.87,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002177","TP0001113.Plate.18",4,10,"t",1,100,66.09,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002177","TP0001113.Plate.18",5,10,"t",1,100,65.68,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002193","TP0001058.Plate.3",2,4,"t",1,20,17.33,"TP0001058 Plate 3_CeeTox.csv","cort" +"TX002193","TP0001058.Plate.3",3,4,"t",1,20,16.9,"TP0001058 Plate 3_CeeTox.csv","cort" +"TX002202","TP0001114.Plate.21",4,7,"t",1,100,55.14,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002202","TP0001114.Plate.21",5,7,"t",1,100,68.9,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002205","TP0001111.Plate.9",2,7,"t",1,100,54.65,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX002205","TP0001111.Plate.9",3,7,"t",1,100,62.53,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX002210","TP0001114.Plate.22",2,4,"t",1,100,69.26,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX002210","TP0001114.Plate.22",3,4,"t",1,100,62.57,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX002231","TP0001114.Plate.21",2,5,"t",1,100,54.1,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002231","TP0001114.Plate.21",3,5,"t",1,100,76.1,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002249","TP0001111.Plate.9",6,9,"t",1,100,68.17,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX002249","TP0001111.Plate.9",7,9,"t",1,100,60.82,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX002286","TP0001109.Plate.3",6,9,"t",1,20,62.03,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX002286","TP0001109.Plate.3",7,9,"t",1,20,58.06,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX002304","TP0001113.Plate.18",4,9,"t",1,100,61.22,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002304","TP0001113.Plate.18",5,9,"t",1,100,56.92,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002308","TP0001114.Plate.23",6,7,"t",1,100,68.32,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX002308","TP0001114.Plate.23",7,7,"t",1,100,72.04,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX002330","TP0001112.Plate.16",2,10,"t",1,100,44.71,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX002330","TP0001112.Plate.16",3,10,"t",1,100,55.89,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX002331","TP0001059.Plate.6",6,10,"t",1,20,21.65,"TP0001059 Plate 6_CeeTox.csv","cort" +"TX002331","TP0001059.Plate.6",7,10,"t",1,20,21.48,"TP0001059 Plate 6_CeeTox.csv","cort" +"TX002390","TP0001111.Plate.11",6,9,"t",1,100,54.82,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX002390","TP0001111.Plate.11",7,9,"t",1,100,61.92,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX002400","TP0001110.Plate.7",4,4,"t",1,100,63.06,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX002400","TP0001110.Plate.7",5,4,"t",1,100,62.8,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX002408","E1K.VR.Plate.10",4,4,"t",1,1,13.62,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX002408","E1K.VR.Plate.10",5,4,"t",1,1,17.44,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX002412","TP0001111.Plate.10",2,3,"t",1,50,56.89,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002412","TP0001111.Plate.10",3,3,"t",1,50,69.98,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002414","TP0001114.Plate.21",6,6,"t",1,100,79.01,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002414","TP0001114.Plate.21",7,6,"t",1,100,53.36,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002416","TP0001110.Plate.5",2,10,"t",1,100,67.73,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX002416","TP0001110.Plate.5",3,10,"t",1,100,67.85,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX002436","TP0001111.Plate.9",2,6,"t",1,100,50.05,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX002436","TP0001111.Plate.9",3,6,"t",1,100,64.54,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX002449","TP0001060.Plate.10",2,5,"t",1,20,24.6,"TP0001060 Plate 10_CeeTox.csv","cort" +"TX002449","TP0001060.Plate.10",3,5,"t",1,20,23.88,"TP0001060 Plate 10_CeeTox.csv","cort" +"TX002452","TP0001113.Plate.20",4,3,"t",1,100,48.37,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX002452","TP0001113.Plate.20",5,3,"t",1,100,48.36,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX002454","TP0001109.Plate.4",4,7,"t",1,100,60.65,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX002454","TP0001109.Plate.4",5,7,"t",1,100,75.17,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX002460","TP0001111.Plate.10",6,8,"t",1,100,64.34,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002460","TP0001111.Plate.10",7,8,"t",1,100,61.2,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002467","TP0001113.Plate.20",2,9,"t",1,100,56.12,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX002467","TP0001113.Plate.20",3,9,"t",1,100,65.28,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX002472","TP0001060.Plate.11",2,5,"t",1,20,18.78,"TP0001060 Plate 11_CeeTox.csv","cort" +"TX002472","TP0001060.Plate.11",3,5,"t",1,20,21.25,"TP0001060 Plate 11_CeeTox.csv","cort" +"TX002488","phIII.e1k.Plate.13",4,9,"t",1,10,26.78,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX002488","phIII.e1k.Plate.13",5,9,"t",1,10,27.12,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX002496","TP0001055.Plate.6",2,5,"t",1,6.1,20.76,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX002496","TP0001055.Plate.6",3,5,"t",1,6.1,17.15,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX002507","TP0001110.Plate.8",2,8,"t",1,100,75.37,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX002507","TP0001110.Plate.8",3,8,"t",1,100,79.54,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX002517","TP0001110.Plate.6",2,4,"t",1,50,66.46,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX002517","TP0001110.Plate.6",3,4,"t",1,50,64.22,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX002519","TP0001110.Plate.6",2,9,"t",1,100,64.3,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX002519","TP0001110.Plate.6",3,9,"t",1,100,66.87,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX002527","TP0001113.Plate.18",6,7,"t",1,20,60.25,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002527","TP0001113.Plate.18",7,7,"t",1,20,48.52,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002572","TP0001109.Plate.2",4,6,"t",1,100,64.58,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX002572","TP0001109.Plate.2",5,6,"t",1,100,67.54,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX002616","TP0001111.Plate.10",2,10,"t",1,100,63.11,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002616","TP0001111.Plate.10",3,10,"t",1,100,72.6,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002640","TP0001112.Plate.13",6,10,"t",1,50,89.69,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX002640","TP0001112.Plate.13",7,10,"t",1,50,92.23,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX002664","TP0001109.Plate.2",2,5,"t",1,50,58.48,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX002664","TP0001109.Plate.2",3,5,"t",1,50,60.44,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX002666","TP0001113.Plate.19",4,8,"t",1,100,61.77,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX002666","TP0001113.Plate.19",5,8,"t",1,100,66.86,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX002668","TP0001112.Plate.16",4,9,"t",1,100,57.19,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX002668","TP0001112.Plate.16",5,9,"t",1,100,56.63,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX002674","TP0001113.Plate.18",6,8,"t",1,100,94.02,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002674","TP0001113.Plate.18",7,8,"t",1,100,80.05,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002700","TP0001110.Plate.6",6,6,"t",1,50,76.59,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX002700","TP0001110.Plate.6",7,6,"t",1,50,74.15,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX002714","TP0001112.Plate.14",6,4,"t",1,100,76.82,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX002714","TP0001112.Plate.14",7,4,"t",1,100,72.25,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX002740","TP0001114.Plate.22",4,5,"t",1,100,70.17,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX002740","TP0001114.Plate.22",5,5,"t",1,100,74.79,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX002742","E1K.VR.Plate.10",2,7,"t",1,1,16.77,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX002742","E1K.VR.Plate.10",3,7,"t",1,1,16.47,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX002764","E1K.VR.Plate.10",6,7,"t",1,0.2,15.73,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX002764","E1K.VR.Plate.10",7,7,"t",1,0.2,13.12,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX002797","TP0001110.Plate.8",6,6,"t",1,100,69.23,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX002797","TP0001110.Plate.8",7,6,"t",1,100,73.87,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX002798","TP0001061.Plate.14",4,3,"t",1,10.5,26.22,"TP0001061 Plate 14_CeeTox.csv","cort" +"TX002798","TP0001061.Plate.14",5,3,"t",1,10.5,26.62,"TP0001061 Plate 14_CeeTox.csv","cort" +"TX002849","TP0001112.Plate.16",4,4,"t",1,100,56.33,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX002849","TP0001112.Plate.16",5,4,"t",1,100,57.41,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX002851","TP0001112.Plate.16",4,5,"t",1,100,51.46,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX002851","TP0001112.Plate.16",5,5,"t",1,100,58.83,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX002858","TP0001109.Plate.1",6,8,"t",1,100,68.9,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX002858","TP0001109.Plate.1",7,8,"t",1,100,81.4,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX002866","TP0001109.Plate.2",4,7,"t",1,100,63.33,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX002866","TP0001109.Plate.2",5,7,"t",1,100,68.86,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX002890","TP0001109.Plate.4",4,4,"t",1,100,66.88,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX002890","TP0001109.Plate.4",5,4,"t",1,100,61.06,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX002892","TP0001109.Plate.1",6,5,"t",1,100,68.85,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX002892","TP0001109.Plate.1",7,5,"t",1,100,65.37,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX002896","TP0001109.Plate.3",4,5,"t",1,100,70.06,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX002896","TP0001109.Plate.3",5,5,"t",1,100,66.89,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX002902","TP0001109.Plate.1",2,6,"t",1,100,55,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX002902","TP0001109.Plate.1",3,6,"t",1,100,64.15,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX002904","E1K.VR.Plate.11",2,6,"t",1,1,9.22,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX002904","E1K.VR.Plate.11",3,6,"t",1,1,10.76,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX002908","TP0001114.Plate.21",2,10,"t",1,20,59.75,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002908","TP0001114.Plate.21",3,10,"t",1,20,66.72,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002910","TP0001113.Plate.20",6,9,"t",1,100,92.85,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX002910","TP0001113.Plate.20",7,9,"t",1,100,84.96,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX002923","TP0001057.Plate.16",4,6,"t",1,20,34.25,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX002923","TP0001057.Plate.16",5,6,"t",1,20,30.1,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX002934","TP0001113.Plate.19",6,4,"t",1,100,46.77,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX002934","TP0001113.Plate.19",7,4,"t",1,100,47.93,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX002938","TP0001110.Plate.7",4,8,"t",1,100,63.22,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX002938","TP0001110.Plate.7",5,8,"t",1,100,62.12,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX002950","TP0001113.Plate.18",4,7,"t",1,50,63.91,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002950","TP0001113.Plate.18",5,7,"t",1,50,51.16,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX002960","TP0001111.Plate.10",2,6,"t",1,100,55.91,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002960","TP0001111.Plate.10",3,6,"t",1,100,73.31,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX002972","TP0001114.Plate.21",2,9,"t",1,100,56.36,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002972","TP0001114.Plate.21",3,9,"t",1,100,70.98,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX002978","TP0001112.Plate.14",4,7,"t",1,100,60.35,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX002978","TP0001112.Plate.14",5,7,"t",1,100,59.01,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX002988","TP0001113.Plate.17",4,6,"t",1,100,54.44,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX002988","TP0001113.Plate.17",5,6,"t",1,100,57.27,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX002994","TP0001111.Plate.9",2,3,"t",1,100,75.57,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX002994","TP0001111.Plate.9",3,3,"t",1,100,92.3,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX003066","TP0001055.Plate.5",6,7,"t",1,100,26.85,"TP0001055 Plate 5_CeeTox.csv","cort" +"TX003066","TP0001055.Plate.5",7,7,"t",1,100,29.12,"TP0001055 Plate 5_CeeTox.csv","cort" +"TX003076","TP0001110.Plate.5",6,10,"t",1,50,46.73,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003076","TP0001110.Plate.5",7,10,"t",1,50,52.29,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003085","TP0001059.Plate.8",6,5,"t",1,20,18.19,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX003085","TP0001059.Plate.8",7,5,"t",1,20,24.78,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX003128","E1K.VR.Plate.9",6,7,"t",1,10,14.6,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX003128","E1K.VR.Plate.9",7,7,"t",1,10,16.16,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX003134","E1K.VR.Plate.9",4,10,"t",1,10,14.95,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX003134","E1K.VR.Plate.9",5,10,"t",1,10,19.16,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX003151","phIII.e1k.Plate.14",4,7,"t",1,20,23.68,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX003151","phIII.e1k.Plate.14",5,7,"t",1,20,22.85,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX003154","TP0001110.Plate.8",4,6,"t",1,100,120.71,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003154","TP0001110.Plate.8",5,6,"t",1,100,128.16,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003156","TP0001109.Plate.4",6,3,"t",1,100,63.65,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003156","TP0001109.Plate.4",7,3,"t",1,100,62.45,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003158","TP0001109.Plate.2",2,8,"t",1,50,66.86,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003158","TP0001109.Plate.2",3,8,"t",1,50,70.34,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003160","TP0001109.Plate.2",4,3,"t",1,50,33.53,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003160","TP0001109.Plate.2",5,3,"t",1,50,37.92,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003164","TP0001112.Plate.15",2,3,"t",1,100,37.37,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX003164","TP0001112.Plate.15",3,3,"t",1,100,55.56,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX003168","TP0001111.Plate.9",6,4,"t",1,100,56.06,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX003168","TP0001111.Plate.9",7,4,"t",1,100,61.49,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX003170","TP0001112.Plate.16",4,3,"t",1,100,73.19,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX003170","TP0001112.Plate.16",5,3,"t",1,100,76.46,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX003177","TP0001109.Plate.2",2,3,"t",1,100,59.42,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003177","TP0001109.Plate.2",3,3,"t",1,100,68.52,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003184","TP0001109.Plate.2",2,10,"t",1,100,68.72,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003184","TP0001109.Plate.2",3,10,"t",1,100,69.6,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003188","TP0001113.Plate.18",2,6,"t",1,50,49.43,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX003188","TP0001113.Plate.18",3,6,"t",1,50,62.33,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX003190","TP0001110.Plate.8",6,8,"t",1,100,79.37,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003190","TP0001110.Plate.8",7,8,"t",1,100,73.77,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003196","TP0001113.Plate.19",4,5,"t",1,100,66.05,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX003196","TP0001113.Plate.19",5,5,"t",1,100,66.98,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX003204","TP0001112.Plate.15",4,8,"t",1,100,62.07,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX003204","TP0001112.Plate.15",5,8,"t",1,100,72.95,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX003208","TP0001110.Plate.7",2,7,"t",1,100,51.05,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX003208","TP0001110.Plate.7",3,7,"t",1,100,67.75,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX003214","TP0001110.Plate.5",2,6,"t",1,100,55.1,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003214","TP0001110.Plate.5",3,6,"t",1,100,56,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003216","TP0001110.Plate.8",2,3,"t",1,50,61.38,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003216","TP0001110.Plate.8",3,3,"t",1,50,64.48,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003232","TP0001109.Plate.4",2,8,"t",1,100,69.32,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003232","TP0001109.Plate.4",3,8,"t",1,100,81.38,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003236","TP0001114.Plate.21",4,8,"t",1,100,59.95,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX003236","TP0001114.Plate.21",5,8,"t",1,100,63.83,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX003238","E1K.VR.Plate.11",4,9,"t",1,10,19.58,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX003238","E1K.VR.Plate.11",5,9,"t",1,10,12.9,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX003240","TP0001110.Plate.8",2,9,"t",1,100,114.34,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003240","TP0001110.Plate.8",3,9,"t",1,100,109.58,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003253","phIII.e1k.Plate.4",6,4,"t",1,24.6,19.93,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX003253","phIII.e1k.Plate.4",7,4,"t",1,24.6,20.34,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX003266","TP0001112.Plate.14",4,8,"t",1,100,35.56,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX003266","TP0001112.Plate.14",5,8,"t",1,100,33.43,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX003276","TP0001109.Plate.4",6,7,"t",1,100,73.05,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003276","TP0001109.Plate.4",7,7,"t",1,100,76.86,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003280","TP0001112.Plate.15",6,8,"t",1,100,62.68,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX003280","TP0001112.Plate.15",7,8,"t",1,100,60.56,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX003282","TP0001111.Plate.11",6,7,"t",1,100,55.82,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX003282","TP0001111.Plate.11",7,7,"t",1,100,56.05,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX003292","TP0001113.Plate.20",4,10,"t",1,100,48.83,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX003292","TP0001113.Plate.20",5,10,"t",1,100,52.41,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX003294","TP0001109.Plate.2",4,10,"t",1,100,77.37,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003294","TP0001109.Plate.2",5,10,"t",1,100,75.6,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003320","PhaseIIe1k.VR.Plate.3",6,9,"t",1,10,51.82,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"TX003320","PhaseIIe1k.VR.Plate.3",7,9,"t",1,10,51.48,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"TX003326","TP0001114.Plate.23",2,4,"t",1,50,60.74,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX003326","TP0001114.Plate.23",3,4,"t",1,50,60.28,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX003338","E1K.VR.Plate.11",2,4,"t",1,1,14.85,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX003338","E1K.VR.Plate.11",3,4,"t",1,1,16.05,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX003350","TP0001112.Plate.15",4,10,"t",1,100,23.83,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX003350","TP0001112.Plate.15",5,10,"t",1,100,21.01,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX003370","TP0001113.Plate.17",2,4,"t",1,100,46.1,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX003370","TP0001113.Plate.17",3,4,"t",1,100,41.28,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX003374","TP0001114.Plate.21",2,7,"t",1,100,59.87,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX003374","TP0001114.Plate.21",3,7,"t",1,100,64.21,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX003383","TP0001054.Plate.7",4,3,"t",1,20,22.85,"TP0001055 Plate 7_CeeTox.csv","cort" +"TX003383","TP0001054.Plate.7",5,3,"t",1,20,30.22,"TP0001055 Plate 7_CeeTox.csv","cort" +"TX003404","TP0001110.Plate.7",4,5,"t",1,100,61.57,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX003404","TP0001110.Plate.7",5,5,"t",1,100,66.08,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX003426","TP0001114.Plate.21",4,3,"t",1,100,56.32,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX003426","TP0001114.Plate.21",5,3,"t",1,100,63.59,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX003432","TP0001112.Plate.14",2,3,"t",1,100,69.4,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX003432","TP0001112.Plate.14",3,3,"t",1,100,64.25,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX003436","TP0001112.Plate.13",2,8,"t",1,100,62.74,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX003436","TP0001112.Plate.13",3,8,"t",1,100,65.53,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX003449","phIII.e1k.VR.Plate.3",4,6,"t",1,2,54.18,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX003449","phIII.e1k.VR.Plate.3",5,6,"t",1,2,60.02,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX003458","TP0001111.Plate.10",6,6,"t",1,20,62.67,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX003458","TP0001111.Plate.10",7,6,"t",1,20,70.58,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX003472","TP0001112.Plate.14",6,9,"t",1,50,55.26,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX003472","TP0001112.Plate.14",7,9,"t",1,50,51.4,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX003506","TP0001109.Plate.1",6,9,"t",1,92.13,64.59,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX003506","TP0001109.Plate.1",7,9,"t",1,92.13,66.75,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX003522","TP0001109.Plate.4",6,5,"t",1,100,61.24,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003522","TP0001109.Plate.4",7,5,"t",1,100,53.99,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003547","TP0001113.Plate.20",6,4,"t",1,100,73.57,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX003547","TP0001113.Plate.20",7,4,"t",1,100,65.05,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX003572","TP0001111.Plate.12",4,9,"t",1,20,0.86,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX003572","TP0001111.Plate.12",5,9,"t",1,20,0.99,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX003721","TP0000883.Plate.4",6,7,"t",1,100,12.09574040424,"TP0000883 Plate 4A.xlsx","cort" +"TX003721","TP0000883.Plate.4",7,7,"t",1,100,13.9106520138602,"TP0000883 Plate 4A.xlsx","cort" +"TX003751","phIII.e1k.Plate.4",4,3,"t",1,20,19.39,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX003751","phIII.e1k.Plate.4",5,3,"t",1,20,16.77,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX003824","TP0001057.Plate.14",4,3,"t",1,10,30.1,"TP0001057 Plate 14_CeeTox.csv","cort" +"TX003824","TP0001057.Plate.14",5,3,"t",1,10,31.42,"TP0001057 Plate 14_CeeTox.csv","cort" +"TX003846","TP0001057.Plate.13",4,7,"t",1,20,25.97,"TP0001057 Plate 13_CeeTox.csv","cort" +"TX003846","TP0001057.Plate.13",5,7,"t",1,20,27.53,"TP0001057 Plate 13_CeeTox.csv","cort" +"TX003863","TP0001109.Plate.2",4,4,"t",1,100,64.24,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003863","TP0001109.Plate.2",5,4,"t",1,100,68.95,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX003871","TP0001109.Plate.4",6,6,"t",1,50,23.76,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003871","TP0001109.Plate.4",7,6,"t",1,50,25.68,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003873","TP0001111.Plate.9",2,4,"t",1,100,64.72,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX003873","TP0001111.Plate.9",3,4,"t",1,100,73.4,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX003879","TP0001110.Plate.8",4,9,"t",1,50,43.73,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003879","TP0001110.Plate.8",5,9,"t",1,50,41.84,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX003887","TP0001110.Plate.5",4,3,"t",1,100,55.75,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003887","TP0001110.Plate.5",5,3,"t",1,100,62.01,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003893","E1K.VR.Plate.10",6,9,"t",1,1,10.09,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX003893","E1K.VR.Plate.10",7,9,"t",1,1,9.03,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX003896","TP0001061.Plate.14",2,6,"t",1,20,21.66,"TP0001061 Plate 14_CeeTox.csv","cort" +"TX003896","TP0001061.Plate.14",3,6,"t",1,20,21.93,"TP0001061 Plate 14_CeeTox.csv","cort" +"TX003909","TP0001114.Plate.22",4,8,"t",1,20,60.74,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX003909","TP0001114.Plate.22",5,8,"t",1,20,65.08,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX003911","E1K.VR.Plate.9",4,6,"t",1,10,12.86,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX003911","E1K.VR.Plate.9",5,6,"t",1,10,12.93,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX003913","TP0001110.Plate.5",6,3,"t",1,100,60.16,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003913","TP0001110.Plate.5",7,3,"t",1,100,56.2,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003917","TP0001114.Plate.22",4,4,"t",1,100,64.05,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX003917","TP0001114.Plate.22",5,4,"t",1,100,65.83,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX003949","TP0001109.Plate.1",2,4,"t",1,100,63.22,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX003949","TP0001109.Plate.1",3,4,"t",1,100,66.99,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX003951","E1K.VR.Plate.9",2,4,"t",1,10,16.83,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX003951","E1K.VR.Plate.9",3,4,"t",1,10,14.63,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX003957","TP0001113.Plate.19",2,4,"t",1,100,63.71,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX003957","TP0001113.Plate.19",3,4,"t",1,100,67.89,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX003961","TP0001110.Plate.5",4,5,"t",1,100,62.36,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003961","TP0001110.Plate.5",5,5,"t",1,100,59.86,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX003964","TP0001062.Plate.17",2,10,"t",1,15.1,25.24,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX003964","TP0001062.Plate.17",3,10,"t",1,15.1,34.2,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX003967","TP0001109.Plate.4",4,8,"t",1,50,47.57,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003967","TP0001109.Plate.4",5,8,"t",1,50,53.63,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX003969","TP0001112.Plate.13",6,9,"t",1,100,74.57,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX003969","TP0001112.Plate.13",7,9,"t",1,100,74.83,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX003980","TP0001057.Plate.14",6,5,"t",1,19.9,31.25,"TP0001057 Plate 14_CeeTox.csv","cort" +"TX003980","TP0001057.Plate.14",7,5,"t",1,19.9,23.89,"TP0001057 Plate 14_CeeTox.csv","cort" +"TX004022","phIII.e1k.Plate.14",4,9,"t",1,41.6,17.22,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX004022","phIII.e1k.Plate.14",5,9,"t",1,41.6,16.37,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX004047","TP0001110.Plate.6",2,10,"t",1,100,64.16,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX004047","TP0001110.Plate.6",3,10,"t",1,100,58.82,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX004059","TP0001113.Plate.20",6,10,"t",1,100,48.87,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX004059","TP0001113.Plate.20",7,10,"t",1,100,53.52,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX004067","TP0001112.Plate.16",2,4,"t",1,100,51.85,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX004067","TP0001112.Plate.16",3,4,"t",1,100,58.64,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX004086","phIII.e1k.Plate.4",4,8,"t",1,20,20.16,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX004086","phIII.e1k.Plate.4",5,8,"t",1,20,16.72,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX004105","E1K.VR.Plate.9",2,8,"t",1,10,16.05,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX004105","E1K.VR.Plate.9",3,8,"t",1,10,17.7,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX004193","TP0001109.Plate.2",2,6,"t",1,100,71.58,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX004193","TP0001109.Plate.2",3,6,"t",1,100,71.33,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX004197","TP0001109.Plate.1",6,6,"t",1,50,55.36,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX004197","TP0001109.Plate.1",7,6,"t",1,50,64.38,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX004206","phIII.e1k.Plate.14",6,9,"t",1,20,11.16,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX004206","phIII.e1k.Plate.14",7,9,"t",1,20,9.27,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX004209","TP0001113.Plate.17",4,9,"t",1,100,32.18,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX004209","TP0001113.Plate.17",5,9,"t",1,100,56.45,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX004217","TP0001114.Plate.24",2,10,"t",1,100,71.87,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX004217","TP0001114.Plate.24",3,10,"t",1,100,76.9,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX004227","TP0001113.Plate.19",4,3,"t",1,100,48.14,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX004227","TP0001113.Plate.19",5,3,"t",1,100,49.11,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX004228","phIII.e1k.VR.Plate.1",6,5,"t",1,0.1,98.39,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX004228","phIII.e1k.VR.Plate.1",7,5,"t",1,0.1,48.72,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX004259","TP0001111.Plate.11",4,6,"t",1,100,66.8,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX004259","TP0001111.Plate.11",5,6,"t",1,100,73.55,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX004297","TP0001056.Plate.11",4,8,"t",1,100,32.09,"TP0001056 Plate 11_CeeTox.csv","cort" +"TX004297","TP0001056.Plate.11",5,8,"t",1,100,33.93,"TP0001056 Plate 11_CeeTox.csv","cort" +"TX004301","TP0001110.Plate.7",2,9,"t",1,100,54.23,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX004301","TP0001110.Plate.7",3,9,"t",1,100,66.19,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX004310","phIII.e1k.Plate.5",2,7,"t",1,20,28.14,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"TX004310","phIII.e1k.Plate.5",3,7,"t",1,20,30.41,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"TX004330","TP0001112.Plate.16",6,6,"t",1,100,58.87,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX004330","TP0001112.Plate.16",7,6,"t",1,100,56.17,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX004334","TP0001114.Plate.22",4,6,"t",1,50,52.69,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX004334","TP0001114.Plate.22",5,6,"t",1,50,57.98,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX004356","TP0001110.Plate.6",4,7,"t",1,50,69.75,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX004356","TP0001110.Plate.6",5,7,"t",1,50,63.97,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX004358","TP0001114.Plate.24",2,9,"t",1,100,44.9,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX004358","TP0001114.Plate.24",3,9,"t",1,100,45.55,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX004362","TP0001109.Plate.2",6,9,"t",1,100,59.83,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX004362","TP0001109.Plate.2",7,9,"t",1,100,65.23,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX004364","PhaseIIe1k.VR.Plate.4",4,5,"t",1,0.5,50.09,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX004364","PhaseIIe1k.VR.Plate.4",5,5,"t",1,0.5,47.35,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX004370","TP0001112.Plate.14",4,4,"t",1,50,73.21,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX004370","TP0001112.Plate.14",5,4,"t",1,50,74.38,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX004380","TP0001113.Plate.20",2,3,"t",1,41.74,56.93,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX004380","TP0001113.Plate.20",3,3,"t",1,41.74,63.54,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX004392","E1K.VR.Plate.11",2,10,"t",1,1,18.26,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX004392","E1K.VR.Plate.11",3,10,"t",1,1,18.01,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX004396","TP0001109.Plate.4",2,7,"t",1,50,63.14,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX004396","TP0001109.Plate.4",3,7,"t",1,50,69.64,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX004402","TP0001114.Plate.23",6,3,"t",1,100,60.01,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX004402","TP0001114.Plate.23",7,3,"t",0,100,NA,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX004404","TP0001109.Plate.2",2,9,"t",1,100,52.4,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX004404","TP0001109.Plate.2",3,9,"t",1,100,59.39,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX004416","TP0001109.Plate.2",4,8,"t",1,100,64.72,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX004416","TP0001109.Plate.2",5,8,"t",1,100,66.79,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX004428","TP0001112.Plate.13",2,9,"t",1,100,44.74,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX004428","TP0001112.Plate.13",3,9,"t",1,100,45.46,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX004438","E1K.VR.Plate.10",2,3,"t",1,1,16.15,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX004438","E1K.VR.Plate.10",3,3,"t",1,1,12.77,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX004451","phIII.e1k.Plate.4",4,9,"t",1,20,23.5,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX004451","phIII.e1k.Plate.4",5,9,"t",1,20,19.07,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX004466","TP0001111.Plate.11",6,6,"t",1,100,62.26,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX004466","TP0001111.Plate.11",7,6,"t",1,100,72.06,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX004479","TP0001114.Plate.21",6,7,"t",1,100,60.38,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX004479","TP0001114.Plate.21",7,7,"t",1,100,61.23,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX004481","TP0001114.Plate.22",2,6,"t",1,100,57.03,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX004481","TP0001114.Plate.22",3,6,"t",1,100,53.1,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX004485","TP0001111.Plate.10",4,8,"t",1,100,23.81,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX004485","TP0001111.Plate.10",5,8,"t",1,100,26.72,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX004507","TP0001113.Plate.20",6,8,"t",1,100,69.28,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX004507","TP0001113.Plate.20",7,8,"t",1,100,71.41,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX004511","TP0001112.Plate.13",2,5,"t",1,100,40.59,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX004511","TP0001112.Plate.13",3,5,"t",1,100,40.12,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX004513","TP0001112.Plate.14",4,10,"t",1,100,12.31,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX004513","TP0001112.Plate.14",5,10,"t",1,100,11.82,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX004516","phIII.e1k.Plate.4",2,4,"t",1,20,7.05,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX004516","phIII.e1k.Plate.4",3,4,"t",1,20,6.66,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX004525","TP0001112.Plate.13",2,10,"t",1,20,17.63,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX004525","TP0001112.Plate.13",3,10,"t",1,20,18.19,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX004539","PhaseIIe1k.VR.Plate.2",4,3,"t",1,10,0.69,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"TX004539","PhaseIIe1k.VR.Plate.2",5,3,"t",1,10,0.66,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"TX004541","TP0001111.Plate.12",2,9,"t",1,100,27.12,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX004541","TP0001111.Plate.12",3,9,"t",1,100,37.31,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX004545","TP0001110.Plate.5",4,10,"t",1,100,25.37,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX004545","TP0001110.Plate.5",5,10,"t",1,100,25.9,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX004547","TP0001112.Plate.15",6,5,"t",1,100,18.75,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX004547","TP0001112.Plate.15",7,5,"t",1,100,19.09,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX004563","TP0001113.Plate.20",4,6,"t",1,20,59.3,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX004563","TP0001113.Plate.20",5,6,"t",1,20,62.42,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX004572","PhaseII.VR.Plate.5",6,6,"t",1,0.15,16.18,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"TX004572","PhaseII.VR.Plate.5",7,6,"t",1,0.15,13.69,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"TX004579","TP0001109.Plate.4",2,3,"t",1,100,63.1,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX004579","TP0001109.Plate.4",3,3,"t",1,100,53.51,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX004611","TP0001110.Plate.6",2,6,"t",1,100,58.95,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX004611","TP0001110.Plate.6",3,6,"t",1,100,72.49,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX004615","TP0001111.Plate.11",4,5,"t",1,100,69.08,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX004615","TP0001111.Plate.11",5,5,"t",1,100,69.17,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX004631","TP0001111.Plate.10",4,4,"t",1,100,42.6,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX004631","TP0001111.Plate.10",5,4,"t",1,100,42.56,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX004639","TP0001110.Plate.8",4,10,"t",1,100,78.73,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX004639","TP0001110.Plate.8",5,10,"t",1,100,84.36,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX004809","TP0001113.Plate.18",2,7,"t",1,100,103,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX004809","TP0001113.Plate.18",3,7,"t",1,100,126.99,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX004833","TP0001111.Plate.12",2,7,"t",1,100,56.96,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX004833","TP0001111.Plate.12",3,7,"t",1,100,64.77,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX004883","TP0001113.Plate.17",6,5,"t",1,100,53.18,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX004883","TP0001113.Plate.17",7,5,"t",1,100,48.64,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX004891","E1K.VR.Plate.10",2,8,"t",1,1,15.18,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX004891","E1K.VR.Plate.10",3,8,"t",1,1,15.12,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX004903","TP0001112.Plate.14",4,5,"t",1,100,75.58,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX004903","TP0001112.Plate.14",5,5,"t",1,100,75.3,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX004907","TP0001109.Plate.3",2,9,"t",1,100,54.82,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX004907","TP0001109.Plate.3",3,9,"t",1,100,64.5,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX004943","TP0001111.Plate.10",4,10,"t",1,50,67.57,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX004943","TP0001111.Plate.10",5,10,"t",1,50,76.8,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX004947","E1K.VR.Plate.10",6,8,"t",1,1,19.4,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX004947","E1K.VR.Plate.10",7,8,"t",1,1,17.76,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX004950","TP0001110.Plate.7",4,10,"t",1,91.03,79.27,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX004950","TP0001110.Plate.7",5,10,"t",1,91.03,71.94,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX004955","TP0001113.Plate.18",2,3,"t",1,50,38.84,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX004955","TP0001113.Plate.18",3,3,"t",1,50,41.64,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX004973","TP0001114.Plate.21",6,5,"t",1,100,43.45,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX004973","TP0001114.Plate.21",7,5,"t",1,100,34.08,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX005018","phIII.e1k.VR.Plate.3",4,8,"t",1,2,63.66,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX005018","phIII.e1k.VR.Plate.3",5,8,"t",1,2,65.89,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX005053","TP0001109.Plate.4",2,4,"t",1,100,58.62,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX005053","TP0001109.Plate.4",3,4,"t",1,100,65.06,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX005055","TP0001111.Plate.9",4,7,"t",1,100,71.53,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX005055","TP0001111.Plate.9",5,7,"t",1,100,74.22,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX005069","E1K.VR.Plate.10",2,10,"t",1,1,21.88,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX005069","E1K.VR.Plate.10",3,10,"t",1,1,19.01,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX005115","TP0001112.Plate.14",4,6,"t",1,100,60.61,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX005115","TP0001112.Plate.14",5,6,"t",1,100,64.77,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX005122","TP0001062.Plate.17",6,9,"t",1,100,30.06,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX005122","TP0001062.Plate.17",7,9,"t",1,100,33.39,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX005144","TP0001059.Plate.7",2,3,"t",1,100,30.89,"TP0001059 Plate 7_CeeTox.csv","cort" +"TX005144","TP0001059.Plate.7",3,3,"t",1,100,27.97,"TP0001059 Plate 7_CeeTox.csv","cort" +"TX005147","TP0001114.Plate.21",6,8,"t",1,100,64.83,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX005147","TP0001114.Plate.21",7,8,"t",1,100,65.82,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX005170","TP0001110.Plate.6",6,8,"t",1,100,66.29,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX005170","TP0001110.Plate.6",7,8,"t",1,100,70.32,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX005224","TP0001111.Plate.12",2,3,"t",1,100,58.7,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX005224","TP0001111.Plate.12",3,3,"t",1,100,64.86,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX005228","TP0001111.Plate.9",4,9,"t",1,100,28.57,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX005228","TP0001111.Plate.9",5,9,"t",1,100,30.7,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX005248","TP0001056.Plate.9",2,5,"t",1,100,20.87,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX005248","TP0001056.Plate.9",3,5,"t",1,100,19.77,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX005251","TP0001112.Plate.13",4,4,"t",1,100,67.31,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX005251","TP0001112.Plate.13",5,4,"t",1,100,67.16,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX005252","TP0001058.Plate.3",6,9,"t",1,100,21.07,"TP0001058 Plate 3_CeeTox.csv","cort" +"TX005252","TP0001058.Plate.3",7,9,"t",1,100,21.16,"TP0001058 Plate 3_CeeTox.csv","cort" +"TX005257","TP0001111.Plate.12",6,8,"t",1,100,64.22,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX005257","TP0001111.Plate.12",7,8,"t",1,100,63.84,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX005263","TP0001110.Plate.7",6,8,"t",1,100,65.17,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX005263","TP0001110.Plate.7",7,8,"t",1,100,58.02,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX005327","TP0001110.Plate.5",2,8,"t",1,100,66.31,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005327","TP0001110.Plate.5",3,8,"t",1,100,61.05,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005338","phIII.e1k.VR.Plate.1",2,4,"t",1,1.62,46.76,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX005338","phIII.e1k.VR.Plate.1",3,4,"t",1,1.62,48.55,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX005400","phIII.e1k.VR.Plate.1",4,9,"t",1,2,32.51,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX005400","phIII.e1k.VR.Plate.1",5,9,"t",1,2,34.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX005405","E1K.VR.Plate.9",4,7,"t",1,10,13.62,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX005405","E1K.VR.Plate.9",5,7,"t",1,10,19.49,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX005406","TP0001054.Plate.2",2,5,"t",1,20,22.15,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX005406","TP0001054.Plate.2",3,5,"t",1,20,23.49,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX005417","TP0001109.Plate.2",4,9,"t",1,100,68.29,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX005417","TP0001109.Plate.2",5,9,"t",1,100,62.68,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX005423","E1K.VR.Plate.9",2,9,"t",1,10,13.5,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX005423","E1K.VR.Plate.9",3,9,"t",1,10,12.76,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX005457","TP0001111.Plate.9",2,8,"t",1,100,57.81,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX005457","TP0001111.Plate.9",3,8,"t",1,100,68.36,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX005465","TP0001113.Plate.17",2,9,"t",1,100,43.51,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX005465","TP0001113.Plate.17",3,9,"t",1,100,57.5,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX005469","PhaseIIe1k.VR.Plate.4",2,3,"t",1,10,57.31,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX005469","PhaseIIe1k.VR.Plate.4",3,3,"t",1,10,57.28,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX005471","TP0001114.Plate.22",6,5,"t",1,94.41,61.77,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX005471","TP0001114.Plate.22",7,5,"t",1,94.41,66.48,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX005479","TP0001110.Plate.5",2,7,"t",1,100,73.19,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005479","TP0001110.Plate.5",3,7,"t",1,100,66.54,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005481","TP0001113.Plate.20",2,7,"t",1,100,56.43,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX005481","TP0001113.Plate.20",3,7,"t",1,100,67.91,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX005483","TP0001110.Plate.6",2,7,"t",1,100,69.16,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX005483","TP0001110.Plate.6",3,7,"t",1,100,62.32,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX005491","E1K.VR.Plate.11",2,7,"t",1,1,15.44,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX005491","E1K.VR.Plate.11",3,7,"t",1,1,17.63,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX005501","TP0001109.Plate.1",4,6,"t",1,100,63.84,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX005501","TP0001109.Plate.1",5,6,"t",1,100,69.61,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX005516","TP0001110.Plate.8",6,3,"t",1,100,67.91,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX005516","TP0001110.Plate.8",7,3,"t",1,100,75.16,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX005519","TP0001111.Plate.11",4,9,"t",1,100,64.52,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX005519","TP0001111.Plate.11",5,9,"t",1,100,62.62,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX005531","TP0001110.Plate.5",2,9,"t",1,100,57.65,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005531","TP0001110.Plate.5",3,9,"t",1,100,54.89,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005537","TP0001110.Plate.7",4,7,"t",1,20,65.72,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX005537","TP0001110.Plate.7",5,7,"t",1,20,64.99,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX005560","TP0001109.Plate.3",6,4,"t",1,50,63.5,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX005560","TP0001109.Plate.3",7,4,"t",1,50,58.63,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX005562","TP0001110.Plate.6",4,6,"t",1,100,64.35,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX005562","TP0001110.Plate.6",5,6,"t",1,100,55.29,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX005566","E1K.VR.Plate.9",6,8,"t",1,10,12.01,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX005566","E1K.VR.Plate.9",7,8,"t",1,10,14.07,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX005668","TP0001112.Plate.15",6,4,"t",1,100,70.42,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX005668","TP0001112.Plate.15",7,4,"t",1,100,68.26,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX005680","TP0001113.Plate.18",2,8,"t",1,100,49.38,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX005680","TP0001113.Plate.18",3,8,"t",1,100,61.57,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX005729","TP0001113.Plate.20",4,8,"t",1,100,58.7,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX005729","TP0001113.Plate.20",5,8,"t",1,100,60.6,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX005743","TP0001113.Plate.19",6,3,"t",1,100,58.47,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX005743","TP0001113.Plate.19",7,3,"t",1,100,67.59,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX005749","TP0001114.Plate.22",4,7,"t",1,100,48.01,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX005749","TP0001114.Plate.22",5,7,"t",1,100,53.63,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX005751","TP0001054.Plate.2",4,4,"t",1,8.8,22.62,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX005751","TP0001054.Plate.2",5,4,"t",1,8.8,25.02,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX005758","PhaseII.VR.Plate.4",4,6,"t",1,10,10.16,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"TX005758","PhaseII.VR.Plate.4",5,6,"t",1,10,11.26,"2900-TO3 Phase II VR Plate 4_Ceetox.csv","cort" +"TX005767","TP0001113.Plate.17",4,4,"t",1,100,2.92,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX005767","TP0001113.Plate.17",5,4,"t",1,100,2.96,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX005779","TP0001110.Plate.5",4,8,"t",1,100,74.87,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005779","TP0001110.Plate.5",5,8,"t",1,100,70.98,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005790","TP0001109.Plate.3",2,10,"t",1,50,50.91,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX005790","TP0001109.Plate.3",3,10,"t",1,50,59.1,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX005795","TP0001112.Plate.14",2,10,"t",1,100,52.25,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX005795","TP0001112.Plate.14",3,10,"t",1,100,51.26,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX005797","TP0001110.Plate.5",6,6,"t",1,100,76.37,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005797","TP0001110.Plate.5",7,6,"t",1,100,79.36,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005815","TP0001114.Plate.23",2,10,"t",1,100,67.47,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX005815","TP0001114.Plate.23",3,10,"t",1,100,68.08,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX005817","TP0001110.Plate.5",6,4,"t",1,20,65.97,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005817","TP0001110.Plate.5",7,4,"t",1,20,66.18,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005828","TP0001111.Plate.11",4,4,"t",1,100,70.25,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX005828","TP0001111.Plate.11",5,4,"t",1,100,69.38,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX005850","TP0001112.Plate.15",4,7,"t",1,50,71.11,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX005850","TP0001112.Plate.15",5,7,"t",1,50,70.99,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX005887","phIII.e1k.Plate.13",4,10,"t",1,5,25.08,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX005887","phIII.e1k.Plate.13",5,10,"t",1,5,24.38,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX005921","TP0001110.Plate.5",2,3,"t",1,20,65.78,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005921","TP0001110.Plate.5",3,3,"t",1,20,63.68,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX005927","TP0001113.Plate.18",4,6,"t",1,100,58.31,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX005927","TP0001113.Plate.18",5,6,"t",1,100,62.3,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX005945","TP0001062.Plate.17",4,9,"t",1,100,27.17,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX005945","TP0001062.Plate.17",5,9,"t",1,100,25.12,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX005947","TP0001111.Plate.11",4,7,"t",1,50,68.32,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX005947","TP0001111.Plate.11",5,7,"t",1,50,65.93,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX005971","TP0001110.Plate.6",4,3,"t",1,50,63.65,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX005971","TP0001110.Plate.6",5,3,"t",1,50,63.33,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX005975","PhaseIIe1k.VR.Plate.4",2,5,"t",1,1,55.65,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX005975","PhaseIIe1k.VR.Plate.4",3,5,"t",1,1,46.78,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX005983","TP0001109.Plate.1",4,9,"t",1,100,71.4,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX005983","TP0001109.Plate.1",5,9,"t",1,100,66.57,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX006035","TP0001111.Plate.10",6,3,"t",1,100,65.44,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX006035","TP0001111.Plate.10",7,3,"t",1,100,65.89,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX006045","TP0001109.Plate.3",6,7,"t",1,100,91.4,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX006045","TP0001109.Plate.3",7,7,"t",1,100,90.78,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX006050","phIII.e1k.Plate.13",2,3,"t",1,10,29.2,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX006050","phIII.e1k.Plate.13",3,3,"t",1,10,23.24,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX006056","phIII.e1k.Plate.4",2,9,"t",1,20,15.97,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX006056","phIII.e1k.Plate.4",3,9,"t",1,20,16.8,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX006091","TP0001114.Plate.23",2,3,"t",1,100,58.53,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX006091","TP0001114.Plate.23",3,3,"t",1,100,65.95,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX006093","TP0001110.Plate.6",6,3,"t",1,20,67.23,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX006093","TP0001110.Plate.6",7,3,"t",1,20,64.78,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX006101","TP0001109.Plate.4",2,10,"t",1,50,68.64,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX006101","TP0001109.Plate.4",3,10,"t",1,50,70.08,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX006105","TP0001114.Plate.21",2,4,"t",1,100,57.41,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX006105","TP0001114.Plate.21",3,4,"t",1,100,64.6,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX006121","TP0001113.Plate.19",4,6,"t",1,20,67.61,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX006121","TP0001113.Plate.19",5,6,"t",1,20,70.19,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX006129","TP0001109.Plate.3",4,4,"t",1,100,66.96,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX006129","TP0001109.Plate.3",5,4,"t",1,100,64.49,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX006139","E1K.VR.Plate.9",4,3,"t",1,10,12.98,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX006139","E1K.VR.Plate.9",5,3,"t",1,10,14.11,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX006143","PhaseII.VR.Plate.2",6,8,"t",1,2,19.05,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX006143","PhaseII.VR.Plate.2",7,8,"t",1,2,19.63,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX006145","TP0001061.Plate.13",4,3,"t",1,20,24.59,"TP0001061 Plate 13_CeeTox.csv","cort" +"TX006145","TP0001061.Plate.13",5,3,"t",1,20,28.74,"TP0001061 Plate 13_CeeTox.csv","cort" +"TX006146","TP0001058.Plate.1",4,4,"t",1,20,18.53,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX006146","TP0001058.Plate.1",5,4,"t",1,20,16.72,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX006147","TP0001054.Plate.4",4,3,"t",1,20,23.58,"TP0001054 Plate 4_CeeTox.csv","cort" +"TX006147","TP0001054.Plate.4",5,3,"t",1,20,20.4,"TP0001054 Plate 4_CeeTox.csv","cort" +"TX006153","TP0001055.Plate.6",6,7,"t",1,10,15.86,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX006153","TP0001055.Plate.6",7,7,"t",1,10,17.66,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX006155","TP0001057.Plate.16",6,6,"t",1,20,26.05,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX006155","TP0001057.Plate.16",7,6,"t",1,20,25.48,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX006157","TP0001055.Plate.6",4,4,"t",1,10,33.06,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX006157","TP0001055.Plate.6",5,4,"t",1,10,28.41,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX006160","TP0001054.Plate.1",4,6,"t",1,10,21.71,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX006160","TP0001054.Plate.1",5,6,"t",1,10,20.46,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX006163","PhaseII.VR.Plate.1",6,7,"t",1,2,7.84,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"TX006163","PhaseII.VR.Plate.1",7,7,"t",1,2,8.85,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"TX006174","TP0001054.Plate.2",6,6,"t",1,20,30.74,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX006174","TP0001054.Plate.2",7,6,"t",1,20,27.67,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX006177","TP0001061.Plate.16",6,10,"t",1,20,23.89,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX006177","TP0001061.Plate.16",7,10,"t",1,20,22.78,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX006179","PhaseII.VR.Plate.2",2,3,"t",1,2,12.02,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX006179","PhaseII.VR.Plate.2",3,3,"t",1,2,10.82,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX006180","TP0001058.Plate.1",4,3,"t",1,20,24.76,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX006180","TP0001058.Plate.1",5,3,"t",1,20,24.32,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX006183","TP0001061.Plate.16",4,8,"t",1,20,21.47,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX006183","TP0001061.Plate.16",5,8,"t",1,20,24.48,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX006194","TP0001056.Plate.12",4,4,"t",1,20,23.19,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX006194","TP0001056.Plate.12",5,4,"t",1,20,29.61,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX006198","TP0001058.Plate.4",2,10,"t",1,20,22.39,"TP0001058 Plate 4_CeeTox.csv","cort" +"TX006198","TP0001058.Plate.4",3,10,"t",1,20,17.36,"TP0001058 Plate 4_CeeTox.csv","cort" +"TX006199","TP0001060.Plate.9",6,9,"t",1,20,19.85,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX006199","TP0001060.Plate.9",7,9,"t",1,20,23.12,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX006200","PhaseII.VR.Plate.8",2,6,"t",1,0.19,12.65,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"TX006200","PhaseII.VR.Plate.8",3,6,"t",1,0.19,11.62,"2900-TO3 Phase II VR Plate 8_Ceetox.csv","cort" +"TX006201","TP0001059.Plate.6",2,7,"t",1,19.5,18.99,"TP0001059 Plate 6_CeeTox.csv","cort" +"TX006201","TP0001059.Plate.6",3,7,"t",1,19.5,24.49,"TP0001059 Plate 6_CeeTox.csv","cort" +"TX006202","TP0001062.Plate.17",2,5,"t",1,9.3,9.73,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX006202","TP0001062.Plate.17",3,5,"t",1,9.3,10.34,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX006203","TP0001057.Plate.15",2,5,"t",1,20,9.47,"TP0001057 Plate 15_CeeTox.csv","cort" +"TX006203","TP0001057.Plate.15",3,5,"t",1,20,8.88,"TP0001057 Plate 15_CeeTox.csv","cort" +"TX006204","PhaseII.VR.Plate.5",2,4,"t",1,1.84,5.36,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"TX006204","PhaseII.VR.Plate.5",3,4,"t",1,1.84,6.37,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"TX006205","PhaseII.VR.Plate.2",4,4,"t",1,2,18.01,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX006205","PhaseII.VR.Plate.2",5,4,"t",1,2,15.89,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX006206","TP0001058.Plate.2",6,7,"t",1,20,25.69,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX006206","TP0001058.Plate.2",7,7,"t",1,20,23.41,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX006207","TP0001056.Plate.12",2,7,"t",1,20,26.14,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX006207","TP0001056.Plate.12",3,7,"t",1,20,28.17,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX006208","TP0001054.Plate.1",4,3,"t",1,13.5,19.52,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX006208","TP0001054.Plate.1",5,3,"t",1,13.5,21.04,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX006209","TP0001058.Plate.3",6,3,"t",1,20,22,"TP0001058 Plate 3_CeeTox.csv","cort" +"TX006209","TP0001058.Plate.3",7,3,"t",1,20,21.28,"TP0001058 Plate 3_CeeTox.csv","cort" +"TX006210","TP0001059.Plate.8",4,7,"t",1,20,16.23,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX006210","TP0001059.Plate.8",5,7,"t",1,20,24.18,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX006211","TP0001059.Plate.8",2,3,"t",1,20,29.44,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX006211","TP0001059.Plate.8",3,3,"t",1,20,30.05,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX006212","TP0001054.Plate.8",2,7,"t",1,20,14.75,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX006212","TP0001054.Plate.8",3,7,"t",1,20,19.05,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX006217","TP0001057.Plate.13",6,10,"t",1,18.8,26.42,"TP0001057 Plate 13_CeeTox.csv","cort" +"TX006217","TP0001057.Plate.13",7,10,"t",1,18.8,24.59,"TP0001057 Plate 13_CeeTox.csv","cort" +"TX006218","TP0001058.Plate.1",4,10,"t",1,5,22.22,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX006218","TP0001058.Plate.1",5,10,"t",1,5,20.5,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX006220","TP0001061.Plate.16",4,4,"t",1,14.9,30.86,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX006220","TP0001061.Plate.16",5,4,"t",1,14.9,24.08,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX006225","TP0001060.Plate.11",2,7,"t",1,9.5,9.66,"TP0001060 Plate 11_CeeTox.csv","cort" +"TX006225","TP0001060.Plate.11",3,7,"t",1,9.5,11.07,"TP0001060 Plate 11_CeeTox.csv","cort" +"TX006226","PhaseII.VR.Plate.7",2,5,"t",1,0.19,10.81,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"TX006226","PhaseII.VR.Plate.7",3,5,"t",1,0.19,11.56,"2900-TO3 Phase II VR Plate 7_Ceetox.csv","cort" +"TX006229","PhaseII.VR.Plate.3",4,3,"t",1,2,16.65,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"TX006229","PhaseII.VR.Plate.3",5,3,"t",1,2,17.23,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"TX006230","TP0001057.Plate.13",4,8,"t",1,20,25.79,"TP0001057 Plate 13_CeeTox.csv","cort" +"TX006230","TP0001057.Plate.13",5,8,"t",1,20,21.23,"TP0001057 Plate 13_CeeTox.csv","cort" +"TX006238","TP0001058.Plate.2",4,8,"t",1,5,25.64,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX006238","TP0001058.Plate.2",5,8,"t",1,5,28.57,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX006239","TP0001055.Plate.6",6,10,"t",1,16.9,38.63,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX006239","TP0001055.Plate.6",7,10,"t",1,16.9,36.05,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX006241","TP0001058.Plate.4",2,7,"t",1,19.1,41.62,"TP0001058 Plate 4_CeeTox.csv","cort" +"TX006241","TP0001058.Plate.4",3,7,"t",1,19.1,37.12,"TP0001058 Plate 4_CeeTox.csv","cort" +"TX006243","TP0001060.Plate.9",6,10,"t",1,20,21.06,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX006243","TP0001060.Plate.9",7,10,"t",1,20,21.53,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX006244","TP0001060.Plate.11",4,10,"t",1,10,21.64,"TP0001060 Plate 11_CeeTox.csv","cort" +"TX006244","TP0001060.Plate.11",5,10,"t",1,10,19.89,"TP0001060 Plate 11_CeeTox.csv","cort" +"TX006246","PhaseII.VR.Plate.1",2,9,"t",1,1.89,5.72,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"TX006246","PhaseII.VR.Plate.1",3,9,"t",1,1.89,6.06,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"TX006248","TP0001056.Plate.12",2,6,"t",1,4.8,26.72,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX006248","TP0001056.Plate.12",3,6,"t",1,4.8,25.94,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX006249","TP0001059.Plate.5",6,6,"t",1,18,20.95,"TP0001059 Plate 5_CeeTox.csv","cort" +"TX006249","TP0001059.Plate.5",7,6,"t",1,18,20.26,"TP0001059 Plate 5_CeeTox.csv","cort" +"TX006251","TP0001061.Plate.14",6,7,"t",1,18.7,18,"TP0001061 Plate 14_CeeTox.csv","cort" +"TX006251","TP0001061.Plate.14",7,7,"t",1,18.7,16.79,"TP0001061 Plate 14_CeeTox.csv","cort" +"TX006255","TP0001058.Plate.3",4,7,"t",1,20,23.59,"TP0001058 Plate 3_CeeTox.csv","cort" +"TX006255","TP0001058.Plate.3",5,7,"t",1,20,22.72,"TP0001058 Plate 3_CeeTox.csv","cort" +"TX006256","TP0001054.Plate.4",6,4,"t",1,20,16.74,"TP0001054 Plate 4_CeeTox.csv","cort" +"TX006256","TP0001054.Plate.4",7,4,"t",1,20,15.91,"TP0001054 Plate 4_CeeTox.csv","cort" +"TX006299","PhaseII.VR.Plate.3",2,9,"t",1,2,0.82,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"TX006299","PhaseII.VR.Plate.3",3,9,"t",1,2,0.83,"2900-TO3 Phase II VR Plate 3_Ceetox.csv","cort" +"TX006301","TP0001056.Plate.12",6,3,"t",1,20,13.19,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX006301","TP0001056.Plate.12",7,3,"t",1,20,11.36,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX006303","TP0001058.Plate.4",4,8,"t",1,20,32.93,"TP0001058 Plate 4_CeeTox.csv","cort" +"TX006303","TP0001058.Plate.4",5,8,"t",1,20,28.99,"TP0001058 Plate 4_CeeTox.csv","cort" +"TX006305","TP0001060.Plate.9",2,8,"t",1,20,13.14,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX006305","TP0001060.Plate.9",3,8,"t",1,20,13.05,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX006393","TP0001060.Plate.11",6,4,"t",1,20,16.64,"TP0001060 Plate 11_CeeTox.csv","cort" +"TX006393","TP0001060.Plate.11",7,4,"t",1,20,16.52,"TP0001060 Plate 11_CeeTox.csv","cort" +"TX006416","TP0001061.Plate.16",6,3,"t",1,1.8,21.29,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX006416","TP0001061.Plate.16",7,3,"t",1,1.8,28.12,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX006525","TP0000882.Plate.1",4,7,"t",1,20,17.8099968494238,"TP0000882 Plate 1A.xlsx","cort" +"TX006525","TP0000882.Plate.1",5,7,"t",1,20,17.4225235691852,"TP0000882 Plate 1A.xlsx","cort" +"TX006533","20120829.Plate.2",2,5,"t",1,0.2,13.815543702966,"20120829 Plate 2B.xlsx","cort" +"TX006533","20120829.Plate.2",3,5,"t",1,0.2,11.2996851679267,"20120829 Plate 2B.xlsx","cort" +"TX006534","TP0000882.Plate.4",6,10,"t",1,20,18.5954456938178,"TP0000882 Plate 4A.xlsx","cort" +"TX006534","TP0000882.Plate.4",7,10,"t",1,20,16.6668301161249,"TP0000882 Plate 4A.xlsx","cort" +"TX006537","TP0000883.Plate.2",2,6,"t",1,20,14.9571770589439,"TP0000883 Plate 2A.xlsx","cort" +"TX006537","TP0000883.Plate.2",3,6,"t",1,20,15.2490176118847,"TP0000883 Plate 2A.xlsx","cort" +"TX006551","TP0001114.Plate.23",4,7,"t",1,100,66.07,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX006551","TP0001114.Plate.23",5,7,"t",1,100,68.31,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX006553","TP0001114.Plate.21",2,6,"t",1,100,56.63,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX006553","TP0001114.Plate.21",3,6,"t",1,100,60.91,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX006576","TP0001114.Plate.22",6,10,"t",1,100,80.21,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX006576","TP0001114.Plate.22",7,10,"t",1,100,71.6,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX006609","TP0001112.Plate.16",6,7,"t",1,100,41.79,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX006609","TP0001112.Plate.16",7,7,"t",1,100,43.49,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX006623","TP0001113.Plate.17",6,6,"t",1,100,58.82,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX006623","TP0001113.Plate.17",7,6,"t",1,100,46.22,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX006631","TP0001112.Plate.15",2,6,"t",1,100,64.72,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX006631","TP0001112.Plate.15",3,6,"t",1,100,65.65,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX006633","TP0001113.Plate.17",4,3,"t",0,20,NA,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX006633","TP0001113.Plate.17",5,3,"t",1,20,50.88,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX006647","TP0001110.Plate.7",2,8,"t",1,100,47.78,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX006647","TP0001110.Plate.7",3,8,"t",1,100,52.46,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX006656","phIII.e1k.Plate.14",2,3,"t",1,20,5.77,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX006656","phIII.e1k.Plate.14",3,3,"t",1,20,6.22,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX006663","TP0001111.Plate.10",2,5,"t",1,50,64.05,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX006663","TP0001111.Plate.10",3,5,"t",1,50,69.55,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX006673","TP0001109.Plate.2",2,4,"t",1,20,69.85,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX006673","TP0001109.Plate.2",3,4,"t",1,20,69.61,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX006695","TP0001110.Plate.7",4,3,"t",1,100,33.11,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX006695","TP0001110.Plate.7",5,3,"t",1,100,33.82,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX006699","E1K.VR.Plate.9",4,8,"t",1,10,12.6,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX006699","E1K.VR.Plate.9",5,8,"t",1,10,13.91,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX006719","TP0001109.Plate.1",4,5,"t",1,20,66,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX006719","TP0001109.Plate.1",5,5,"t",1,20,59.22,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX006743","TP0001109.Plate.1",2,9,"t",1,20,60.27,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX006743","TP0001109.Plate.1",3,9,"t",1,20,67.44,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX006755","TP0001112.Plate.16",6,5,"t",1,50,62.51,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX006755","TP0001112.Plate.16",7,5,"t",1,50,60.2,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX006763","TP0001110.Plate.7",6,10,"t",1,100,71.94,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX006763","TP0001110.Plate.7",7,10,"t",1,100,76,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX006852","TP0001110.Plate.5",4,9,"t",1,50,87.81,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX006852","TP0001110.Plate.5",5,9,"t",1,50,87.76,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX006872","TP0001111.Plate.11",4,8,"t",1,100,49.64,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX006872","TP0001111.Plate.11",5,8,"t",1,100,41.77,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX006874","TP0001110.Plate.5",6,7,"t",1,100,66.47,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX006874","TP0001110.Plate.5",7,7,"t",1,100,68.7,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX006884","TP0001109.Plate.3",6,6,"t",1,100,67.58,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX006884","TP0001109.Plate.3",7,6,"t",1,100,58.31,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX006887","phIII.e1k.Plate.14",4,4,"t",1,20,3.71,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX006887","phIII.e1k.Plate.14",5,4,"t",1,20,3.49,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX006890","TP0001110.Plate.7",2,3,"t",1,100,51.92,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX006890","TP0001110.Plate.7",3,3,"t",1,100,58.93,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX006892","TP0001113.Plate.19",6,5,"t",1,100,63.86,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX006892","TP0001113.Plate.19",7,5,"t",1,100,71.5,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX006897","phIII.e1k.Plate.14",2,4,"t",1,20,22.72,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX006897","phIII.e1k.Plate.14",3,4,"t",1,20,22.12,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX006930","TP0001109.Plate.3",4,9,"t",1,100,50.7,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX006930","TP0001109.Plate.3",5,9,"t",1,100,45.35,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX006944","TP0001112.Plate.13",6,5,"t",1,57.26,63.29,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX006944","TP0001112.Plate.13",7,5,"t",1,57.26,70.42,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX006949","phIII.e1k.Plate.5",2,9,"t",1,20,24.53,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"TX006949","phIII.e1k.Plate.5",3,9,"t",1,20,30.67,"2900-TO3 Phase III E1K Set 2 Plate 5_Cyprotex.csv","cort" +"TX006955","phIII.e1k.Plate.13",2,4,"t",1,10,25.68,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX006955","phIII.e1k.Plate.13",3,4,"t",1,10,23.33,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX006966","TP0001111.Plate.10",2,9,"t",1,18.2,48.69,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX006966","TP0001111.Plate.10",3,9,"t",1,18.2,57.51,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX006970","TP0001114.Plate.22",6,6,"t",1,100,62.36,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX006970","TP0001114.Plate.22",7,6,"t",1,100,64.22,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007037","TP0001114.Plate.23",4,5,"t",1,100,58.41,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX007037","TP0001114.Plate.23",5,5,"t",1,100,62.8,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX007058","TP0001114.Plate.22",6,3,"t",1,100,63.27,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007058","TP0001114.Plate.22",7,3,"t",1,100,67.67,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007122","TP0001111.Plate.11",2,7,"t",1,100,54.16,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX007122","TP0001111.Plate.11",3,7,"t",1,100,62.76,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX007126","TP0001113.Plate.19",2,5,"t",1,100,50.71,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX007126","TP0001113.Plate.19",3,5,"t",1,100,53.65,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX007152","TP0001114.Plate.22",6,4,"t",1,100,67.67,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007152","TP0001114.Plate.22",7,4,"t",1,100,61.48,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007156","TP0001057.Plate.16",6,10,"t",1,100,34.21,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX007156","TP0001057.Plate.16",7,10,"t",1,100,38.4,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX007164","TP0001114.Plate.22",2,9,"t",1,100,43.85,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007164","TP0001114.Plate.22",3,9,"t",1,100,49.09,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007177","TP0001109.Plate.3",6,10,"t",1,50,62.7,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX007177","TP0001109.Plate.3",7,10,"t",1,50,70.12,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX007179","E1K.VR.Plate.11",2,9,"t",1,1,11.2,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX007179","E1K.VR.Plate.11",3,9,"t",1,1,10.62,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX007188","phIII.e1k.Plate.4",2,5,"t",1,20,19.79,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX007188","phIII.e1k.Plate.4",3,5,"t",1,20,19.47,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX007199","TP0001113.Plate.17",2,10,"t",1,20,57.15,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX007199","TP0001113.Plate.17",3,10,"t",1,20,62.88,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX007207","E1K.VR.Plate.9",6,9,"t",1,10,9,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX007207","E1K.VR.Plate.9",7,9,"t",1,10,8.74,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX007221","TP0001111.Plate.12",2,5,"t",1,100,53.97,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX007221","TP0001111.Plate.12",3,5,"t",1,100,62.23,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX007227","E1K.VR.Plate.10",4,6,"t",1,1,9.81,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX007227","E1K.VR.Plate.10",5,6,"t",1,1,10.18,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX007233","TP0001111.Plate.10",2,8,"t",1,100,57.35,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX007233","TP0001111.Plate.10",3,8,"t",1,100,69.36,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX007257","PhaseIIe1k.VR.Plate.4",4,3,"t",1,1,32.8,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX007257","PhaseIIe1k.VR.Plate.4",5,3,"t",1,1,61.33,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX007281","TP0001114.Plate.23",2,7,"t",1,100,50.76,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX007281","TP0001114.Plate.23",3,7,"t",1,100,53.66,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX007287","TP0001112.Plate.13",4,5,"t",1,100,62.34,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX007287","TP0001112.Plate.13",5,5,"t",1,100,58.67,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX007304","phIII.e1k.VR.Plate.3",4,3,"t",1,2,6.44,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX007304","phIII.e1k.VR.Plate.3",5,3,"t",1,2,7.4,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX007318","TP0001113.Plate.19",2,9,"t",1,100,58.68,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX007318","TP0001113.Plate.19",3,9,"t",1,100,64.45,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX007350","TP0001110.Plate.5",2,5,"t",1,100,68.16,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX007350","TP0001110.Plate.5",3,5,"t",1,100,67.03,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX007352","TP0001109.Plate.2",6,4,"t",1,100,64.43,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX007352","TP0001109.Plate.2",7,4,"t",1,100,67.2,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX007354","TP0001112.Plate.15",6,6,"t",1,100,16.7,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX007354","TP0001112.Plate.15",7,6,"t",1,100,19.48,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX007366","TP0001114.Plate.21",4,9,"t",1,100,54.42,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX007366","TP0001114.Plate.21",5,9,"t",1,100,67.16,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX007368","TP0001110.Plate.5",4,7,"t",1,100,65.95,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX007368","TP0001110.Plate.5",5,7,"t",1,100,64.13,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX007384","TP0001113.Plate.20",2,6,"t",1,100,66.14,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX007384","TP0001113.Plate.20",3,6,"t",1,100,75.43,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX007406","TP0001111.Plate.10",6,4,"t",1,100,65.83,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX007406","TP0001111.Plate.10",7,4,"t",1,100,65.99,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX007424","TP0001110.Plate.7",2,4,"t",1,100,65.92,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX007424","TP0001110.Plate.7",3,4,"t",1,100,67.09,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX007427","phIII.e1k.Plate.14",4,10,"t",1,20,26.15,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX007427","phIII.e1k.Plate.14",5,10,"t",1,20,22.73,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX007433","phIII.e1k.VR.Plate.1",6,9,"t",1,2,76.79,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX007433","phIII.e1k.VR.Plate.1",7,9,"t",1,2,48.87,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX007436","E1K.VR.Plate.10",2,5,"t",1,1.18,7.16,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX007436","E1K.VR.Plate.10",3,5,"t",1,1.18,7.37,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX007439","phIII.e1k.VR.Plate.1",4,4,"t",1,0.2,47.53,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX007439","phIII.e1k.VR.Plate.1",5,4,"t",1,0.2,49.63,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX007460","TP0001109.Plate.1",4,10,"t",1,100,66.05,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX007460","TP0001109.Plate.1",5,10,"t",1,100,64.03,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX007471","phIII.e1k.VR.Plate.1",4,10,"t",1,0.2,50.77,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX007471","phIII.e1k.VR.Plate.1",5,10,"t",1,0.2,44.55,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX007482","TP0001114.Plate.22",2,3,"t",1,100,70.03,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007482","TP0001114.Plate.22",3,3,"t",1,100,65.99,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007494","E1K.VR.Plate.9",2,5,"t",1,2,17.73,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX007494","E1K.VR.Plate.9",3,5,"t",1,2,17.77,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX007496","TP0001114.Plate.22",4,10,"t",1,50,77.17,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007496","TP0001114.Plate.22",5,10,"t",1,50,69.87,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX007504","TP0001109.Plate.2",6,10,"t",1,100,61.56,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX007504","TP0001109.Plate.2",7,10,"t",1,100,63.74,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX007522","TP0001110.Plate.6",6,7,"t",1,100,46.63,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX007522","TP0001110.Plate.6",7,7,"t",1,100,52.34,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX007526","TP0001110.Plate.6",4,8,"t",1,100,73.71,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX007526","TP0001110.Plate.6",5,8,"t",1,100,67.93,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX007556","TP0001112.Plate.16",6,10,"t",1,100,49.11,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX007556","TP0001112.Plate.16",7,10,"t",1,100,45.33,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX007558","TP0001109.Plate.3",4,7,"t",1,86.29,48.57,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX007558","TP0001109.Plate.3",5,7,"t",1,86.29,47.91,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX007577","TP0001055.Plate.6",4,10,"t",1,20,33.85,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX007577","TP0001055.Plate.6",5,10,"t",1,20,28.7,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX007602","TP0001111.Plate.10",4,5,"t",1,100,21.76,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX007602","TP0001111.Plate.10",5,5,"t",1,100,21.78,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX007617","TP0001111.Plate.12",2,8,"t",1,100,55.36,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX007617","TP0001111.Plate.12",3,8,"t",1,100,58.64,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX007619","TP0001113.Plate.19",2,8,"t",1,100,57.76,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX007619","TP0001113.Plate.19",3,8,"t",1,100,68.14,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX007631","E1K.VR.Plate.10",2,9,"t",1,0.4,12.69,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX007631","E1K.VR.Plate.10",3,9,"t",1,0.4,12.83,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX007656","TP0001114.Plate.21",6,10,"t",1,100,65.38,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX007656","TP0001114.Plate.21",7,10,"t",1,100,58.63,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX007663","TP0001113.Plate.17",4,10,"t",1,100,69.07,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX007663","TP0001113.Plate.17",5,10,"t",1,100,67.77,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX007683","TP0001111.Plate.12",4,8,"t",1,100,73.7,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX007683","TP0001111.Plate.12",5,8,"t",1,100,67.71,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX007707","TP0001114.Plate.23",6,5,"t",1,100,63.22,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX007707","TP0001114.Plate.23",7,5,"t",1,100,67.01,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX007718","TP0001112.Plate.16",6,3,"t",1,100,56.85,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX007718","TP0001112.Plate.16",7,3,"t",1,100,55.44,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX007737","TP0001062.Plate.17",6,6,"t",1,14.9,29.25,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX007737","TP0001062.Plate.17",7,6,"t",1,14.9,30.61,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX007739","TP0001056.Plate.9",6,8,"t",1,12.9,21.51,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX007739","TP0001056.Plate.9",7,8,"t",1,12.9,26.72,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX007768","TP0001113.Plate.17",2,3,"t",1,50,52.78,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX007768","TP0001113.Plate.17",3,3,"t",1,50,59.28,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX007784","TP0001114.Plate.21",6,9,"t",1,100,95.89,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX007784","TP0001114.Plate.21",7,9,"t",1,100,83.15,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX007792","TP0001110.Plate.6",6,9,"t",1,100,46.03,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX007792","TP0001110.Plate.6",7,9,"t",1,100,49.08,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX007804","TP0001113.Plate.18",4,4,"t",1,100,60.76,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX007804","TP0001113.Plate.18",5,4,"t",1,100,59.56,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX007806","TP0001109.Plate.4",6,10,"t",1,100,54.79,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX007806","TP0001109.Plate.4",7,10,"t",1,100,67.66,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX007832","TP0001112.Plate.16",2,6,"t",1,100,11.67,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX007832","TP0001112.Plate.16",3,6,"t",1,100,13.1,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX007859","phIII.e1k.Plate.14",2,8,"t",1,20,23.03,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX007859","phIII.e1k.Plate.14",3,8,"t",1,20,22.81,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX007874","TP0001110.Plate.7",2,10,"t",1,100,86.96,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX007874","TP0001110.Plate.7",3,10,"t",1,100,86.02,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX008014","phIII.e1k.VR.Plate.3",2,3,"t",1,0.2,57.22,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX008014","phIII.e1k.VR.Plate.3",3,3,"t",1,0.2,61.51,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX008016","PhaseIIe1k.VR.Plate.4",6,3,"t",1,1,52.01,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX008016","PhaseIIe1k.VR.Plate.4",7,3,"t",1,1,49.08,"2900-TO3 Phase II and E1K VR2 Plate 4_Ceetox.csv","cort" +"TX008030","phIII.e1k.VR.Plate.3",4,7,"t",1,0.05,59.3,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX008030","phIII.e1k.VR.Plate.3",5,7,"t",1,0.05,71.43,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX008063","TP0001110.Plate.7",6,6,"t",1,100,60.88,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX008063","TP0001110.Plate.7",7,6,"t",1,100,59.85,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX008065","TP0001112.Plate.13",2,4,"t",1,100,59.05,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX008065","TP0001112.Plate.13",3,4,"t",1,100,60.78,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX008067","E1K.VR.Plate.10",6,6,"t",1,1,16.6,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX008067","E1K.VR.Plate.10",7,6,"t",1,1,17.46,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX008069","TP0001114.Plate.21",4,6,"t",1,100,48.38,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX008069","TP0001114.Plate.21",5,6,"t",1,100,53.67,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX008070","phIII.e1k.Plate.14",4,8,"t",1,20,27.04,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX008070","phIII.e1k.Plate.14",5,8,"t",1,20,24.13,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX008073","TP0001114.Plate.23",4,10,"t",1,20,64.68,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX008073","TP0001114.Plate.23",5,10,"t",1,20,65.13,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX008082","phIII.e1k.Plate.4",6,10,"t",1,20,18.27,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX008082","phIII.e1k.Plate.4",7,10,"t",1,20,17.27,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX008087","E1K.VR.Plate.9",2,3,"t",1,5,11.55,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX008087","E1K.VR.Plate.9",3,3,"t",1,5,13.2,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX008138","phIII.e1k.Plate.4",2,7,"t",1,20,36.6,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX008138","phIII.e1k.Plate.4",3,7,"t",1,20,37.42,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX008142","phIII.e1k.VR.Plate.2",2,5,"t",1,2,51.4,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX008142","phIII.e1k.VR.Plate.2",3,5,"t",1,2,52.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX008320","TP0001112.Plate.15",2,7,"t",1,100,60.12,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX008320","TP0001112.Plate.15",3,7,"t",1,100,63.91,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX008321","TP0001062.Plate.17",6,10,"t",1,14.3,33.17,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX008321","TP0001062.Plate.17",7,10,"t",1,14.3,37.75,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX008326","TP0001113.Plate.19",6,7,"t",1,100,42.75,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX008326","TP0001113.Plate.19",7,7,"t",1,100,46.72,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX008364","TP0001109.Plate.1",6,7,"t",1,100,72.19,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX008364","TP0001109.Plate.1",7,7,"t",1,100,82.51,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX008383","phIII.e1k.VR.Plate.1",6,7,"t",1,0.2,75.08,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX008383","phIII.e1k.VR.Plate.1",7,7,"t",1,0.2,49.38,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX008388","TP0001114.Plate.23",6,8,"t",1,50,67.52,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX008388","TP0001114.Plate.23",7,8,"t",1,50,68.09,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX008392","TP0001109.Plate.4",4,10,"t",1,100,80.03,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX008392","TP0001109.Plate.4",5,10,"t",1,100,74.97,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX008400","TP0001111.Plate.12",4,5,"t",1,20,58.6,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX008400","TP0001111.Plate.12",5,5,"t",1,20,61.59,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX008408","TP0001110.Plate.5",6,5,"t",1,100,72.26,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX008408","TP0001110.Plate.5",7,5,"t",1,100,65.12,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX008414","TP0001113.Plate.18",6,5,"t",1,100,52.9,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX008414","TP0001113.Plate.18",7,5,"t",1,100,51.34,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX008416","TP0001112.Plate.15",6,7,"t",1,100,28.14,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX008416","TP0001112.Plate.15",7,7,"t",1,100,33.92,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX008424","TP0001110.Plate.6",6,5,"t",1,20,67.25,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX008424","TP0001110.Plate.6",7,5,"t",1,20,69.72,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX008428","E1K.VR.Plate.11",2,5,"t",1,1,7.43,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX008428","E1K.VR.Plate.11",3,5,"t",1,1,7.41,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX008434","TP0001110.Plate.5",2,4,"t",1,100,63.4,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX008434","TP0001110.Plate.5",3,4,"t",1,100,48.66,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX008436","E1K.VR.Plate.10",4,7,"t",1,1,13.49,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX008436","E1K.VR.Plate.10",5,7,"t",1,1,15.89,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX008450","E1K.VR.Plate.9",6,5,"t",1,10,9.22,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX008450","E1K.VR.Plate.9",7,5,"t",1,10,9.57,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX008467","E1K.VR.Plate.11",2,3,"t",1,1,15.48,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX008467","E1K.VR.Plate.11",3,3,"t",1,1,18.83,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX008471","TP0001111.Plate.12",4,10,"t",1,100,76.85,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX008471","TP0001111.Plate.12",5,10,"t",1,100,70.05,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX008567","TP0001111.Plate.11",4,10,"t",1,100,95.99,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX008567","TP0001111.Plate.11",5,10,"t",1,100,78.12,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX008581","TP0001109.Plate.3",2,7,"t",1,100,89.56,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX008581","TP0001109.Plate.3",3,7,"t",1,100,94.77,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX008599","TP0001109.Plate.3",2,4,"t",1,100,57.72,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX008599","TP0001109.Plate.3",3,4,"t",1,100,63.83,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX008620","TP0001061.Plate.16",6,7,"t",1,20,20.95,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX008620","TP0001061.Plate.16",7,7,"t",1,20,22.01,"TP0001061 Plate 16_CeeTox.csv","cort" +"TX008642","TP0001112.Plate.14",2,6,"t",1,20,67.53,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX008642","TP0001112.Plate.14",3,6,"t",1,20,64.77,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX008655","TP0001110.Plate.8",6,5,"t",1,20,62.01,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX008655","TP0001110.Plate.8",7,5,"t",1,20,68.73,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX008670","phIII.e1k.Plate.13",6,4,"t",1,5,25.39,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX008670","phIII.e1k.Plate.13",7,4,"t",1,5,23.96,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX008673","TP0001114.Plate.24",2,8,"t",1,100,60.71,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX008673","TP0001114.Plate.24",3,8,"t",1,100,62.19,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX008685","TP0001110.Plate.8",2,4,"t",1,100,73.57,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX008685","TP0001110.Plate.8",3,4,"t",1,100,65.57,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX008690","phIII.e1k.VR.Plate.1",2,6,"t",1,0.2,45.09,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX008690","phIII.e1k.VR.Plate.1",3,6,"t",1,0.2,49.26,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX008698","phIII.e1k.Plate.13",2,6,"t",1,10,20.43,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX008698","phIII.e1k.Plate.13",3,6,"t",1,10,19.76,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX008704","phIII.e1k.Plate.4",6,5,"t",1,20,15.03,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX008704","phIII.e1k.Plate.4",7,5,"t",1,20,16.79,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX008707","TP0001109.Plate.3",6,5,"t",1,100,64.02,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX008707","TP0001109.Plate.3",7,5,"t",1,100,59.68,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX008715","TP0001111.Plate.10",4,3,"t",1,100,61.01,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX008715","TP0001111.Plate.10",5,3,"t",1,100,67.19,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX008724","TP0001112.Plate.14",6,5,"t",1,20,64,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX008724","TP0001112.Plate.14",7,5,"t",1,20,62.72,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX008726","TP0001109.Plate.1",6,3,"t",1,100,63.05,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX008726","TP0001109.Plate.1",7,3,"t",1,100,72.66,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX008731","phIII.e1k.VR.Plate.1",6,4,"t",1,2,124.28,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX008731","phIII.e1k.VR.Plate.1",7,4,"t",1,2,76.85,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX008734","TP0001112.Plate.16",4,6,"t",1,74.5,58.02,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX008734","TP0001112.Plate.16",5,6,"t",1,74.5,66.62,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX008744","TP0001110.Plate.6",2,3,"t",1,100,69.91,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX008744","TP0001110.Plate.6",3,3,"t",1,100,67.18,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX008746","TP0001113.Plate.20",4,7,"t",1,100,62.49,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX008746","TP0001113.Plate.20",5,7,"t",1,100,66.48,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX008759","TP0001111.Plate.11",2,8,"t",1,100,70.64,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX008759","TP0001111.Plate.11",3,8,"t",1,100,78.03,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX008763","TP0001112.Plate.13",4,3,"t",1,100,54.08,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX008763","TP0001112.Plate.13",5,3,"t",1,100,52.38,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX008765","TP0001058.Plate.2",2,8,"t",1,100,15.85,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX008765","TP0001058.Plate.2",3,8,"t",1,100,21.7,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX008768","TP0001062.Plate.17",4,6,"t",1,9.73,25.97,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX008768","TP0001062.Plate.17",5,6,"t",1,9.73,27.71,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX008800","TP0001112.Plate.16",6,4,"t",1,20,56.65,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX008800","TP0001112.Plate.16",7,4,"t",1,20,49.23,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX008808","phIII.e1k.Plate.13",2,7,"t",1,5,23.83,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX008808","phIII.e1k.Plate.13",3,7,"t",1,5,20.22,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX008831","TP0001110.Plate.6",6,4,"t",1,100,70.55,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX008831","TP0001110.Plate.6",7,4,"t",1,100,63.47,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX008835","TP0001114.Plate.21",4,5,"t",1,100,43,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX008835","TP0001114.Plate.21",5,5,"t",1,100,44.81,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX008837","TP0001112.Plate.14",6,6,"t",1,100,62.09,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX008837","TP0001112.Plate.14",7,6,"t",1,100,64.08,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX008849","TP0001111.Plate.9",6,10,"t",1,100,65.51,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX008849","TP0001111.Plate.9",7,10,"t",1,100,60.09,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX008863","TP0001110.Plate.8",4,5,"t",1,100,49.27,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX008863","TP0001110.Plate.8",5,5,"t",1,100,51.7,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX008879","TP0001113.Plate.18",6,4,"t",1,100,56.5,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX008879","TP0001113.Plate.18",7,4,"t",1,100,51.94,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX008884","TP0001054.Plate.8",2,4,"t",1,20,21,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX008884","TP0001054.Plate.8",3,4,"t",1,20,25.05,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX008911","TP0001112.Plate.14",2,9,"t",1,20,65.02,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX008911","TP0001112.Plate.14",3,9,"t",1,20,60.48,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX008940","E1K.VR.Plate.10",4,8,"t",1,1,15.7,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX008940","E1K.VR.Plate.10",5,8,"t",1,1,21.01,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX008967","TP0001109.Plate.4",2,9,"t",1,100,54.03,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX008967","TP0001109.Plate.4",3,9,"t",1,100,65.01,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX008996","TP0001113.Plate.20",6,6,"t",1,100,63.22,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX008996","TP0001113.Plate.20",7,6,"t",1,100,53.87,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX009003","TP0001114.Plate.22",6,7,"t",1,100,66.1,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX009003","TP0001114.Plate.22",7,7,"t",1,100,71.25,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX009007","TP0001113.Plate.18",4,5,"t",1,100,48.64,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX009007","TP0001113.Plate.18",5,5,"t",1,100,65.35,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX009019","TP0001113.Plate.17",2,8,"t",1,100,39,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX009019","TP0001113.Plate.17",3,8,"t",1,100,39.7,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX009031","phIII.e1k.VR.Plate.2",2,8,"t",1,2,59.45,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX009031","phIII.e1k.VR.Plate.2",3,8,"t",1,2,56.85,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX009035","TP0001054.Plate.2",2,4,"t",1,20,12.44,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX009035","TP0001054.Plate.2",3,4,"t",1,20,15.35,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX009041","TP0001111.Plate.12",6,10,"t",1,100,12.29,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX009041","TP0001111.Plate.12",7,10,"t",1,100,10.55,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX009051","TP0001109.Plate.4",4,6,"t",1,100,10.33,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX009051","TP0001109.Plate.4",5,6,"t",1,100,10,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX009063","TP0001112.Plate.15",2,8,"t",1,20,58.76,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX009063","TP0001112.Plate.15",3,8,"t",1,20,59.83,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX009065","TP0001114.Plate.23",4,6,"t",1,50,93.88,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX009065","TP0001114.Plate.23",5,6,"t",1,50,96.32,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX009067","TP0001112.Plate.16",2,7,"t",1,100,45.92,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX009067","TP0001112.Plate.16",3,7,"t",1,100,63.5,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX009070","TP0001056.Plate.10",2,8,"t",1,12.5,25.98,"TP0001056 Plate 10_CeeTox.csv","cort" +"TX009070","TP0001056.Plate.10",3,8,"t",1,12.5,26.28,"TP0001056 Plate 10_CeeTox.csv","cort" +"TX009080","TP0001111.Plate.11",6,10,"t",1,100,46.73,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX009080","TP0001111.Plate.11",7,10,"t",1,100,41.4,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX009091","phIII.e1k.Plate.13",2,8,"t",1,5,28.18,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX009091","phIII.e1k.Plate.13",3,8,"t",1,5,25.52,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX009150","TP0001054.Plate.1",6,8,"t",1,10,24.17,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX009150","TP0001054.Plate.1",7,8,"t",1,10,22.99,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX009156","TP0000882.Plate.1",4,10,"t",1,17.2,19.1225180797622,"TP0000882 Plate 1A.xlsx","cort" +"TX009156","TP0000882.Plate.1",5,10,"t",1,17.2,16.4129847589554,"TP0000882 Plate 1A.xlsx","cort" +"TX009165","phIII.e1k.Plate.4",4,6,"t",1,20,12.26,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX009165","phIII.e1k.Plate.4",5,6,"t",1,20,11.02,"2900-TO3 Phase III E1K Set 2 Plate 4_Cyprotex.csv","cort" +"TX009193","TP0001114.Plate.24",2,7,"t",1,100,65.35,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX009193","TP0001114.Plate.24",3,7,"t",1,100,76.74,"TP0001114 Plate 24_Ceetox.csv","cort" +"TX009211","TP0001113.Plate.19",4,7,"t",1,100,60.47,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX009211","TP0001113.Plate.19",5,7,"t",1,100,54.75,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX009220","TP0001111.Plate.12",6,7,"t",1,20,66.08,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX009220","TP0001111.Plate.12",7,7,"t",1,20,56.41,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX009242","TP0001111.Plate.11",2,3,"t",1,100,71.86,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX009242","TP0001111.Plate.11",3,3,"t",1,100,88.69,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX009245","TP0001110.Plate.6",2,8,"t",1,100,58.93,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX009245","TP0001110.Plate.6",3,8,"t",1,100,64.69,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX009258","TP0001060.Plate.12",2,10,"t",1,20,25.5,"TP0001060 Plate 12_CeeTox.csv","cort" +"TX009258","TP0001060.Plate.12",3,10,"t",1,20,24.35,"TP0001060 Plate 12_CeeTox.csv","cort" +"TX009272","TP0001112.Plate.14",6,3,"t",1,100,63.85,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX009272","TP0001112.Plate.14",7,3,"t",1,100,61.3,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX009281","TP0001111.Plate.9",6,3,"t",1,100,41.26,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX009281","TP0001111.Plate.9",7,3,"t",1,100,26.34,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX009285","TP0001111.Plate.9",2,9,"t",1,100,42.42,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX009285","TP0001111.Plate.9",3,9,"t",1,100,55.41,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX009307","TP0001113.Plate.17",6,8,"t",1,100,54.68,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX009307","TP0001113.Plate.17",7,8,"t",1,100,47.59,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX009310","TP0001062.Plate.17",2,7,"t",1,20,24.97,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX009310","TP0001062.Plate.17",3,7,"t",1,20,33.09,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX009349","TP0001113.Plate.19",6,6,"t",1,100,65.67,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX009349","TP0001113.Plate.19",7,6,"t",1,100,63.36,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX009353","TP0001113.Plate.18",2,4,"t",1,20,51.4,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX009353","TP0001113.Plate.18",3,4,"t",1,20,61.34,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX009384","phIII.e1k.Plate.14",2,7,"t",1,20,11.83,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX009384","phIII.e1k.Plate.14",3,7,"t",1,20,15.17,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX009389","TP0001111.Plate.12",4,4,"t",1,100,70.81,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX009389","TP0001111.Plate.12",5,4,"t",1,100,65.16,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX009393","TP0001114.Plate.21",4,10,"t",1,100,59.87,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX009393","TP0001114.Plate.21",5,10,"t",1,100,64.59,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX009405","TP0001110.Plate.8",6,9,"t",1,100,77.77,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX009405","TP0001110.Plate.8",7,9,"t",1,100,82.1,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX009413","TP0001110.Plate.8",6,4,"t",1,64.12,60.09,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX009413","TP0001110.Plate.8",7,4,"t",1,64.12,60.79,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX009419","TP0001112.Plate.15",4,9,"t",1,100,8,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX009419","TP0001112.Plate.15",5,9,"t",1,100,7.64,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX009434","TP0001110.Plate.5",4,4,"t",1,100,63.62,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX009434","TP0001110.Plate.5",5,4,"t",1,100,61.88,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX009469","TP0001111.Plate.10",2,4,"t",1,100,61.12,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX009469","TP0001111.Plate.10",3,4,"t",1,100,63.22,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX009478","TP0001112.Plate.14",2,8,"t",1,20,39,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX009478","TP0001112.Plate.14",3,8,"t",1,20,37.01,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX009480","TP0001111.Plate.11",2,10,"t",1,100,34.95,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX009480","TP0001111.Plate.11",3,10,"t",1,100,35.91,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX009482","TP0001114.Plate.23",4,9,"t",1,100,54.04,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX009482","TP0001114.Plate.23",5,9,"t",1,100,57,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX009484","TP0001110.Plate.6",4,5,"t",1,100,61.98,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX009484","TP0001110.Plate.6",5,5,"t",1,100,58.86,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX009499","TP0001054.Plate.2",4,6,"t",1,20,18.8,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX009499","TP0001054.Plate.2",5,6,"t",1,20,22.47,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX009515","TP0001054.Plate.7",4,7,"t",1,20,29.62,"TP0001055 Plate 7_CeeTox.csv","cort" +"TX009515","TP0001054.Plate.7",5,7,"t",1,20,36.02,"TP0001055 Plate 7_CeeTox.csv","cort" +"TX009542","TP0001113.Plate.17",6,3,"t",1,100,38.52,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX009542","TP0001113.Plate.17",7,3,"t",1,100,51.23,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX009546","TP0001112.Plate.16",4,10,"t",1,100,52.27,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX009546","TP0001112.Plate.16",5,10,"t",1,100,60.98,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX009562","TP0001110.Plate.8",4,4,"t",1,100,60.76,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX009562","TP0001110.Plate.8",5,4,"t",1,100,71.7,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX009566","TP0001110.Plate.7",6,5,"t",1,100,68.81,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX009566","TP0001110.Plate.7",7,5,"t",1,100,56.9,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX009571","phIII.e1k.Plate.13",6,5,"t",1,20,28.87,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX009571","phIII.e1k.Plate.13",7,5,"t",1,20,23.28,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX009582","TP0001109.Plate.1",2,3,"t",1,34.43,16.03,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX009582","TP0001109.Plate.1",3,3,"t",1,34.43,17.21,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX009588","TP0001113.Plate.17",6,7,"t",1,100,54.36,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX009588","TP0001113.Plate.17",7,7,"t",1,100,43.97,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX009604","TP0001113.Plate.18",6,3,"t",1,100,51.54,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX009604","TP0001113.Plate.18",7,3,"t",1,100,52.74,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX009641","TP0001054.Plate.3",6,7,"t",1,20,37.08,"TP0001054 Plate 3_CeeTox.csv","cort" +"TX009641","TP0001054.Plate.3",7,7,"t",1,20,35.21,"TP0001054 Plate 3_CeeTox.csv","cort" +"TX009652","E1K.VR.Plate.9",2,10,"t",1,10,9.76,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX009652","E1K.VR.Plate.9",3,10,"t",1,10,10.11,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX009662","TP0001112.Plate.13",6,3,"t",1,100,69.4,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX009662","TP0001112.Plate.13",7,3,"t",1,100,66.22,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX009664","TP0001112.Plate.14",2,5,"t",1,100,65.8,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX009664","TP0001112.Plate.14",3,5,"t",1,100,64.59,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX009710","TP0001111.Plate.10",2,7,"t",1,100,45.76,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX009710","TP0001111.Plate.10",3,7,"t",1,100,63.15,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX009720","TP0001110.Plate.8",6,7,"t",1,100,40.41,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX009720","TP0001110.Plate.8",7,7,"t",1,100,36.5,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX009736","E1K.VR.Plate.10",6,5,"t",1,0.9,11.33,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX009736","E1K.VR.Plate.10",7,5,"t",1,0.9,10.91,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX009742","TP0001054.Plate.2",6,10,"t",1,20,38.06,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX009742","TP0001054.Plate.2",7,10,"t",1,20,40.92,"TP0001054 Plate 2_CeeTox.csv","cort" +"TX009750","E1K.VR.Plate.10",4,5,"t",1,0.5,9.69,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX009750","E1K.VR.Plate.10",5,5,"t",1,0.5,10.5,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX009766","E1K.VR.Plate.9",2,7,"t",1,10,7.69,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX009766","E1K.VR.Plate.9",3,7,"t",1,10,8.3,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX009790","E1K.VR.Plate.10",4,3,"t",1,1,12.65,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX009790","E1K.VR.Plate.10",5,3,"t",1,1,14.15,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX009792","TP0001058.Plate.1",4,5,"t",1,22,1.59,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX009792","TP0001058.Plate.1",5,5,"t",1,22,1.94,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX009802","TP0001109.Plate.3",4,3,"t",1,100,54.15,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX009802","TP0001109.Plate.3",5,3,"t",1,100,59.33,"TP0001109 Plate 3_Ceetox.csv","cort" +"TX009808","TP0001113.Plate.19",6,8,"t",1,100,58.05,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX009808","TP0001113.Plate.19",7,8,"t",1,100,61.51,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX009816","TP0001109.Plate.1",4,8,"t",1,50,61.82,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX009816","TP0001109.Plate.1",5,8,"t",1,50,65.89,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX009828","TP0001111.Plate.10",4,7,"t",1,100,25.52,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX009828","TP0001111.Plate.10",5,7,"t",1,100,39.16,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX009841","TP0001114.Plate.23",4,8,"t",1,100,57.35,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX009841","TP0001114.Plate.23",5,8,"t",1,100,69.92,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX009862","E1K.VR.Plate.11",2,8,"t",1,0.5,13.41,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX009862","E1K.VR.Plate.11",3,8,"t",1,0.5,13.86,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX009864","TP0001113.Plate.18",6,6,"t",1,100,64.66,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX009864","TP0001113.Plate.18",7,6,"t",1,100,56.16,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX009872","TP0001111.Plate.9",4,8,"t",1,100,66.01,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX009872","TP0001111.Plate.9",5,8,"t",1,100,69.57,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX009893","TP0001110.Plate.5",6,9,"t",1,20,81.48,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX009893","TP0001110.Plate.5",7,9,"t",1,20,85.52,"TP0001110 Plate 5_Ceetox.csv","cort" +"TX009907","TP0001112.Plate.13",4,8,"t",1,100,58.7,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX009907","TP0001112.Plate.13",5,8,"t",1,100,54.59,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX009943","TP0001111.Plate.9",6,6,"t",1,100,63.77,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX009943","TP0001111.Plate.9",7,6,"t",1,100,61.25,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX009957","TP0001112.Plate.13",2,6,"t",1,100,63.22,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX009957","TP0001112.Plate.13",3,6,"t",1,100,63.52,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX009977","TP0001109.Plate.2",6,7,"t",1,100,62.8,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX009977","TP0001109.Plate.2",7,7,"t",1,100,66.42,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX009987","TP0001111.Plate.10",4,6,"t",1,100,62.04,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX009987","TP0001111.Plate.10",5,6,"t",1,100,66.8,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX010001","TP0001109.Plate.2",6,3,"t",1,100,10.17,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX010001","TP0001109.Plate.2",7,3,"t",1,100,9.64,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX010009","TP0001056.Plate.12",2,3,"t",1,9.4,32.13,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX010009","TP0001056.Plate.12",3,3,"t",1,9.4,41.37,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX010035","TP0001110.Plate.6",2,5,"t",1,100,190.94,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX010035","TP0001110.Plate.6",3,5,"t",1,100,198.98,"TP0001110 Plate 6_Ceetox.csv","cort" +"TX010052","E1K.VR.Plate.10",6,10,"t",1,0.2,5.97,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX010052","E1K.VR.Plate.10",7,10,"t",1,0.2,5.19,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX010056","E1K.VR.Plate.9",6,6,"t",1,10,15.16,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX010056","E1K.VR.Plate.9",7,6,"t",1,10,16.03,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX010068","TP0001112.Plate.13",6,6,"t",1,100,74.67,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX010068","TP0001112.Plate.13",7,6,"t",1,100,71.75,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX010069","phIII.e1k.Plate.14",6,8,"t",1,20,28.07,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX010069","phIII.e1k.Plate.14",7,8,"t",1,20,23.42,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX010111","phIII.e1k.Plate.13",2,9,"t",1,5,25.4,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX010111","phIII.e1k.Plate.13",3,9,"t",1,5,20.94,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX010112","E1K.VR.Plate.9",4,9,"t",1,4.4,8.18,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX010112","E1K.VR.Plate.9",5,9,"t",1,4.4,8.55,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX010165","TP0001113.Plate.20",4,9,"t",1,20,60.18,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX010165","TP0001113.Plate.20",5,9,"t",1,20,62.11,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX010177","TP0001109.Plate.1",6,4,"t",1,50,67.68,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX010177","TP0001109.Plate.1",7,4,"t",1,50,66.35,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX010183","PhaseIIe1k.VR.Plate.2",2,7,"t",1,10,24.59,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"TX010183","PhaseIIe1k.VR.Plate.2",3,7,"t",1,10,26.09,"2900-TO3 Phase II and E1K VR2 Plate 2_Ceetox.csv","cort" +"TX010199","TP0001110.Plate.8",4,8,"t",1,100,103.31,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX010199","TP0001110.Plate.8",5,8,"t",1,100,99.16,"TP0001110 Plate 8_Ceetox.csv","cort" +"TX010202","phIII.e1k.Plate.14",2,5,"t",1,13.2,26.21,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX010202","phIII.e1k.Plate.14",3,5,"t",1,13.2,21.34,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX010217","TP0001111.Plate.10",6,7,"t",1,100,40.25,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX010217","TP0001111.Plate.10",7,7,"t",1,100,37.88,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX010228","E1K.VR.Plate.11",4,10,"t",1,1,12.17,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX010228","E1K.VR.Plate.11",5,10,"t",1,1,12.26,"2900-TO3 E1K VR Plate 11_Ceetox.csv","cort" +"TX010235","TP0001109.Plate.4",6,9,"t",1,100,24.61,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX010235","TP0001109.Plate.4",7,9,"t",1,100,24.86,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX010291","TP0001111.Plate.10",6,5,"t",1,100,68.92,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX010291","TP0001111.Plate.10",7,5,"t",1,100,69.23,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX010297","TP0001113.Plate.17",4,8,"t",1,100,55.47,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX010297","TP0001113.Plate.17",5,8,"t",1,100,64.49,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX010299","E1K.VR.Plate.9",6,10,"t",1,10,2.31,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX010299","E1K.VR.Plate.9",7,10,"t",1,10,2.08,"2900-TO3 E1K VR Plate 9_Ceetox.csv","cort" +"TX010325","TP0001111.Plate.12",4,6,"t",1,100,42.65,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX010325","TP0001111.Plate.12",5,6,"t",1,100,41.63,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX010330","phIII.e1k.Plate.13",2,10,"t",1,5,26.63,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX010330","phIII.e1k.Plate.13",3,10,"t",1,5,21,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX010334","TP0001056.Plate.11",4,4,"t",1,20,26.81,"TP0001056 Plate 11_CeeTox.csv","cort" +"TX010334","TP0001056.Plate.11",5,4,"t",1,20,30.46,"TP0001056 Plate 11_CeeTox.csv","cort" +"TX010353","TP0001109.Plate.1",2,8,"t",1,100,77.94,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX010353","TP0001109.Plate.1",3,8,"t",1,100,81.52,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX010357","TP0001059.Plate.6",6,8,"t",1,10,22.38,"TP0001059 Plate 6_CeeTox.csv","cort" +"TX010357","TP0001059.Plate.6",7,8,"t",1,10,22.07,"TP0001059 Plate 6_CeeTox.csv","cort" +"TX010358","TP0001056.Plate.9",2,9,"t",1,20,16.42,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX010358","TP0001056.Plate.9",3,9,"t",1,20,18.98,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX010366","TP0001111.Plate.11",4,3,"t",1,100,72.53,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX010366","TP0001111.Plate.11",5,3,"t",1,100,65.95,"TP0001111 Plate 11_Ceetox.csv","cort" +"TX010572","TP0001109.Plate.2",2,7,"t",1,100,62.4,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX010572","TP0001109.Plate.2",3,7,"t",1,100,71.97,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX010870","TP0001060.Plate.9",6,5,"t",1,100,25.65,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX010870","TP0001060.Plate.9",7,5,"t",1,100,27.23,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX010993","TP0001112.Plate.15",4,4,"t",1,100,59.54,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX010993","TP0001112.Plate.15",5,4,"t",1,100,54.23,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX011176","TP0001111.Plate.10",4,9,"t",1,100,69.05,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX011176","TP0001111.Plate.10",5,9,"t",1,100,63.59,"TP0001111 Plate 10_Ceetox.csv","cort" +"TX011208","TP0001109.Plate.2",6,8,"t",1,20,61.11,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX011208","TP0001109.Plate.2",7,8,"t",1,20,62.74,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX011231","TP0001114.Plate.22",2,7,"t",1,100,61.37,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX011231","TP0001114.Plate.22",3,7,"t",1,100,65.79,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX011236","phIII.e1k.Plate.14",2,6,"t",1,20,24.6,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX011236","phIII.e1k.Plate.14",3,6,"t",1,20,24.76,"2900-TO3 Phase III E1K Set 2 Plate 14_Cyprotex.csv","cort" +"TX011250","TP0001113.Plate.20",6,3,"t",1,100,93.04,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX011250","TP0001113.Plate.20",7,3,"t",1,100,90.72,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX011264","TP0001111.Plate.12",2,4,"t",1,100,61.51,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX011264","TP0001111.Plate.12",3,4,"t",1,100,68.84,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX011276","TP0001114.Plate.21",6,4,"t",1,50,71.23,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX011276","TP0001114.Plate.21",7,4,"t",1,50,52.95,"TP0001114 Plate 21_Ceetox.csv","cort" +"TX011349","TP0001112.Plate.14",6,8,"t",1,100,64.81,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX011349","TP0001112.Plate.14",7,8,"t",1,100,63.45,"TP0001112 Plate 14_Ceetox.csv","cort" +"TX011371","TP0001113.Plate.20",6,7,"t",1,20,75.41,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX011371","TP0001113.Plate.20",7,7,"t",1,20,67.45,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX011414","phIII.e1k.VR.Plate.2",2,9,"t",1,0.2,54.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX011414","phIII.e1k.VR.Plate.2",3,9,"t",1,0.2,50.91,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX011420","TP0001109.Plate.4",4,5,"t",1,100,63.35,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX011420","TP0001109.Plate.4",5,5,"t",1,100,69.51,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX011425","TP0001111.Plate.9",4,3,"t",1,100,58.47,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX011425","TP0001111.Plate.9",5,3,"t",1,100,56.56,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX011469","TP0001112.Plate.16",2,3,"t",1,100,51.15,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX011469","TP0001112.Plate.16",3,3,"t",1,100,63.95,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX011482","E1K.VR.Plate.10",4,9,"t",1,1,10.94,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX011482","E1K.VR.Plate.10",5,9,"t",1,1,12.67,"2900-TO3 E1K VR Plate 10_Ceetox.csv","cort" +"TX011545","TP0001111.Plate.12",2,10,"t",1,100,48.63,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX011545","TP0001111.Plate.12",3,10,"t",1,100,61.86,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX011564","TP0001109.Plate.1",6,10,"t",1,100,65.16,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX011564","TP0001109.Plate.1",7,10,"t",1,100,79.3,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX011571","TP0001109.Plate.4",4,3,"t",1,50,62.58,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX011571","TP0001109.Plate.4",5,3,"t",1,50,62.9,"TP0001109 Plate 4_Ceetox.csv","cort" +"TX011613","TP0001062.Plate.17",2,6,"t",1,12.7,28.19,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX011613","TP0001062.Plate.17",3,6,"t",1,12.7,30.78,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX011622","PhaseIIe1k.VR.Plate.1",2,5,"t",1,2,52.91,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"TX011622","PhaseIIe1k.VR.Plate.1",3,5,"t",1,2,55.2,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"TX011625","TP0001059.Plate.8",2,8,"t",1,18.88,21.89,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX011625","TP0001059.Plate.8",3,8,"t",1,18.88,24,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX011630","TP0001054.Plate.7",2,6,"t",1,20,2.63,"TP0001055 Plate 7_CeeTox.csv","cort" +"TX011630","TP0001054.Plate.7",3,6,"t",1,20,3.77,"TP0001055 Plate 7_CeeTox.csv","cort" +"TX011636","TP0001056.Plate.12",4,7,"t",1,10,32.62,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX011636","TP0001056.Plate.12",5,7,"t",1,10,35.62,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX011638","TP0001058.Plate.1",6,7,"t",1,10,8.91,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX011638","TP0001058.Plate.1",7,7,"t",1,10,9.31,"TP0001058 Plate 1_Ceetox.csv","cort" +"TX011660","TP0001057.Plate.15",4,4,"t",1,12.5,29.27,"TP0001057 Plate 15_CeeTox.csv","cort" +"TX011660","TP0001057.Plate.15",5,4,"t",1,12.5,26.41,"TP0001057 Plate 15_CeeTox.csv","cort" +"TX011664","TP0001056.Plate.9",4,10,"t",1,20,42.71,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX011664","TP0001056.Plate.9",5,10,"t",1,20,41.36,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX011720","TP0001056.Plate.12",6,8,"t",1,14.5,12.68,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX011720","TP0001056.Plate.12",7,8,"t",1,14.5,12.31,"TP0001056 Plate 12_CeeTox.csv","cort" +"TX011877","phIII.e1k.Plate.13",6,10,"t",1,12,26.66,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011877","phIII.e1k.Plate.13",7,10,"t",1,12,25,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011879","phIII.e1k.Plate.13",4,3,"t",1,10,26,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011879","phIII.e1k.Plate.13",5,3,"t",1,10,26.22,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011884","phIII.e1k.Plate.13",4,4,"t",1,10,25.26,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011884","phIII.e1k.Plate.13",5,4,"t",1,10,26.38,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011886","phIII.e1k.Plate.13",4,5,"t",1,10,24.97,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011886","phIII.e1k.Plate.13",5,5,"t",1,10,27.21,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011893","phIII.e1k.Plate.12",4,3,"t",1,100,24.88,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX011893","phIII.e1k.Plate.12",5,3,"t",1,100,22.18,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX011894","phIII.e1k.Plate.13",4,6,"t",1,10,29.81,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011894","phIII.e1k.Plate.13",5,6,"t",1,10,23.6,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011903","phIII.e1k.Plate.13",4,7,"t",1,10,25.84,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011903","phIII.e1k.Plate.13",5,7,"t",1,10,26.8,"2900-TO3 Phase III E1K Set 2 Plate 13_Cyprotex.csv","cort" +"TX011905","phIII.e1k.Plate.11",4,9,"t",1,100,33.07,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX011905","phIII.e1k.Plate.11",5,9,"t",1,100,31.45,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX011910","phIII.e1k.Plate.2",2,3,"t",1,100,32.89,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"TX011910","phIII.e1k.Plate.2",3,3,"t",1,100,21.84,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"TX012209","PhaseIIe1k.VR.Plate.3",6,5,"t",1,2,37.77,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"TX012209","PhaseIIe1k.VR.Plate.3",7,5,"t",1,2,37.37,"2900-TO3 Phase II and E1K VR2 Plate 3_Ceetox.csv","cort" +"TX012211","TP0001055.Plate.6",6,9,"t",1,20,3.72,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX012211","TP0001055.Plate.6",7,9,"t",1,20,3.51,"TP0001055 Plate 6_CeeTox.csv","cort" +"TX012263","TP0001062.Plate.17",6,4,"t",1,20,23.13,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX012263","TP0001062.Plate.17",7,4,"t",1,20,26.81,"TP0001062_Plate_17_Ceetox.csv","cort" +"TX012264","PhaseII.VR.Plate.2",2,6,"t",1,2,13.78,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX012264","PhaseII.VR.Plate.2",3,6,"t",1,2,16.26,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX012265","PhaseII.VR.Plate.1",6,10,"t",1,1.63,14.36,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"TX012265","PhaseII.VR.Plate.1",7,10,"t",1,1.63,13.71,"2900-TO3 Phase II VR Plate 1_Ceetox.csv","cort" +"TX012266","PhaseII.VR.Plate.2",6,5,"t",1,2,2.91,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX012266","PhaseII.VR.Plate.2",7,5,"t",1,2,3.25,"2900-TO3 Phase II VR Plate 2_Ceetox.csv","cort" +"TX012267","TP0001060.Plate.12",4,8,"t",1,20,22.53,"TP0001060 Plate 12_CeeTox.csv","cort" +"TX012267","TP0001060.Plate.12",5,8,"t",1,20,20.62,"TP0001060 Plate 12_CeeTox.csv","cort" +"TX012268","TP0001061.Plate.15",4,4,"t",1,20,28.16,"TP0001061 Plate 15_CeeTox.csv","cort" +"TX012268","TP0001061.Plate.15",5,4,"t",1,20,21.57,"TP0001061 Plate 15_CeeTox.csv","cort" +"TX012269","PhaseII.VR.Plate.5",2,6,"t",1,2,6.99,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"TX012269","PhaseII.VR.Plate.5",3,6,"t",1,2,5.89,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"TX012270","TP0001057.Plate.13",6,3,"t",1,18,27.99,"TP0001057 Plate 13_CeeTox.csv","cort" +"TX012270","TP0001057.Plate.13",7,3,"t",1,18,28.25,"TP0001057 Plate 13_CeeTox.csv","cort" +"TX012271","TP0001058.Plate.2",2,4,"t",1,20,25.73,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX012271","TP0001058.Plate.2",3,4,"t",1,20,19.65,"TP0001058 Plate 2_CeeTox.csv","cort" +"TX012272","PhaseIIe1k.VR.Plate.1",4,5,"t",1,2,50.45,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"TX012272","PhaseIIe1k.VR.Plate.1",5,5,"t",1,2,51.99,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"TX012273","TP0001057.Plate.16",4,10,"t",1,20,20.87,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX012273","TP0001057.Plate.16",5,10,"t",1,20,24.8,"TP0001057 Plate 16_CeeTox.csv","cort" +"TX012274","TP0001060.Plate.9",4,7,"t",1,20,25.28,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX012274","TP0001060.Plate.9",5,7,"t",1,20,24.96,"TP0001060 Plate 9_CeeTox.csv","cort" +"TX012275","TP0001059.Plate.6",6,7,"t",1,20,15.65,"TP0001059 Plate 6_CeeTox.csv","cort" +"TX012275","TP0001059.Plate.6",7,7,"t",1,20,17.81,"TP0001059 Plate 6_CeeTox.csv","cort" +"TX012276","PhaseIIe1k.VR.Plate.1",6,10,"t",1,1.86,69.78,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"TX012276","PhaseIIe1k.VR.Plate.1",7,10,"t",1,1.86,66.54,"2900-TO3 Phase II and E1K VR2 Plate 1_Ceetox.csv","cort" +"TX012277","phIII.e1k.Plate.3",6,6,"t",1,20,16.32,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX012277","phIII.e1k.Plate.3",7,6,"t",1,20,15.21,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX012279","phIII.e1k.Plate.3",6,7,"t",1,20,26.76,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX012279","phIII.e1k.Plate.3",7,7,"t",1,20,22.12,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX012284","phIII.e1k.VR.Plate.1",2,3,"t",1,0.2,42.15,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX012284","phIII.e1k.VR.Plate.1",3,3,"t",1,0.2,40.46,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX012286","phIII.e1k.Plate.11",2,4,"t",1,100,24.85,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX012286","phIII.e1k.Plate.11",3,4,"t",1,100,28.39,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX012287","phIII.e1k.Plate.16",6,3,"t",1,100,23.09,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" +"TX012287","phIII.e1k.Plate.16",7,3,"t",1,100,23.8,"2900-TO3 Phase III E1K Set 2 Plate 16_Cyprotex.csv","cort" +"TX012290","phIII.e1k.VR.Plate.2",6,6,"t",0,10,NA,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX012290","phIII.e1k.VR.Plate.2",7,6,"t",1,10,41.88,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX012291","phIII.e1k.Plate.3",6,9,"t",1,20,15.81,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX012291","phIII.e1k.Plate.3",7,9,"t",1,20,11.68,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX012293","TP0001113.Plate.18",2,5,"t",1,100,36.03,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX012293","TP0001113.Plate.18",3,5,"t",1,100,55.07,"TP0001113 Plate 18_Ceetox.csv","cort" +"TX012294","TP0001112.Plate.16",2,5,"t",1,100,46.07,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX012294","TP0001112.Plate.16",3,5,"t",1,100,57.71,"TP0001112 Plate 16_Ceetox.csv","cort" +"TX012295","TP0001114.Plate.23",4,3,"t",1,100,57.24,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX012295","TP0001114.Plate.23",5,3,"t",1,100,64.62,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX012297","TP0001111.Plate.9",4,4,"t",1,100,66.36,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX012297","TP0001111.Plate.9",5,4,"t",1,100,57.9,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX012299","TP0001112.Plate.15",4,6,"t",1,100,60.31,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX012299","TP0001112.Plate.15",5,6,"t",1,100,64.27,"TP0001112 Plate 15_Ceetox.csv","cort" +"TX012300","TP0001112.Plate.13",2,3,"t",1,100,66.81,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX012300","TP0001112.Plate.13",3,3,"t",1,100,70.46,"TP0001112 Plate 13_Ceetox.csv","cort" +"TX012301","TP0001113.Plate.20",4,5,"t",1,100,59.48,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX012301","TP0001113.Plate.20",5,5,"t",1,100,65.27,"TP0001113 Plate 20_Ceetox.csv","cort" +"TX012302","TP0001111.Plate.12",6,3,"t",1,100,62.08,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX012302","TP0001111.Plate.12",7,3,"t",1,100,63.92,"TP0001111 Plate 12_Ceetox.csv","cort" +"TX012303","TP0001113.Plate.17",4,5,"t",1,3.31,53.27,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX012303","TP0001113.Plate.17",5,5,"t",1,3.31,54.39,"TP0001113 Plate 17_Ceetox.csv","cort" +"TX012304","TP0001109.Plate.1",2,7,"t",1,100,58.78,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX012304","TP0001109.Plate.1",3,7,"t",1,100,70.77,"TP0001109 Plate 1_Ceetox.csv","cort" +"TX012305","TP0001111.Plate.9",6,7,"t",1,100,66.4,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX012305","TP0001111.Plate.9",7,7,"t",1,100,65.58,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX012306","TP0001111.Plate.9",6,8,"t",1,100,69.55,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX012306","TP0001111.Plate.9",7,8,"t",1,100,60.54,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX012307","TP0001114.Plate.23",6,6,"t",1,100,63.86,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX012307","TP0001114.Plate.23",7,6,"t",1,100,62.28,"TP0001114 Plate 23_Ceetox.csv","cort" +"TX012308","TP0001111.Plate.9",4,10,"t",1,100,59.95,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX012308","TP0001111.Plate.9",5,10,"t",1,100,70.15,"TP0001111 Plate 9_Ceetox.csv","cort" +"TX012309","TP0001113.Plate.19",4,9,"t",1,100,58.04,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX012309","TP0001113.Plate.19",5,9,"t",1,100,61.99,"TP0001113 Plate 19_Ceetox.csv","cort" +"TX012310","TP0001110.Plate.7",4,9,"t",1,100,59,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX012310","TP0001110.Plate.7",5,9,"t",1,100,61.61,"TP0001110 Plate 7_Ceetox.csv","cort" +"TX012311","TP0001109.Plate.2",6,5,"t",1,100,63.82,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX012311","TP0001109.Plate.2",7,5,"t",1,100,59.9,"TP0001109 Plate 2_Ceetox.csv","cort" +"TX012312","TP0001114.Plate.22",2,8,"t",1,100,60.74,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX012312","TP0001114.Plate.22",3,8,"t",1,100,63.27,"TP0001114 Plate 22_Ceetox.csv","cort" +"TX012325","TP0000882.Plate.1",2,5,"t",1,10,10.1050178130358,"TP0000882 Plate 1A.xlsx","cort" +"TX012325","TP0000882.Plate.1",3,5,"t",1,10,14.9682398960464,"TP0000882 Plate 1A.xlsx","cort" +"TX012337","phIII.e1k.Plate.12",6,5,"t",1,10,9.01,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX012337","phIII.e1k.Plate.12",7,5,"t",1,10,9.91,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX012340","20120829.Plate.1",2,10,"t",1,0.1,10.6955203886154,"20120829 Plate 1A.xlsx","cort" +"TX012340","20120829.Plate.1",3,10,"t",1,0.1,10.8716969707907,"20120829 Plate 1A.xlsx","cort" +"TX012521","TP0001056.Plate.9",6,7,"t",1,20,25.02,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX012521","TP0001056.Plate.9",7,7,"t",1,20,25.78,"TP0001056 Plate 9_CeeTox.csv","cort" +"TX012537","TP0001054.Plate.1",6,4,"t",1,13.4,20.55,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX012537","TP0001054.Plate.1",7,4,"t",1,13.4,20.57,"TP0001054 Plate 1_CeeTox.csv","cort" +"TX012553","PhaseII.VR.Plate.5",2,5,"t",1,0.76,10.83,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"TX012553","PhaseII.VR.Plate.5",3,5,"t",1,0.76,10.2,"2900-TO3 Phase II VR Plate 5_Ceetox.csv","cort" +"TX012554","TP0001059.Plate.8",4,9,"t",1,6.4,17.18,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX012554","TP0001059.Plate.8",5,9,"t",1,6.4,21.13,"TP0001059 Plate 8_CeeTox.csv","cort" +"TX012606","TP0000882.Plate.2",4,6,"t",1,20,0.41,"TP0000882 Plate 2B.xlsx","cort" +"TX012606","TP0000882.Plate.2",5,6,"t",1,20,0.41,"TP0000882 Plate 2B.xlsx","cort" +"TX012611","TP0001054.Plate.8",4,4,"t",1,10,23.68,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX012611","TP0001054.Plate.8",5,4,"t",1,10,22.36,"TP0001055 Plate 8_CeeTox.csv","cort" +"TX012622","phIII.e1k.VR.Plate.2",6,3,"t",1,0.05,52.46,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX012622","phIII.e1k.VR.Plate.2",7,3,"t",1,0.05,47.61,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX012623","phIII.e1k.Plate.9",4,9,"t",1,5,14.81,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012623","phIII.e1k.Plate.9",5,9,"t",1,5,13.62,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012627","phIII.e1k.Plate.7",2,5,"t",1,5,24.85,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" +"TX012627","phIII.e1k.Plate.7",3,5,"t",1,5,27.18,"2900-TO3 Phase III E1K Set 2 Plate 7_Cyprotex.csv","cort" +"TX012628","phIII.e1k.Plate.9",4,7,"t",1,5,51.76,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012628","phIII.e1k.Plate.9",5,7,"t",1,5,55.19,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012631","phIII.e1k.Plate.9",4,10,"t",1,10,25.85,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012631","phIII.e1k.Plate.9",5,10,"t",1,10,23.97,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012641","phIII.e1k.VR.Plate.2",4,5,"t",1,10,32.13,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX012641","phIII.e1k.VR.Plate.2",5,5,"t",1,10,30.85,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX012643","phIII.e1k.Plate.8",6,10,"t",1,100,29.12,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012643","phIII.e1k.Plate.8",7,10,"t",1,100,28.6,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012645","phIII.e1k.Plate.8",6,9,"t",1,100,24.56,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012645","phIII.e1k.Plate.8",7,9,"t",1,100,19.36,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012646","phIII.e1k.Plate.8",6,3,"t",1,100,26.81,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012646","phIII.e1k.Plate.8",7,3,"t",1,100,23.82,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012647","phIII.e1k.Plate.9",2,10,"t",1,100,25.68,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012647","phIII.e1k.Plate.9",3,10,"t",1,100,27.51,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012648","phIII.e1k.Plate.9",2,9,"t",1,100,28.12,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012648","phIII.e1k.Plate.9",3,9,"t",1,100,26.71,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012649","phIII.e1k.Plate.8",4,3,"t",1,100,20.56,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012649","phIII.e1k.Plate.8",5,3,"t",1,100,22.47,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012651","phIII.e1k.Plate.3",6,10,"t",1,20,28.79,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX012651","phIII.e1k.Plate.3",7,10,"t",1,20,23.39,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX012652","phIII.e1k.Plate.8",6,8,"t",1,100,27.15,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012652","phIII.e1k.Plate.8",7,8,"t",1,100,28.02,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012653","phIII.e1k.Plate.8",6,7,"t",1,100,28.66,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012653","phIII.e1k.Plate.8",7,7,"t",1,100,23.35,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012654","phIII.e1k.Plate.8",6,6,"t",1,50,31.67,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012654","phIII.e1k.Plate.8",7,6,"t",1,50,27.53,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012655","phIII.e1k.Plate.8",6,5,"t",1,100,23.51,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012655","phIII.e1k.Plate.8",7,5,"t",1,100,23.78,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012656","phIII.e1k.Plate.8",6,4,"t",1,100,26.83,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012656","phIII.e1k.Plate.8",7,4,"t",1,100,27.19,"2900-TO3 Phase III E1K Set 2 Plate 8_Cyprotex.csv","cort" +"TX012657","phIII.e1k.VR.Plate.2",6,4,"t",1,10,49.88,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX012657","phIII.e1k.VR.Plate.2",7,4,"t",1,10,54.11,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 2_Cyprotex.csv","cort" +"TX012658","phIII.e1k.Plate.9",2,7,"t",1,100,25.13,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012658","phIII.e1k.Plate.9",3,7,"t",1,100,25.1,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012659","phIII.e1k.Plate.9",2,6,"t",1,100,38.4,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012659","phIII.e1k.Plate.9",3,6,"t",1,100,29.01,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012660","phIII.e1k.Plate.9",2,5,"t",1,100,22.48,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012660","phIII.e1k.Plate.9",3,5,"t",1,100,25.55,"2900-TO3 Phase III E1K Set 2 Plate 9_Cyprotex.csv","cort" +"TX012670","phIII.e1k.VR.Plate.3",6,7,"t",1,2,77.19,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX012670","phIII.e1k.VR.Plate.3",7,7,"t",1,2,76.37,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 3_Cyprotex.csv","cort" +"TX013433","phIII.e1k.Plate.3",4,3,"t",1,20,23.03,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX013433","phIII.e1k.Plate.3",5,3,"t",1,20,22.8,"2900-TO3 Phase III E1K Set 2 Plate 3_Cyprotex.csv","cort" +"TX013434","phIII.e1k.Plate.11",2,3,"t",1,100,22.68,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX013434","phIII.e1k.Plate.11",3,3,"t",1,100,29.67,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX013435","phIII.e1k.Plate.11",2,5,"t",1,100,32.59,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX013435","phIII.e1k.Plate.11",3,5,"t",1,100,31.4,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX013437","phIII.e1k.Plate.12",6,7,"t",1,20,21.21,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX013437","phIII.e1k.Plate.12",7,7,"t",1,20,21.59,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX013438","phIII.e1k.Plate.12",6,6,"t",1,20,25.03,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX013438","phIII.e1k.Plate.12",7,6,"t",1,20,26.98,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX013448","phIII.e1k.Plate.11",4,10,"t",1,100,28.5,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX013448","phIII.e1k.Plate.11",5,10,"t",1,100,25.51,"2900-TO3 Phase III E1K Set 2 Plate 11_Cyprotex.csv","cort" +"TX013465","phIII.e1k.Plate.17",2,4,"t",1,99.8,21.04,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"TX013465","phIII.e1k.Plate.17",3,4,"t",1,99.8,21.68,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"TX013466","phIII.e1k.VR.Plate.1",4,6,"t",1,1,49.29,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX013466","phIII.e1k.VR.Plate.1",5,6,"t",1,1,51.32,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX013470","phIII.e1k.Plate.17",2,3,"t",1,99.8,21,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"TX013470","phIII.e1k.Plate.17",3,3,"t",1,99.8,18.77,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" +"TX013472","phIII.e1k.Plate.12",6,4,"t",1,20,24.28,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX013472","phIII.e1k.Plate.12",7,4,"t",1,20,26.08,"2900-TO3 Phase III E1K Set 2 Plate 12_Cyprotex.csv","cort" +"TX013474","phIII.e1k.VR.Plate.1",2,5,"t",1,10,49.71,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX013474","phIII.e1k.VR.Plate.1",3,5,"t",1,10,58.11,"2900-TO3 Phase III E1K Set 2 Viability Repeats Plate 1_Cyprotex.csv","cort" +"TX013481","phIII.e1k.Plate.2",6,6,"t",1,100,25.13,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"TX013481","phIII.e1k.Plate.2",7,6,"t",1,100,22.39,"2900-TO3 Phase III E1K Set 2 Plate 2_Cyprotex.csv","cort" +"TX013482","phIII.e1k.Plate.17",2,6,"t",1,100,22.56,"2900-TO3 Phase III E1K Set 2 Plate 17_Cyprotex.csv","cort" 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00:00:00','dfiler.dfiler.dfiler'),(2,'log2','log2 all raw data','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'rmneg','remove negative values prior to logging values','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'rmzero','remove 0 values prior to logging values','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'mult25','multiply values by 25','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'mult100','multiply values by 100','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(10,'log10','log10 the raw data','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(11,'negshift','Shifts all data to be positive (new min=1)','2014-10-06 18:47:15','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(12,'mult2.5','multiply values by 2.5','2014-11-06 15:36:15','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(13,'mult3','multiply values by 3','2014-11-06 15:36:34','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(14,'mult6','multiply values by 6','2014-11-06 20:53:33','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(17,'sub100','100 minus cval (centers data around zero if prenormalized starting at 100 and going down to zero)','2015-10-05 16:42:21','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02\r\n'); -/*!40000 ALTER TABLE `mc2_methods` ENABLE KEYS */; -UNLOCK TABLES; - --- --- Table structure for table `mc3` --- - -DROP TABLE IF EXISTS `mc3`; -/*!40101 SET @saved_cs_client = @@character_set_client */; -/*!40101 SET character_set_client = utf8 */; -CREATE TABLE `mc3` ( - `m3id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, - `aeid` bigint(20) unsigned DEFAULT NULL, - `m0id` bigint(20) unsigned DEFAULT NULL, - `acid` bigint(20) unsigned DEFAULT NULL, - `m1id` bigint(20) unsigned DEFAULT NULL, - `m2id` bigint(20) unsigned DEFAULT NULL, - `bval` double DEFAULT NULL, - `pval` double DEFAULT NULL, - `logc` double DEFAULT NULL, - `resp` double NOT NULL, - `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, - `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', - `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, - PRIMARY KEY (`m3id`), - UNIQUE KEY `m3id` (`m3id`), - KEY `aeid` (`aeid`) USING BTREE, - KEY `acid` (`acid`) USING BTREE, - KEY `m0id` (`m0id`) USING BTREE, - KEY `m1id` (`m1id`) USING BTREE, - KEY `m2id` (`m2id`) USING BTREE -) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; -/*!40101 SET character_set_client = @saved_cs_client */; - --- --- Dumping data for table `mc3` --- - -LOCK TABLES `mc3` WRITE; -/*!40000 ALTER TABLE `mc3` DISABLE KEYS */; -/*!40000 ALTER TABLE `mc3` ENABLE KEYS */; -UNLOCK TABLES; - --- --- Table structure for table `mc3_aeid` --- - -DROP TABLE IF EXISTS `mc3_aeid`; -/*!40101 SET @saved_cs_client = @@character_set_client */; -/*!40101 SET character_set_client = utf8 */; -CREATE TABLE `mc3_aeid` ( - `mc3_mthd_id` int(11) NOT NULL, - `aeid` int(11) NOT NULL, - `exec_ordr` int(11) NOT NULL DEFAULT '1', - `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, - `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', - `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, - PRIMARY KEY (`mc3_mthd_id`,`aeid`), - UNIQUE KEY `mc3_aeid_unique_ordr` (`aeid`, `exec_ordr`) -) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; -/*!40101 SET character_set_client = @saved_cs_client */; - --- --- Dumping data for table `mc3_aeid` --- - -LOCK TABLES `mc3_aeid` WRITE; -/*!40000 ALTER TABLE `mc3_aeid` DISABLE KEYS */; -/*!40000 ALTER TABLE `mc3_aeid` ENABLE KEYS */; -UNLOCK TABLES; - --- --- Table structure for table `mc3_methods` --- - -DROP TABLE IF EXISTS `mc3_methods`; -/*!40101 SET @saved_cs_client = @@character_set_client */; -/*!40101 SET character_set_client = utf8 */; -CREATE TABLE `mc3_methods` ( - `mc3_mthd_id` int(11) NOT NULL AUTO_INCREMENT, - `mc3_mthd` varchar(50) COLLATE latin1_general_ci NOT NULL, - `desc` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, - `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, - `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', - `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, - PRIMARY KEY (`mc3_mthd_id`), - UNIQUE KEY `mc3_method` (`mc3_mthd`) -) ENGINE=MyISAM AUTO_INCREMENT=39 DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; -/*!40101 SET character_set_client = @saved_cs_client */; - --- --- Dumping data for table `mc3_methods` --- - -LOCK TABLES `mc3_methods` WRITE; -/*!40000 ALTER TABLE `mc3_methods` DISABLE KEYS */; -INSERT INTO `mc3_methods` VALUES (1,'none','apply no level 3 method','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'bval.apid.lowconc.med','plate-wise baseline based on low conc median value','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'pval.apid.medpcbyconc.max','plate-wise median response of positive control (max)','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'pval.apid.medpcbyconc.min','plate-wise median response of positive control (min)','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'resp.pc','response percent activity','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'resp.multneg1','multiply the response by -1','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'resp.log2','take the log base 2 of the response','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'resp.mult25','multiply the response by 25','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(9,'resp.fc','calculate response as fold-change','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(11,'bval.apid.nwlls.med','plate-wise baseline based on neutral ctrl median value','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(12,'bval.spid.lowconc.med','sample-wise baseline based on low conc median value','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(13,'pval.apid.pwlls.med','plate-wise meidan based on positive control, single dose','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(14,'pval.apid.mwlls.med','plate-wise meidan based on negative control, single dose','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(15,'pval.apid.medncbyconc.min','plate-wise meidan based on negative control, (min)','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(16,'bval.apid.twlls.med','Take the median cval of the t wells, by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(17,'bval.apid.nwllslowconc.med','Take the median cval of the n wells and the first two concentrations, by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(18,'resp.shiftneg.3bmad','Make values below baseline zero.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(19,'resp.blineshift.3bmad.repi','Do baseline correction by repi, with a window of 3*bmad','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(20,'resp.blineshift.50.repi','Do baseline correction by repi, with a window of 50','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(21,'resp.blineshift.50.spid','Do baseline correction by spid, with a window of 50','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(23,'resp.blineshift.3bmad.spid','Do baseline correction by repi, with a window of 3*bmad','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(24,'bval.apid.tn.med','Take the median cval of the t and n wells, by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(25,'pval.apid.pmv.min','Calculate the median p, m, and v values by concentration, then take the minimum by apid.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(26,'pval.apid.pmv.max','Calculate the median p, m, and v values by concentration, then take the maximum by apid.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(27,'pval.apid.f.max','Calculate the median of f values by concentration, then take the maximum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(28,'pval.apid.f.min','Calculate the median of f values by concentration, then take the minimum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(29,'pval.apid.p.min','Calculate the median of p values by concentration, then take the minimum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(30,'pval.apid.p.max','Calculate the median of p values by concentration, then take the maximum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(31,'pval.apid.v.min','Calculate the median of v values by concentration, then take the minimum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(32,'pval.zero','Set pval to 0.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(33,'resp.shiftneg.6bmad','Shift response values falling below -6 * bmad to 0.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(34,'resp.shiftneg.10bmad','Shift response values falling below -10 * bmad to 0.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(35,'resp.logfc','Calculate the response as a fold change over baseline for logged values','2014-10-02 18:18:40','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(36,'resp.scale.mad.log2fc','Scale the resp data by the ratio of log2(1.2) over 3* baseline mad of the unscaled resp values','2015-02-23 18:58:52','0000-00-00 00:00:00',''),(37,'resp.scale.quant.log2fc','Scale resp such that 20% of the maximum resp equals log2(1.2)','2015-03-13 20:44:05','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(38,'bval.apid.nwllstcwllslowconc.med','plate-wise baseline based on neutral and t and c well low conc','2015-09-16 19:22:54','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'); -/*!40000 ALTER TABLE `mc3_methods` ENABLE KEYS */; -UNLOCK TABLES; - --- --- Table structure for table `mc4` --- - -DROP TABLE IF EXISTS `mc4`; -/*!40101 SET @saved_cs_client = @@character_set_client */; -/*!40101 SET character_set_client = utf8 */; -CREATE TABLE `mc4` ( - `m4id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, - `aeid` bigint(20) unsigned NOT NULL, - `spid` varchar(50) COLLATE latin1_general_ci NOT NULL, - `bmad` double NOT NULL, - `resp_max` double NOT NULL, - `resp_min` double NOT NULL, - `max_mean` double NOT NULL, - `max_mean_conc` double NOT NULL, - `max_med` double NOT NULL, - `max_med_conc` double NOT NULL, - `logc_max` double NOT NULL, - `logc_min` double NOT NULL, - `cnst` tinyint(1) DEFAULT NULL, - `hill` tinyint(1) DEFAULT NULL, - `hcov` tinyint(1) 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data for table `mc5_methods` --- - -LOCK TABLES `mc5_methods` WRITE; -/*!40000 ALTER TABLE `mc5_methods` DISABLE KEYS */; -INSERT INTO `mc5_methods` VALUES (1,'bmad3','Add a cutoff value of 3*bmad.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'pc20','Add a cutoff value of 20.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'log2_1.2','Add a cutoff value of log2(1.2).','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'log10_1.2','Add a cutoff value of log10(1.2).','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'bmad5','Add a cutoff value of 5*bmad.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'bmad6','Add a cutoff value of 6*bmad.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'bmad10','Add a cutoff value of 10*bmad.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'maxmed20pct','Add a cutoff value of 20% of the max of max_med','2015-05-06 13:08:50','0000-00-00 00:00:00','kconnors.kconnors.kconnors'),(9,'pc70','70% cutoff','2015-07-28 19:06:35','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(10,'pc50','50% cutoff','2015-07-28 19:08:01','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(11,'log2_2','log2 of 2 fold change cutoff','2015-07-28 19:08:01','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(12,'log10_2','log10 of 2 fold change cutoff','2015-07-28 19:08:01','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'); -/*!40000 ALTER TABLE `mc5_methods` ENABLE KEYS */; -UNLOCK TABLES; - --- --- Table structure for table `mc6` --- - -DROP TABLE IF EXISTS `mc6`; -/*!40101 SET @saved_cs_client = @@character_set_client */; -/*!40101 SET character_set_client = utf8 */; -CREATE TABLE `mc6` ( - `m6id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, - `m5id` bigint(20) unsigned NOT NULL, - `m4id` bigint(20) unsigned NOT NULL, - `aeid` bigint(20) unsigned NOT NULL, - `mc6_mthd_id` bigint(20) unsigned 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NULL AUTO_INCREMENT, - `mc6_mthd` varchar(50) COLLATE latin1_general_ci NOT NULL, - `desc` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, - `nddr` tinyint(1) NOT NULL DEFAULT '0', - `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, - `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', - `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, - PRIMARY KEY (`mc6_mthd_id`), - UNIQUE KEY `mc6_method` (`mc6_mthd`) -) ENGINE=MyISAM AUTO_INCREMENT=18 DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; -/*!40101 SET character_set_client = @saved_cs_client */; - --- --- Dumping data for table `mc6_methods` --- - -LOCK TABLES `mc6_methods` WRITE; -/*!40000 ALTER TABLE `mc6_methods` DISABLE KEYS */; -INSERT INTO `mc6_methods` VALUES (1,'row.dev.up','Look for row-wise plate effects, increase',1,'2014-07-28 18:03:41','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'row.dev.dn','Look for row-wise plate effects, decrease',1,'2014-07-28 18:03:54','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'col.dev.dn','Look for column-wise plate effects, decrease',1,'2014-07-28 18:04:08','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'col.dev.up','Look for column-wise plate effects, increase',1,'2014-07-28 18:04:17','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'plate.flare','Look for plate flare effects',1,'2014-07-28 18:04:27','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'singlept.hit.high','Look for single point hits with activity only at the highest conc tested',0,'2014-07-28 18:06:05','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'singlept.hit.mid','Look for signle point hits with activity not at highest conc tested',0,'2014-07-28 18:06:51','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'multipoint.neg','Look for inactives with multiple medians above baseline',0,'2014-07-28 18:08:42','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(9,'pintool','Look for pintool carryover issues',1,'2014-07-28 18:09:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(10,'noise','Look for noisy curves, relative to the assay',0,'2014-07-28 18:09:41','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(11,'border.hit','Look for actives with borderline activity',0,'2014-07-28 18:10:14','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(12,'border.miss','Look for inactives with borderline activity',0,'2014-07-28 18:10:21','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(13,'plate.interlace','Look for interlaced chemical-plate effects',1,'2014-08-21 16:13:26','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(14,'rep.mismatch','Look for mismatched techinal replicates',1,'2014-08-21 16:16:44','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(15,'gnls.lowconc','Look for low concentration gnls winners',0,'2014-08-21 16:21:32','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(16,'overfit.hit','Flag hit-calls that would get changed after doing the small N correction to the aic values.',0,'2014-09-16 15:51:14','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(17,'efficacy.50','Flag hit-calls with efficacy values less than 50% -- intended for biochemical assays.',0,'2014-09-16 15:51:58','0000-00-00 00:00:00','dfiler.dfiler.dfiler'); -/*!40000 ALTER TABLE `mc6_methods` ENABLE KEYS */; -UNLOCK TABLES; - --- --- Table structure for table `organism` --- - -DROP TABLE IF EXISTS `organism`; -/*!40101 SET @saved_cs_client = @@character_set_client */; -/*!40101 SET character_set_client = utf8 */; -CREATE TABLE `organism` ( - `organism_id` int(11) NOT NULL AUTO_INCREMENT, - `ncbi_taxon_id` int(11) DEFAULT NULL, - `taxon_name` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, - `common_name` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, - `lineage` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, - PRIMARY KEY (`organism_id`), - UNIQUE KEY `ncbi_taxon_id` (`ncbi_taxon_id`) -) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; -/*!40101 SET character_set_client = @saved_cs_client */; - --- 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00:00:00','dfiler.dfiler.dfiler'),(5,'pval.apid.mwlls.med','plate-wise meidan based on negative control, single dose','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'pval.apid.medpcbyconc.max','plate-wise median response of positive control (max)','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'pval.apid.medpcbyconc.min','plate-wise median response of positive control (min)','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'pval.apid.medncbyconc.min','plate-wise meidan based on negative control, (min)','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(9,'pval.zero','Set pval to 0.','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(10,'resp.pc','response percent activity','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(11,'resp.fc','calculate response as fold-change','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(12,'resp.logfc','Calculate the response as a fold change over baseline for logged values','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(13,'resp.log2','take the log base 2 of the response','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(14,'none','apply no level 2 method','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(16,'resp.multneg1','multiply response values by negative 1','2015-05-29 14:27:45','0000-00-00 00:00:00','Akarmaus.Akarmaus.Akarmaus'),(17,'pval.apid.or.aeid.pwlls.med','calculates pval first based on p wells by plate and then for any plates missing p wells it calculates a pval by median of pval for all other plates','2015-09-30 18:43:40','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'); -/*!40000 ALTER TABLE `sc1_methods` ENABLE KEYS */; -UNLOCK TABLES; - --- --- Table structure for table `sc2` --- - -DROP TABLE IF EXISTS `sc2`; -/*!40101 SET @saved_cs_client = 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00:00:00','dfiler.dfiler.dfiler'),(4,'log10_1.2','Add a cutoff value of log10(1.2).','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'bmad5','Add a cutoff value of 5*bmad.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'bmad6','Add a cutoff value of 6*bmad.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'bmad10','Add a cutoff value of 10*bmad.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'pc30orbmad3','Add a cutoff value of either 30 or 3*bmad, whichever is less.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(9,'pc0.88','Add a cutoff value of 0.88.','2015-05-14 17:25:38','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(10,'log2_1.5','Add a cutoff value of log2(1.5).','2015-05-14 17:25:38','0000-00-00 00:00:00','dfiler.dfiler.dfiler'); -/*!40000 ALTER TABLE `sc2_methods` ENABLE KEYS */; -UNLOCK TABLES; - --- --- Table structure for table `technological_target` --- - 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NULL, + `gene_symbol` varchar(32) COLLATE latin1_general_ci DEFAULT NULL, + `description` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `uniprot_accession_number` varchar(32) COLLATE latin1_general_ci DEFAULT NULL, + `organism_id` int(11) DEFAULT NULL, + `track_status` varchar(32) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`gene_id`), + UNIQUE KEY `entrez_gene_id` (`entrez_gene_id`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `gene` +-- + +LOCK TABLES `gene` WRITE; +/*!40000 ALTER TABLE `gene` DISABLE KEYS */; +/*!40000 ALTER TABLE `gene` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `intended_target` +-- + +DROP TABLE IF EXISTS `intended_target`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `intended_target` ( + `aeid` int(11) DEFAULT NULL, + `target_id` int(11) DEFAULT NULL, + `source` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + KEY `aeid_idx` (`aeid`), + KEY `target_id_idx` (`target_id`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `intended_target` +-- + +LOCK TABLES `intended_target` WRITE; +/*!40000 ALTER TABLE `intended_target` DISABLE KEYS */; +/*!40000 ALTER TABLE `intended_target` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc0` +-- + +DROP TABLE IF EXISTS `mc0`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc0` ( + `m0id` bigint(20) NOT NULL AUTO_INCREMENT, + `acid` bigint(20) unsigned NOT NULL DEFAULT '0', + `spid` varchar(50) COLLATE latin1_general_ci NOT NULL, + `apid` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + `rowi` int(11) DEFAULT NULL, + `coli` int(11) DEFAULT NULL, + `wllt` varchar(1) COLLATE latin1_general_ci NOT NULL, + `wllq` smallint(1) NOT NULL, + `conc` double DEFAULT NULL, + `rval` double DEFAULT NULL, + `srcf` varchar(255) COLLATE latin1_general_ci NOT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`m0id`), + KEY `wllt` (`wllt`) USING BTREE, + KEY `acid` (`acid`), + KEY `spid` (`spid`) USING BTREE, + KEY `SPID/ACID` (`acid`,`spid`), + KEY `srcf` (`srcf`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc0` +-- + +LOCK TABLES `mc0` WRITE; +/*!40000 ALTER TABLE `mc0` DISABLE KEYS */; +/*!40000 ALTER TABLE `mc0` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc1` +-- + +DROP TABLE IF EXISTS `mc1`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc1` ( + `m1id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, + `m0id` bigint(20) unsigned DEFAULT NULL, + `acid` bigint(20) unsigned DEFAULT NULL, + `cndx` int(11) DEFAULT NULL, + `repi` int(11) DEFAULT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`m1id`), + UNIQUE KEY `m1id` (`m1id`), + KEY `acid` (`acid`) USING BTREE, + KEY `m0id` (`m0id`) USING BTREE +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc1` +-- + +LOCK TABLES `mc1` WRITE; +/*!40000 ALTER TABLE `mc1` DISABLE KEYS */; +/*!40000 ALTER TABLE `mc1` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc2` +-- + +DROP TABLE IF EXISTS `mc2`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc2` ( + `m2id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, + `m0id` bigint(20) unsigned DEFAULT NULL, + `acid` bigint(20) unsigned DEFAULT NULL, + `m1id` bigint(20) unsigned DEFAULT NULL, + `cval` double NOT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`m2id`), + UNIQUE KEY `m2id` (`m2id`), + KEY `acid` (`acid`) USING BTREE, + KEY `m0id` (`m0id`) USING BTREE, + KEY `m1id` (`m1id`) USING BTREE +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc2` +-- + +LOCK TABLES `mc2` WRITE; +/*!40000 ALTER TABLE `mc2` DISABLE KEYS */; +/*!40000 ALTER TABLE `mc2` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc2_acid` +-- + +DROP TABLE IF EXISTS `mc2_acid`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc2_acid` ( + `mc2_mthd_id` int(11) NOT NULL, + `acid` int(11) NOT NULL, + `exec_ordr` int(11) NOT NULL DEFAULT '1', + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, + PRIMARY KEY (`mc2_mthd_id`,`acid`), + UNIQUE KEY `mc2_acid_unique_ordr` (`acid`, `exec_ordr`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc2_acid` +-- + +LOCK TABLES `mc2_acid` WRITE; +/*!40000 ALTER TABLE `mc2_acid` DISABLE KEYS */; +/*!40000 ALTER TABLE `mc2_acid` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc2_methods` +-- + +DROP TABLE IF EXISTS `mc2_methods`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc2_methods` ( + `mc2_mthd_id` int(11) NOT NULL AUTO_INCREMENT, + `mc2_mthd` varchar(50) COLLATE latin1_general_ci NOT NULL, + `desc` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, + PRIMARY KEY (`mc2_mthd_id`), + UNIQUE KEY `mc2_method` (`mc2_mthd`) +) ENGINE=MyISAM AUTO_INCREMENT=18 DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc2_methods` +-- + +LOCK TABLES `mc2_methods` WRITE; +/*!40000 ALTER TABLE `mc2_methods` DISABLE KEYS */; +INSERT INTO `mc2_methods` VALUES (1,'none','apply no level 2 method','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'log2','log2 all raw data','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'rmneg','remove negative values prior to logging values','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'rmzero','remove 0 values prior to logging values','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'mult25','multiply values by 25','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'mult100','multiply values by 100','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(10,'log10','log10 the raw data','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(11,'negshift','Shifts all data to be positive (new min=1)','2014-10-06 18:47:15','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(12,'mult2.5','multiply values by 2.5','2014-11-06 15:36:15','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(13,'mult3','multiply values by 3','2014-11-06 15:36:34','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(14,'mult6','multiply values by 6','2014-11-06 20:53:33','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(17,'sub100','100 minus cval (centers data around zero if prenormalized starting at 100 and going down to zero)','2015-10-05 16:42:21','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02\r\n'); +/*!40000 ALTER TABLE `mc2_methods` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc3` +-- + +DROP TABLE IF EXISTS `mc3`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc3` ( + `m3id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, + `aeid` bigint(20) unsigned DEFAULT NULL, + `m0id` bigint(20) unsigned DEFAULT NULL, + `acid` bigint(20) unsigned DEFAULT NULL, + `m1id` bigint(20) unsigned DEFAULT NULL, + `m2id` bigint(20) unsigned DEFAULT NULL, + `bval` double DEFAULT NULL, + `pval` double DEFAULT NULL, + `logc` double DEFAULT NULL, + `resp` double NOT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`m3id`), + UNIQUE KEY `m3id` (`m3id`), + KEY `aeid` (`aeid`) USING BTREE, + KEY `acid` (`acid`) USING BTREE, + KEY `m0id` (`m0id`) USING BTREE, + KEY `m1id` (`m1id`) USING BTREE, + KEY `m2id` (`m2id`) USING BTREE +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc3` +-- + +LOCK TABLES `mc3` WRITE; +/*!40000 ALTER TABLE `mc3` DISABLE KEYS */; +/*!40000 ALTER TABLE `mc3` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc3_aeid` +-- + +DROP TABLE IF EXISTS `mc3_aeid`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc3_aeid` ( + `mc3_mthd_id` int(11) NOT NULL, + `aeid` int(11) NOT NULL, + `exec_ordr` int(11) NOT NULL DEFAULT '1', + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, + PRIMARY KEY (`mc3_mthd_id`,`aeid`), + UNIQUE KEY `mc3_aeid_unique_ordr` (`aeid`, `exec_ordr`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc3_aeid` +-- + +LOCK TABLES `mc3_aeid` WRITE; +/*!40000 ALTER TABLE `mc3_aeid` DISABLE KEYS */; +/*!40000 ALTER TABLE `mc3_aeid` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc3_methods` +-- + +DROP TABLE IF EXISTS `mc3_methods`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc3_methods` ( + `mc3_mthd_id` int(11) NOT NULL AUTO_INCREMENT, + `mc3_mthd` varchar(50) COLLATE latin1_general_ci NOT NULL, + `desc` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, + PRIMARY KEY (`mc3_mthd_id`), + UNIQUE KEY `mc3_method` (`mc3_mthd`) +) ENGINE=MyISAM AUTO_INCREMENT=39 DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc3_methods` +-- + +LOCK TABLES `mc3_methods` WRITE; +/*!40000 ALTER TABLE `mc3_methods` DISABLE KEYS */; +INSERT INTO `mc3_methods` VALUES (1,'none','apply no level 3 method','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'bval.apid.lowconc.med','plate-wise baseline based on low conc median value','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'pval.apid.medpcbyconc.max','plate-wise median response of positive control (max)','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'pval.apid.medpcbyconc.min','plate-wise median response of positive control (min)','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'resp.pc','response percent activity','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'resp.multneg1','multiply the response by -1','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'resp.log2','take the log base 2 of the response','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'resp.mult25','multiply the response by 25','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(9,'resp.fc','calculate response as fold-change','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(11,'bval.apid.nwlls.med','plate-wise baseline based on neutral ctrl median value','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(12,'bval.spid.lowconc.med','sample-wise baseline based on low conc median value','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(13,'pval.apid.pwlls.med','plate-wise meidan based on positive control, single dose','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(14,'pval.apid.mwlls.med','plate-wise meidan based on negative control, single dose','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(15,'pval.apid.medncbyconc.min','plate-wise meidan based on negative control, (min)','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(16,'bval.apid.twlls.med','Take the median cval of the t wells, by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(17,'bval.apid.nwllslowconc.med','Take the median cval of the n wells and the first two concentrations, by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(18,'resp.shiftneg.3bmad','Make values below baseline zero.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(19,'resp.blineshift.3bmad.repi','Do baseline correction by repi, with a window of 3*bmad','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(20,'resp.blineshift.50.repi','Do baseline correction by repi, with a window of 50','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(21,'resp.blineshift.50.spid','Do baseline correction by spid, with a window of 50','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(23,'resp.blineshift.3bmad.spid','Do baseline correction by repi, with a window of 3*bmad','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(24,'bval.apid.tn.med','Take the median cval of the t and n wells, by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(25,'pval.apid.pmv.min','Calculate the median p, m, and v values by concentration, then take the minimum by apid.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(26,'pval.apid.pmv.max','Calculate the median p, m, and v values by concentration, then take the maximum by apid.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(27,'pval.apid.f.max','Calculate the median of f values by concentration, then take the maximum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(28,'pval.apid.f.min','Calculate the median of f values by concentration, then take the minimum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(29,'pval.apid.p.min','Calculate the median of p values by concentration, then take the minimum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(30,'pval.apid.p.max','Calculate the median of p values by concentration, then take the maximum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(31,'pval.apid.v.min','Calculate the median of v values by concentration, then take the minimum by apid','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(32,'pval.zero','Set pval to 0.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(33,'resp.shiftneg.6bmad','Shift response values falling below -6 * bmad to 0.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(34,'resp.shiftneg.10bmad','Shift response values falling below -10 * bmad to 0.','0000-00-00 00:00:00','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(35,'resp.logfc','Calculate the response as a fold change over baseline for logged values','2014-10-02 18:18:40','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(36,'resp.scale.mad.log2fc','Scale the resp data by the ratio of log2(1.2) over 3* baseline mad of the unscaled resp values','2015-02-23 18:58:52','0000-00-00 00:00:00',''),(37,'resp.scale.quant.log2fc','Scale resp such that 20% of the maximum resp equals log2(1.2)','2015-03-13 20:44:05','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(38,'bval.apid.nwllstcwllslowconc.med','plate-wise baseline based on neutral and t and c well low conc','2015-09-16 19:22:54','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'); +/*!40000 ALTER TABLE `mc3_methods` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc4` +-- + +DROP TABLE IF EXISTS `mc4`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc4` ( + `m4id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, + `aeid` bigint(20) unsigned NOT NULL, + `spid` varchar(50) COLLATE latin1_general_ci NOT NULL, + `bmad` double NOT NULL, + `resp_max` double NOT NULL, + `resp_min` double NOT NULL, + `max_mean` double NOT NULL, + `max_mean_conc` double NOT NULL, + `max_med` double NOT NULL, + `max_med_conc` double NOT NULL, + `logc_max` double NOT NULL, + `logc_min` double NOT NULL, + `cnst` tinyint(1) DEFAULT NULL, + `hill` tinyint(1) DEFAULT NULL, + `hcov` tinyint(1) DEFAULT NULL, + `gnls` tinyint(1) DEFAULT NULL, + `gcov` tinyint(1) DEFAULT NULL, + `cnst_er` double DEFAULT NULL, + `cnst_aic` double DEFAULT NULL, + `cnst_rmse` double DEFAULT NULL, + `cnst_prob` double DEFAULT NULL, + `hill_tp` double DEFAULT NULL, + `hill_tp_sd` double DEFAULT NULL, + `hill_ga` double DEFAULT NULL, + `hill_ga_sd` double DEFAULT NULL, + `hill_gw` double DEFAULT NULL, + `hill_gw_sd` double DEFAULT NULL, + `hill_er` double DEFAULT NULL, + `hill_er_sd` double DEFAULT NULL, + `hill_aic` double DEFAULT NULL, + `hill_rmse` double DEFAULT NULL, + `hill_prob` double DEFAULT NULL, + `gnls_tp` double DEFAULT NULL, + `gnls_tp_sd` double DEFAULT NULL, + `gnls_ga` double DEFAULT NULL, + `gnls_ga_sd` double DEFAULT NULL, + `gnls_gw` double DEFAULT NULL, + `gnls_gw_sd` double DEFAULT NULL, + `gnls_la` double DEFAULT NULL, + `gnls_la_sd` double DEFAULT NULL, + `gnls_lw` double DEFAULT NULL, + `gnls_lw_sd` double DEFAULT NULL, + `gnls_er` double DEFAULT NULL, + `gnls_er_sd` double DEFAULT NULL, + `gnls_aic` double DEFAULT NULL, + `gnls_rmse` double DEFAULT NULL, + `gnls_prob` double DEFAULT NULL, + `nconc` int(11) NOT NULL, + `npts` int(11) NOT NULL, + `nrep` double NOT NULL, + `nmed_gtbl` int(11) NOT NULL, + `tmpi` int(11) NOT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`m4id`), + UNIQUE KEY `m4id` (`m4id`), + KEY `aeid` (`aeid`) USING BTREE, + KEY `spid` (`spid`) USING BTREE +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc4` +-- + +LOCK TABLES `mc4` WRITE; +/*!40000 ALTER TABLE `mc4` DISABLE KEYS */; +/*!40000 ALTER TABLE `mc4` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc4_agg` +-- + +DROP TABLE IF EXISTS `mc4_agg`; +/*!40101 SET @saved_cs_client = 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*/; +INSERT INTO `mc5_fit_categories` VALUES (1,NULL,'01: ALL DOSE RESPONSE',1110,756.5),(2,1,'02: CANNOT DETERMINE',977.7455523765,611.9831921304),(3,1,'03: INACTIVE',1022.9653320313,924.2873535156),(4,3,'04: RESP < BLINE',1271.6083984375,974.8182373047),(5,3,'05: RESP >= BLINE',996.8209228516,1127.5755004883),(6,5,'06: CNST',666,1251.5),(7,6,'07: NOTP >= 0.8(COFF)',761.8584594727,1333.5216674805),(8,6,'08: ANYTP >= 0.8(COFF)',507.3630981445,1333.6228027344),(9,8,'09: NOTP >= COFF',337.4776000977,1263.4637451172),(10,8,'10: ANYTP >= COFF',450.4357910156,1397.3994140625),(11,5,'11: HILL',1189.7768554688,1209.4105834961),(12,11,'12: TP < 0.8(COFF)',1149.2390136719,1317.5518188477),(13,12,'13: GNLS < 0.8(COFF)',992.1193237305,1394.7369384766),(14,12,'14: GNLS >= 0.8(COFF)',1246.0364990234,1386.9293518066),(15,14,'15: GNLS < COFF',1218.9203491211,1496.1217041016),(16,14,'16: GNLS >= COFF',1361.9873046875,1443.5811157227),(17,11,'17: TP >= 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DNC',1463.7992844698,1325.916809082),(55,17,'55: GNLS DNC',1774.73046875,1155.2709031221); +/*!40000 ALTER TABLE `mc5_fit_categories` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc5_methods` +-- + +DROP TABLE IF EXISTS `mc5_methods`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc5_methods` ( + `mc5_mthd_id` int(11) NOT NULL AUTO_INCREMENT, + `mc5_mthd` varchar(50) COLLATE latin1_general_ci NOT NULL, + `desc` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`mc5_mthd_id`), + UNIQUE KEY `mc5_methods` (`mc5_mthd`) +) ENGINE=MyISAM AUTO_INCREMENT=13 DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc5_methods` +-- + +LOCK TABLES `mc5_methods` WRITE; +/*!40000 ALTER TABLE `mc5_methods` DISABLE KEYS */; +INSERT INTO `mc5_methods` VALUES (1,'bmad3','Add a cutoff value of 3*bmad.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'pc20','Add a cutoff value of 20.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'log2_1.2','Add a cutoff value of log2(1.2).','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'log10_1.2','Add a cutoff value of log10(1.2).','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'bmad5','Add a cutoff value of 5*bmad.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'bmad6','Add a cutoff value of 6*bmad.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'bmad10','Add a cutoff value of 10*bmad.','2015-05-04 16:03:49','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'maxmed20pct','Add a cutoff value of 20% of the max of max_med','2015-05-06 13:08:50','0000-00-00 00:00:00','kconnors.kconnors.kconnors'),(9,'pc70','70% cutoff','2015-07-28 19:06:35','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(10,'pc50','50% cutoff','2015-07-28 19:08:01','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(11,'log2_2','log2 of 2 fold change cutoff','2015-07-28 19:08:01','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'),(12,'log10_2','log10 of 2 fold change cutoff','2015-07-28 19:08:01','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'); +/*!40000 ALTER TABLE `mc5_methods` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc6` +-- + +DROP TABLE IF EXISTS `mc6`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `mc6` ( + `m6id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, + `m5id` bigint(20) unsigned NOT NULL, + `m4id` bigint(20) unsigned NOT NULL, + `aeid` bigint(20) unsigned NOT NULL, + `mc6_mthd_id` bigint(20) unsigned NOT NULL, + `flag` varchar(255) COLLATE latin1_general_ci NOT NULL, + `fval` double DEFAULT NULL, + `fval_unit` varchar(45) COLLATE latin1_general_ci DEFAULT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`m6id`), + UNIQUE KEY `m6id` (`m6id`), + KEY `aeid` (`aeid`) USING BTREE, + KEY `m4id` (`m4id`) USING BTREE, + KEY `m5id` (`m5id`) USING BTREE, + KEY `mc6_mthd_id` (`mc6_mthd_id`) USING BTREE +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc6` +-- + +LOCK TABLES `mc6` WRITE; +/*!40000 ALTER TABLE `mc6` DISABLE KEYS */; +/*!40000 ALTER TABLE `mc6` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `mc6_aeid` +-- + +DROP TABLE IF EXISTS `mc6_aeid`; +/*!40101 SET @saved_cs_client = 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NULL AUTO_INCREMENT, + `mc6_mthd` varchar(50) COLLATE latin1_general_ci NOT NULL, + `desc` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `nddr` tinyint(1) NOT NULL DEFAULT '0', + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`mc6_mthd_id`), + UNIQUE KEY `mc6_method` (`mc6_mthd`) +) ENGINE=MyISAM AUTO_INCREMENT=18 DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `mc6_methods` +-- + +LOCK TABLES `mc6_methods` WRITE; +/*!40000 ALTER TABLE `mc6_methods` DISABLE KEYS */; +INSERT INTO `mc6_methods` VALUES (1,'row.dev.up','Look for row-wise plate effects, increase',1,'2014-07-28 18:03:41','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'row.dev.dn','Look for row-wise plate effects, decrease',1,'2014-07-28 18:03:54','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'col.dev.dn','Look for column-wise plate effects, decrease',1,'2014-07-28 18:04:08','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'col.dev.up','Look for column-wise plate effects, increase',1,'2014-07-28 18:04:17','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'plate.flare','Look for plate flare effects',1,'2014-07-28 18:04:27','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'singlept.hit.high','Look for single point hits with activity only at the highest conc tested',0,'2014-07-28 18:06:05','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'singlept.hit.mid','Look for signle point hits with activity not at highest conc tested',0,'2014-07-28 18:06:51','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'multipoint.neg','Look for inactives with multiple medians above baseline',0,'2014-07-28 18:08:42','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(9,'pintool','Look for pintool carryover issues',1,'2014-07-28 18:09:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(10,'noise','Look for noisy curves, relative to the assay',0,'2014-07-28 18:09:41','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(11,'border.hit','Look for actives with borderline activity',0,'2014-07-28 18:10:14','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(12,'border.miss','Look for inactives with borderline activity',0,'2014-07-28 18:10:21','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(13,'plate.interlace','Look for interlaced chemical-plate effects',1,'2014-08-21 16:13:26','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(14,'rep.mismatch','Look for mismatched techinal replicates',1,'2014-08-21 16:16:44','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(15,'gnls.lowconc','Look for low concentration gnls winners',0,'2014-08-21 16:21:32','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(16,'overfit.hit','Flag hit-calls that would get changed after doing the small N correction to the aic values.',0,'2014-09-16 15:51:14','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(17,'efficacy.50','Flag hit-calls with efficacy values less than 50% -- intended for biochemical assays.',0,'2014-09-16 15:51:58','0000-00-00 00:00:00','dfiler.dfiler.dfiler'); +/*!40000 ALTER TABLE `mc6_methods` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `organism` +-- + +DROP TABLE IF EXISTS `organism`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `organism` ( + `organism_id` int(11) NOT NULL AUTO_INCREMENT, + `ncbi_taxon_id` int(11) DEFAULT NULL, + `taxon_name` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `common_name` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `lineage` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`organism_id`), + UNIQUE KEY `ncbi_taxon_id` (`ncbi_taxon_id`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- 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`wllt` (`wllt`) USING BTREE, + KEY `spid` (`spid`) USING BTREE, + KEY `srcf` (`srcf`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `sc0` +-- + +LOCK TABLES `sc0` WRITE; +/*!40000 ALTER TABLE `sc0` DISABLE KEYS */; +/*!40000 ALTER TABLE `sc0` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `sc1` +-- + +DROP TABLE IF EXISTS `sc1`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `sc1` ( + `s1id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, + `s0id` int(11) NOT NULL, + `acid` int(11) NOT NULL, + `aeid` int(11) NOT NULL, + `logc` double DEFAULT NULL, + `bval` double DEFAULT NULL, + `pval` double DEFAULT NULL, + `resp` double NOT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(250) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`s1id`), + UNIQUE KEY `s1id` (`s1id`), + KEY `s0id` (`s0id`), + KEY `acid` (`acid`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `sc1` +-- + +LOCK TABLES `sc1` WRITE; +/*!40000 ALTER TABLE `sc1` DISABLE KEYS */; +/*!40000 ALTER TABLE `sc1` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `sc1_aeid` +-- + +DROP TABLE IF EXISTS `sc1_aeid`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `sc1_aeid` ( + `sc1_mthd_id` int(11) NOT NULL, + `aeid` int(11) NOT NULL, + `exec_ordr` int(11) NOT NULL DEFAULT '1', + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, + PRIMARY KEY (`sc1_mthd_id`,`aeid`), + UNIQUE KEY `sc1_aeid_unique_ordr` (`aeid`, `exec_ordr`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `sc1_aeid` +-- + +LOCK TABLES `sc1_aeid` WRITE; +/*!40000 ALTER TABLE `sc1_aeid` DISABLE KEYS */; +/*!40000 ALTER TABLE `sc1_aeid` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `sc1_methods` +-- + +DROP TABLE IF EXISTS `sc1_methods`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `sc1_methods` ( + `sc1_mthd_id` int(11) NOT NULL AUTO_INCREMENT, + `sc1_mthd` varchar(50) COLLATE latin1_general_ci NOT NULL, + `desc` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, + PRIMARY KEY (`sc1_mthd_id`), + UNIQUE KEY `sc1_method` (`sc1_mthd`) +) ENGINE=MyISAM AUTO_INCREMENT=18 DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `sc1_methods` +-- + +LOCK TABLES `sc1_methods` WRITE; +/*!40000 ALTER TABLE `sc1_methods` DISABLE KEYS */; +INSERT INTO `sc1_methods` VALUES (1,'bval.apid.nwlls.med','plate-wise baseline based on neutral ctrl median value','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'bval.apid.twlls.med','Take the median cval of the t wells, by apid','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'bval.apid.tn.med','Take the median cval of the t and n wells, by apid','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'pval.apid.pwlls.med','plate-wise meidan based on positive control, single dose','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'pval.apid.mwlls.med','plate-wise meidan based on negative control, single dose','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'pval.apid.medpcbyconc.max','plate-wise median response of positive control (max)','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'pval.apid.medpcbyconc.min','plate-wise median response of positive control (min)','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'pval.apid.medncbyconc.min','plate-wise meidan based on negative control, (min)','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(9,'pval.zero','Set pval to 0.','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(10,'resp.pc','response percent activity','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(11,'resp.fc','calculate response as fold-change','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(12,'resp.logfc','Calculate the response as a fold change over baseline for logged values','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(13,'resp.log2','take the log base 2 of the response','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(14,'none','apply no level 2 method','2015-05-13 15:44:35','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(16,'resp.multneg1','multiply response values by negative 1','2015-05-29 14:27:45','0000-00-00 00:00:00','Akarmaus.Akarmaus.Akarmaus'),(17,'pval.apid.or.aeid.pwlls.med','calculates pval first based on p wells by plate and then for any plates missing p wells it calculates a pval by median of pval for all other plates','2015-09-30 18:43:40','0000-00-00 00:00:00','mmarti02.mmarti02.mmarti02'); +/*!40000 ALTER TABLE `sc1_methods` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `sc2` +-- + +DROP TABLE IF EXISTS `sc2`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `sc2` ( + `s2id` bigint(20) unsigned NOT NULL AUTO_INCREMENT, + `aeid` int(11) NOT NULL, + `spid` varchar(50) COLLATE latin1_general_ci NOT NULL, + `bmad` double NOT NULL, + `max_med` double NOT NULL, + `coff` double NOT NULL, + `hitc` double NOT NULL, + `tmpi` int(11) NOT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `created_by` varchar(250) COLLATE latin1_general_ci NOT NULL DEFAULT 'System', + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(250) COLLATE latin1_general_ci DEFAULT NULL, + PRIMARY KEY (`s2id`), + UNIQUE KEY `s2id` (`s2id`), + KEY `acid` (`aeid`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `sc2` +-- + +LOCK TABLES `sc2` WRITE; +/*!40000 ALTER TABLE `sc2` DISABLE KEYS */; +/*!40000 ALTER TABLE `sc2` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `sc2_aeid` +-- + +DROP TABLE IF EXISTS `sc2_aeid`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `sc2_aeid` ( + `sc2_mthd_id` int(11) NOT NULL, + `aeid` int(11) NOT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, + PRIMARY KEY (`sc2_mthd_id`,`aeid`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `sc2_aeid` +-- + +LOCK TABLES `sc2_aeid` WRITE; +/*!40000 ALTER TABLE `sc2_aeid` DISABLE KEYS */; +/*!40000 ALTER TABLE `sc2_aeid` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `sc2_agg` +-- + +DROP TABLE IF EXISTS `sc2_agg`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `sc2_agg` ( + `aeid` bigint(20) unsigned NOT NULL, + `s0id` bigint(20) unsigned NOT NULL, + `s1id` bigint(20) unsigned NOT NULL, + `s2id` bigint(20) unsigned NOT NULL, + KEY `aeid` (`aeid`) USING BTREE, + KEY `s2id` (`s2id`) USING BTREE, + KEY `s1id` (`s1id`) USING BTREE, + KEY `s0id` (`s0id`) USING BTREE +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `sc2_agg` +-- + +LOCK TABLES `sc2_agg` WRITE; +/*!40000 ALTER TABLE `sc2_agg` DISABLE KEYS */; +/*!40000 ALTER TABLE `sc2_agg` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `sc2_methods` +-- + +DROP TABLE IF EXISTS `sc2_methods`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `sc2_methods` ( + `sc2_mthd_id` int(11) NOT NULL AUTO_INCREMENT, + `sc2_mthd` varchar(50) COLLATE latin1_general_ci NOT NULL, + `desc` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + `created_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP, + `modified_date` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00', + `modified_by` varchar(100) COLLATE latin1_general_ci NOT NULL, + PRIMARY KEY (`sc2_mthd_id`), + UNIQUE KEY `sc2_method` (`sc2_mthd`) +) ENGINE=MyISAM AUTO_INCREMENT=11 DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `sc2_methods` +-- + +LOCK TABLES `sc2_methods` WRITE; +/*!40000 ALTER TABLE `sc2_methods` DISABLE KEYS */; +INSERT INTO `sc2_methods` VALUES (1,'bmad3','Add a cutoff value of 3*bmad.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(2,'pc20','Add a cutoff value of 20.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(3,'log2_1.2','Add a cutoff value of log2(1.2).','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(4,'log10_1.2','Add a cutoff value of log10(1.2).','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(5,'bmad5','Add a cutoff value of 5*bmad.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(6,'bmad6','Add a cutoff value of 6*bmad.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(7,'bmad10','Add a cutoff value of 10*bmad.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(8,'pc30orbmad3','Add a cutoff value of either 30 or 3*bmad, whichever is less.','2015-05-13 17:51:13','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(9,'pc0.88','Add a cutoff value of 0.88.','2015-05-14 17:25:38','0000-00-00 00:00:00','dfiler.dfiler.dfiler'),(10,'log2_1.5','Add a cutoff value of log2(1.5).','2015-05-14 17:25:38','0000-00-00 00:00:00','dfiler.dfiler.dfiler'); +/*!40000 ALTER TABLE `sc2_methods` ENABLE KEYS */; +UNLOCK TABLES; + +-- +-- Table structure for table `technological_target` +-- + +DROP TABLE IF EXISTS `technological_target`; +/*!40101 SET @saved_cs_client = @@character_set_client */; +/*!40101 SET character_set_client = utf8 */; +CREATE TABLE `technological_target` ( + `acid` int(11) DEFAULT NULL, + `target_id` int(11) DEFAULT NULL, + `source` varchar(255) COLLATE latin1_general_ci DEFAULT NULL, + KEY `acid_idx` (`acid`), + KEY `target_id_idx` (`target_id`) +) ENGINE=MyISAM DEFAULT CHARSET=latin1 COLLATE=latin1_general_ci; +/*!40101 SET character_set_client = @saved_cs_client */; + +-- +-- Dumping data for table `technological_target` +-- + +LOCK TABLES `technological_target` WRITE; +/*!40000 ALTER TABLE `technological_target` DISABLE KEYS */; +/*!40000 ALTER TABLE `technological_target` ENABLE KEYS */; +UNLOCK TABLES; +/*!40103 SET TIME_ZONE=@OLD_TIME_ZONE */; + +/*!40101 SET SQL_MODE=@OLD_SQL_MODE */; +/*!40014 SET FOREIGN_KEY_CHECKS=@OLD_FOREIGN_KEY_CHECKS */; +/*!40014 SET UNIQUE_CHECKS=@OLD_UNIQUE_CHECKS */; +/*!40101 SET CHARACTER_SET_CLIENT=@OLD_CHARACTER_SET_CLIENT */; +/*!40101 SET CHARACTER_SET_RESULTS=@OLD_CHARACTER_SET_RESULTS */; +/*!40101 SET COLLATION_CONNECTION=@OLD_COLLATION_CONNECTION */; +/*!40111 SET SQL_NOTES=@OLD_SQL_NOTES */; + +-- Dump completed on 2015-10-15 13:51:27 diff --git a/man/MC2_Methods.Rd b/man/MC2_Methods.Rd index 73e51de..30b52b0 100644 --- a/man/MC2_Methods.Rd +++ b/man/MC2_Methods.Rd @@ -1,54 +1,54 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc2_mthds.R -\name{MC2_Methods} -\alias{MC2_Methods} -\alias{mc2_mthds} -\title{List of level 2 multiple-concentration correction functions} -\usage{ -mc2_mthds() -} -\value{ -A list functions -} -\description{ -\code{mc2_mthds} returns a list of correction/transformation functions -to be used during level 2 multiple-concentration processing. -} -\details{ -The functions contained in the list returned by \code{mc2_mthds} return -a list of expressions to be executed in the \code{mc2} (not exported) -function environment. The functions are described here for reference -purposes, The \code{mc2_mthds} function is not exported, nor is it -intended for use. - -All available methods are described in the Available Methods section, listed -by the function/method name. -} -\note{ -This function is not exported and is not intended to be used by the user. -} -\section{Available Methods}{ - - -More information about the level 2 multiple-concentration processing is -available in the package vignette, "Pipeline_Overview." - -\describe{ - \item{log2}{Take the logarithm of cval with the base 2.} - \item{log10}{Take the logarithm of cval with the base 10.} - \item{rmneg}{Remove entries where cval is less than 0.} - \item{rmzero}{Remove entries where cval is 0.} - \item{mult25}{Multiply cval by 25.} - \item{mult100}{Multiply cval by 100.} - \item{negshift}{Shift cval by subtracting out the minimum of cval and - adding 1, such that the new minimum of cval is 1.} - \item{mult25}{Multiply cval by 2.5.} - \item{mult3}{Multiply cval by 3.} - \item{mult6}{Multiply cval by 6.} -} -} -\seealso{ -\code{\link{mc2}}, \code{\link{Method functions}} to query what -methods get applied to each acid -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc2_mthds.R +\name{MC2_Methods} +\alias{MC2_Methods} +\alias{mc2_mthds} +\title{List of level 2 multiple-concentration correction functions} +\usage{ +mc2_mthds() +} +\value{ +A list functions +} +\description{ +\code{mc2_mthds} returns a list of correction/transformation functions +to be used during level 2 multiple-concentration processing. +} +\details{ +The functions contained in the list returned by \code{mc2_mthds} return +a list of expressions to be executed in the \code{mc2} (not exported) +function environment. The functions are described here for reference +purposes, The \code{mc2_mthds} function is not exported, nor is it +intended for use. + +All available methods are described in the Available Methods section, listed +by the function/method name. +} +\note{ +This function is not exported and is not intended to be used by the user. +} +\section{Available Methods}{ + + +More information about the level 2 multiple-concentration processing is +available in the package vignette, "Pipeline_Overview." + +\describe{ + \item{log2}{Take the logarithm of cval with the base 2.} + \item{log10}{Take the logarithm of cval with the base 10.} + \item{rmneg}{Remove entries where cval is less than 0.} + \item{rmzero}{Remove entries where cval is 0.} + \item{mult25}{Multiply cval by 25.} + \item{mult100}{Multiply cval by 100.} + \item{negshift}{Shift cval by subtracting out the minimum of cval and + adding 1, such that the new minimum of cval is 1.} + \item{mult25}{Multiply cval by 2.5.} + \item{mult3}{Multiply cval by 3.} + \item{mult6}{Multiply cval by 6.} +} +} + +\seealso{ +\code{\link{mc2}}, \code{\link{Method functions}} to query what +methods get applied to each acid +} diff --git a/man/MC3_Methods.Rd b/man/MC3_Methods.Rd index 3605c01..6a95fc9 100644 --- a/man/MC3_Methods.Rd +++ b/man/MC3_Methods.Rd @@ -1,145 +1,145 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc3_mthds.R -\name{MC3_Methods} -\alias{MC3_Methods} -\alias{mc3_mthds} -\title{List of level 3 multiple-concentration normalization methods} -\usage{ -mc3_mthds() -} -\value{ -A list of functions -} -\description{ -\code{mc3_mthds} returns a list of normalization methods to be used -during level 3 multiple-concentration processing. -} -\details{ -The functions contained in the list returned by \code{mc3_mthds} take -'aeids' (a numeric vector of aeid values) and returns a list of expressions -to be executed in the \code{mc3} (not exported) function environment. The -functions are described here for reference purposes, The -\code{mc3_mthds} function is not exported, nor is it intended for use. - -All available methods are described in the Available Methods section, listed -by the type of function and the function/method name. -} -\note{ -This function is not exported and is not intended to be used by the user. -} -\section{Available Methods}{ - - -The methods are broken into three types, based on what fields they define. -Different methods are used to define "bval" (the baseline value), "pval" -(the positive control value), and "resp" (the final response value). - -Although it does not say so specifically in each description, all methods -are applied by aeid. - -More information about the level 3 multiple-concentration processing is -available in the package vignette, "Pipeline_Overview." - -\subsection{bval Methods}{ - \describe{ - \item{bval.apid.nwlls.med}{Calculate bval as the median of cval for - wells with wllt equal to "n," by apid.} - \item{bval.apid.lowconc.med}{Calculate bval as the median of cval for - wells with wllt equal to "t" and cndx equal to 1 or 2, by apid.} - \item{bval.apid.twlls.med}{Calculate bval as the median of cval for - wells with wllt equal to "t," by apid.} - \item{bval.apid.tn.med}{Calculate bval as the median of cval for wells - with wllt equal to "t" or "n," by apid.} - \item{bval.apid.nwllslowconc.med}{Calculate bval as the median of cval - for wells with wllt equal to "n" or wells with wllt equal to "t" and - cndx equal to 1 or 2, by apid.} - \item{bval.spid.lowconc.med}{Calculate bval as the median of cval for - wells with wllt equal to "t" and cndx equal to 1, 2, or 3, by spid.} - \item{bval.apid.nwllstcwllslowconc.med}{Calculate bval as the median of - cval for wells with wllt equal to "n" or cndx equal to 1 or 2 and - wllt equal to "t" or "c" by apid.} - - } -} - -\subsection{pval Methods}{ - \describe{ - \item{pval.apid.pwlls.med}{Calculate pval as the median of cval for - wells with wllt equal to "p," by apid.} - \item{pval.apid.mwlls.med}{Calculate pval as the median of cval for - wells with wllt equal to "m," by apid.} - \item{pval.apid.medpcbyconc.max}{First calculate the median of cval for - wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then - calculate pval as the maximum of the calculated medians, by apid.} - \item{pval.apid.medpcbyconc.min}{First calculate the median of cval for - wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then - calculate pval as the minimum of the calculated medians, by apid.} - \item{pval.apid.medncbyconc.min}{First calculate the median of cval for - wells with wllt equal to "m" or "o," by wllt, conc, and apid. Then - calculate pval as the minimum of the calculated medians, by apid.} - \item{pval.apid.pmv.min}{First calculate the median of cval for - wells with wllt equal to "p," "m," or "v," by wllt, conc, and apid. Then - calculate pval as the minimum of the calculated medians, by apid.} - \item{pval.apid.pmv.max}{First calculate the median of cval for - wells with wllt equal to "p," "m," or "v," by wllt, conc, and apid. Then - calculate pval as the maximum of the calculated medians, by apid.} - \item{pval.apid.f.max}{First calculate the median of cval for - wells with wllt equal to "f," by wllt, conc, and apid. Then calculate - pval as the maximum of the calculated medians, by apid.} - \item{pval.apid.f.min}{First calculate the median of cval for - wells with wllt equal to "f," by wllt, conc, and apid. Then calculate - pval as the minimum of the calculated medians, by apid.} - \item{pval.apid.p.max}{First calculate the median of cval for - wells with wllt equal to "p," by wllt, conc, and apid. Then calculate - pval as the maximum of the calculated medians, by apid.} - \item{pval.apid.p.min}{First calculate the median of cval for - wells with wllt equal to "p," by wllt, conc, and apid. Then calculate - pval as the minimum of the calculated medians, by apid.} - \item{pval.apid.v.min}{First calculate the median of cval for - wells with wllt equal to "v," by wllt, conc, and apid. Then calculate - pval as the minimum of the calculated medians, by apid.} - \item{pval.zero}{Define pval as 0.} - } -} - -\subsection{resp Methods}{ - \describe{ - \item{resp.pc}{Calculate resp as \eqn{\frac{\mathit{cval} - - \mathit{bval}}{\mathit{pval} - \mathit{bval}}100}{(cval - bval)/(pval - - bval)*100}.} - \item{resp.fc}{Calculate resp as \eqn{\mathit{cval}/\mathit{bval}}{ - cval/bval}.} - \item{resp.logfc}{Calculate resp as \eqn{\mathit{cval} - \mathit{bval}}{ - cval - bval}.} - \item{resp.log2}{Take the logarithm of resp with base 2.} - \item{resp.mult25}{Multiply resp by 25.} - \item{resp.scale.mad.log2fc}{Multiply resp by the scale factor - \eqn{\frac{\log_2 \left( 1.2 \right)}{3\mathit{bmad}}}{ - log2(1.2)/(3*bmad)}.} - \item{resp.scale.quant.log2fc}{Determine the maximum response - \eqn{\mathit{md}}{md} where \eqn{\mathit{md}}{md} = abs(1st centile - - 50th centile) or abs(99th centile - 50th centile), whichever is greater. - Scale the response such that 20 percent of md equals - \eqn{\log_2 \left( 1.2 \right)}{log2(1.2)}.} - \item{resp.multneg1}{Multiply resp by -1.} - \item{resp.shiftneg.3bmad}{Shift all resp values less than -3*bmad to 0.} - \item{resp.shiftneg.6bmad}{Shift all resp values less than -6*bmad to 0.} - \item{resp.shiftneg.10bmad}{Shift all resp values less than -10*bmad to - 0.} - \item{resp.blineshift.3bmad.repi}{Shift resp values with the blineShift - function by repi, where the window (wndw) is 3*bmad.} - \item{resp.blineshift.50.repi}{Shift resp values with the blineShift - function by repi, where the window (wndw) is 50.} - \item{resp.blineshift.3bmad.spid}{Shift resp values with the blineShift - function by spid, where the window (wndw) is 3*bmad.} - \item{resp.blineshift.50.spid}{Shift resp values with the blineShift - function by spid, where the window (wndw) is 50.} - \item{none}{Do no normalization; make resp equal to cval.} - } -} -} -\seealso{ -\code{\link{mc3}}, \code{\link{Method functions}} to query what -methods get applied to each aeid -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc3_mthds.R +\name{MC3_Methods} +\alias{MC3_Methods} +\alias{mc3_mthds} +\title{List of level 3 multiple-concentration normalization methods} +\usage{ +mc3_mthds() +} +\value{ +A list of functions +} +\description{ +\code{mc3_mthds} returns a list of normalization methods to be used +during level 3 multiple-concentration processing. +} +\details{ +The functions contained in the list returned by \code{mc3_mthds} take +'aeids' (a numeric vector of aeid values) and returns a list of expressions +to be executed in the \code{mc3} (not exported) function environment. The +functions are described here for reference purposes, The +\code{mc3_mthds} function is not exported, nor is it intended for use. + +All available methods are described in the Available Methods section, listed +by the type of function and the function/method name. +} +\note{ +This function is not exported and is not intended to be used by the user. +} +\section{Available Methods}{ + + +The methods are broken into three types, based on what fields they define. +Different methods are used to define "bval" (the baseline value), "pval" +(the positive control value), and "resp" (the final response value). + +Although it does not say so specifically in each description, all methods +are applied by aeid. + +More information about the level 3 multiple-concentration processing is +available in the package vignette, "Pipeline_Overview." + +\subsection{bval Methods}{ + \describe{ + \item{bval.apid.nwlls.med}{Calculate bval as the median of cval for + wells with wllt equal to "n," by apid.} + \item{bval.apid.lowconc.med}{Calculate bval as the median of cval for + wells with wllt equal to "t" and cndx equal to 1 or 2, by apid.} + \item{bval.apid.twlls.med}{Calculate bval as the median of cval for + wells with wllt equal to "t," by apid.} + \item{bval.apid.tn.med}{Calculate bval as the median of cval for wells + with wllt equal to "t" or "n," by apid.} + \item{bval.apid.nwllslowconc.med}{Calculate bval as the median of cval + for wells with wllt equal to "n" or wells with wllt equal to "t" and + cndx equal to 1 or 2, by apid.} + \item{bval.spid.lowconc.med}{Calculate bval as the median of cval for + wells with wllt equal to "t" and cndx equal to 1, 2, or 3, by spid.} + \item{bval.apid.nwllstcwllslowconc.med}{Calculate bval as the median of + cval for wells with wllt equal to "n" or cndx equal to 1 or 2 and + wllt equal to "t" or "c" by apid.} + + } +} + +\subsection{pval Methods}{ + \describe{ + \item{pval.apid.pwlls.med}{Calculate pval as the median of cval for + wells with wllt equal to "p," by apid.} + \item{pval.apid.mwlls.med}{Calculate pval as the median of cval for + wells with wllt equal to "m," by apid.} + \item{pval.apid.medpcbyconc.max}{First calculate the median of cval for + wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then + calculate pval as the maximum of the calculated medians, by apid.} + \item{pval.apid.medpcbyconc.min}{First calculate the median of cval for + wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then + calculate pval as the minimum of the calculated medians, by apid.} + \item{pval.apid.medncbyconc.min}{First calculate the median of cval for + wells with wllt equal to "m" or "o," by wllt, conc, and apid. Then + calculate pval as the minimum of the calculated medians, by apid.} + \item{pval.apid.pmv.min}{First calculate the median of cval for + wells with wllt equal to "p," "m," or "v," by wllt, conc, and apid. Then + calculate pval as the minimum of the calculated medians, by apid.} + \item{pval.apid.pmv.max}{First calculate the median of cval for + wells with wllt equal to "p," "m," or "v," by wllt, conc, and apid. Then + calculate pval as the maximum of the calculated medians, by apid.} + \item{pval.apid.f.max}{First calculate the median of cval for + wells with wllt equal to "f," by wllt, conc, and apid. Then calculate + pval as the maximum of the calculated medians, by apid.} + \item{pval.apid.f.min}{First calculate the median of cval for + wells with wllt equal to "f," by wllt, conc, and apid. Then calculate + pval as the minimum of the calculated medians, by apid.} + \item{pval.apid.p.max}{First calculate the median of cval for + wells with wllt equal to "p," by wllt, conc, and apid. Then calculate + pval as the maximum of the calculated medians, by apid.} + \item{pval.apid.p.min}{First calculate the median of cval for + wells with wllt equal to "p," by wllt, conc, and apid. Then calculate + pval as the minimum of the calculated medians, by apid.} + \item{pval.apid.v.min}{First calculate the median of cval for + wells with wllt equal to "v," by wllt, conc, and apid. Then calculate + pval as the minimum of the calculated medians, by apid.} + \item{pval.zero}{Define pval as 0.} + } +} + +\subsection{resp Methods}{ + \describe{ + \item{resp.pc}{Calculate resp as \eqn{\frac{\mathit{cval} - + \mathit{bval}}{\mathit{pval} - \mathit{bval}}100}{(cval - bval)/(pval + - bval)*100}.} + \item{resp.fc}{Calculate resp as \eqn{\mathit{cval}/\mathit{bval}}{ + cval/bval}.} + \item{resp.logfc}{Calculate resp as \eqn{\mathit{cval} - \mathit{bval}}{ + cval - bval}.} + \item{resp.log2}{Take the logarithm of resp with base 2.} + \item{resp.mult25}{Multiply resp by 25.} + \item{resp.scale.mad.log2fc}{Multiply resp by the scale factor + \eqn{\frac{\log_2 \left( 1.2 \right)}{3\mathit{bmad}}}{ + log2(1.2)/(3*bmad)}.} + \item{resp.scale.quant.log2fc}{Determine the maximum response + \eqn{\mathit{md}}{md} where \eqn{\mathit{md}}{md} = abs(1st centile - + 50th centile) or abs(99th centile - 50th centile), whichever is greater. + Scale the response such that 20 percent of md equals + \eqn{\log_2 \left( 1.2 \right)}{log2(1.2)}.} + \item{resp.multneg1}{Multiply resp by -1.} + \item{resp.shiftneg.3bmad}{Shift all resp values less than -3*bmad to 0.} + \item{resp.shiftneg.6bmad}{Shift all resp values less than -6*bmad to 0.} + \item{resp.shiftneg.10bmad}{Shift all resp values less than -10*bmad to + 0.} + \item{resp.blineshift.3bmad.repi}{Shift resp values with the blineShift + function by repi, where the window (wndw) is 3*bmad.} + \item{resp.blineshift.50.repi}{Shift resp values with the blineShift + function by repi, where the window (wndw) is 50.} + \item{resp.blineshift.3bmad.spid}{Shift resp values with the blineShift + function by spid, where the window (wndw) is 3*bmad.} + \item{resp.blineshift.50.spid}{Shift resp values with the blineShift + function by spid, where the window (wndw) is 50.} + \item{none}{Do no normalization; make resp equal to cval.} + } +} +} + +\seealso{ +\code{\link{mc3}}, \code{\link{Method functions}} to query what +methods get applied to each aeid +} diff --git a/man/MC5_Methods.Rd b/man/MC5_Methods.Rd index 6b171f5..2c6f254 100644 --- a/man/MC5_Methods.Rd +++ b/man/MC5_Methods.Rd @@ -1,40 +1,40 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc5_mthds.R -\name{MC5_Methods} -\alias{MC5_Methods} -\alias{mc5_mthds} -\title{Load list of level 5 multiple-concentration cutoff methods} -\usage{ -mc5_mthds() -} -\value{ -A list of functions -} -\description{ -\code{mc5_mthds} returns a list of additional activity cutoff methods -to be used during level 5 multiple-concentration processing. -} -\section{Available Methods}{ - - -More information about the level 5 multiple-concentration processing is -available in the package vignette, "Pipeline_Overview." - -\describe{ - \item{bmad3}{Add a cutoff value of 3*bmad.} - \item{pc20}{Add a cutoff value of 20.} - \item{log2_1.2}{Add a cutoff value of log2(1.2).} - \item{log10_1.2}{Add a cutoff value of log10(1.2).} - \item{bmad5}{Add a cutoff value of 5*bmad.} - \item{bmad6}{Add a cutoff value of 6*bmad.} - \item{bmad10}{Add a cutoff value of 10*bmad.} - \item{log2_2}{Add a cutoff value of log2(2).} - \item{log10_2}{Add a cutoff value of log10(2).} - \item{neglog2_0.88}{Add a cutoff value of -1*log2(0.88).} -} -} -\seealso{ -\code{\link{mc5}}, \code{\link{Method functions}} to query what -methods get applied to each aeid -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc5_mthds.R +\name{MC5_Methods} +\alias{MC5_Methods} +\alias{mc5_mthds} +\title{Load list of level 5 multiple-concentration cutoff methods} +\usage{ +mc5_mthds() +} +\value{ +A list of functions +} +\description{ +\code{mc5_mthds} returns a list of additional activity cutoff methods +to be used during level 5 multiple-concentration processing. +} +\section{Available Methods}{ + + +More information about the level 5 multiple-concentration processing is +available in the package vignette, "Pipeline_Overview." + +\describe{ + \item{bmad3}{Add a cutoff value of 3*bmad.} + \item{pc20}{Add a cutoff value of 20.} + \item{log2_1.2}{Add a cutoff value of log2(1.2).} + \item{log10_1.2}{Add a cutoff value of log10(1.2).} + \item{bmad5}{Add a cutoff value of 5*bmad.} + \item{bmad6}{Add a cutoff value of 6*bmad.} + \item{bmad10}{Add a cutoff value of 10*bmad.} + \item{log2_2}{Add a cutoff value of log2(2).} + \item{log10_2}{Add a cutoff value of log10(2).} + \item{neglog2_0.88}{Add a cutoff value of -1*log2(0.88).} +} +} + +\seealso{ +\code{\link{mc5}}, \code{\link{Method functions}} to query what +methods get applied to each aeid +} diff --git a/man/MC6_Methods.Rd b/man/MC6_Methods.Rd index 3836c43..9d93b4a 100644 --- a/man/MC6_Methods.Rd +++ b/man/MC6_Methods.Rd @@ -1,97 +1,66 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc6_mthds.R -\name{MC6_Methods} -\alias{MC6_Methods} -\alias{mc6_mthds} -\title{Load list of level 6 multiple-concentration flag methods} -\usage{ -mc6_mthds() -} -\value{ -A list functions -} -\description{ -\code{mc6_mthds} returns a list of flag methods to be used -during level 6 multiple-concentration processing. -} -\section{Available Methods}{ - - -More information about the level 6 multiple-concentration processing is -available in the package vignette, "Pipeline_Overview." - -\describe{ - \item{row.dev.up}{The row.dev.up flag looks at the individual point data, - searching for row effects across an apid. To get flagged the point has to - be greater than 3 standard deviations above the mean response for the - plate, and the row mean must be greater than 3 standard deviations above - the row means for the plate.} - \item{row.dev.dn}{The row.dev.dn flag is identical to the row.dev.up flag, - but identifies points falling in rows with decreased signals.} - \item{col.dev.up}{The col.dev.up flag is identical to the row.dev.up flag, - but identifies points falling in columns with increased signals.} - \item{col.dev.dn}{The col.dev.up flag is identical to the row.dev.up flag, - but identifies points falling in columns with decreased signals.} - \item{plate.flare}{The plate.flare flag looks at the individual point data, - searching for overly active regions across an apid. Intended for use in - fluorometric assays that are read by a plate-reader that measures the - plate as a whole, rather than measuring individual wells. For each well - the flare value is calculated as a weighted mean a 5 well by 5 well box - centered on the well where the weight given to each well in the box is the - euclidian distance from the center well. The flag then identifies points - with flare values greater than 3 standard deviations above the mean flare - values for the plate.} - \item{plate.interlace}{The plate.interlace flag is specific to one - experimental design that plates chemicals from a 386 well chemical plate - to a 1536 well assay plate. The flag looks for any chemical-plate affects, - by looking for an increased signal in the wells originating from the same - chemical plate.} - \item{rep.mismatch}{The rep.mismatch flag is still in development and is - not suggested for use at this time.} - \item{pintool}{Deprecated. The pintool flag uses a complicated algorithm - to look for signal potentially caused by residual in the pintool used to - deliver the chemical to assay plates in some experimental designs. The - gnls.lowconc is a faster and simpler way to identify where this problem - may be driving the activity or hit-call.} - \item{singlept.hit.high}{The singlept.hit.high flag identifies - concentration series where the median response was greater than 3*bmad - only at the highest tested concentration and the series had an active - hit-call.} - \item{singlept.hit.mid}{The singlept.hit.mid flag identifies concentration - series where the median response was greater than 3*bmad at only one - concentration (not the highest tested concentration) and the series had - an active hit-call.} - \item{multipoint.neg}{The multipoint.neg flag identifies concentration - series with response medians greater than 3*bmad at multiple - concentrations and an inactive hit-call.} - \item{gnls.lowconc}{The gnls.lowconc flag identifies concentration series - where the gain-loss model won, the gain AC50 is less than the minimum - tested concentration, and the loss AC50 is less than the mean tested - concentration.} - \item{noise}{The noise flag attempts to identify noisy concentration - series by flagging series where the root mean square error for the series - is greater than the cutoff for the assay endpoint.} - \item{border.hit}{The border.hit flag identifies active concentration - series where the top parameter of the winning model was less than or equal - to 1.2*cut-off or the the activity probablity was less than 0.9.} - \item{border.miss}{The border.miss flag identifies inactive concentration - series where either the Hill or gain-loss top parameter was greater than - or equal to 0.8*cut-off and the activity probability was greater than 0.5.} - \item{overfit.hit}{The overfit.hit flag recalculates the model winner - after applying a small sample correction factor to the AIC values. If the - hit-call would be changed after applying the small sample correction - factor the series is flagged. Series with less than 5 concentrations where - the hill model won and series with less than 7 concentrations where the - gain-loss model won are automatically flagged.} - \item{efficacy.50}{The efficacy.50 flag identifies concentration series - with efficacy values (either the modeled top parameter for the winning - model or the maximum median response) are less than 50. Intended for use - with biochemical assays where one might expect at least a 50\% change in - real responses.} -} -} -\seealso{ -\code{\link{mc6}}, \code{\link{Method functions}} to query what -methods get applied to each aeid -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc6_mthds.R +\name{MC6_Methods} +\alias{MC6_Methods} +\alias{mc6_mthds} +\title{Load list of level 6 multiple-concentration flag methods} +\usage{ +mc6_mthds() +} +\value{ +A list functions +} +\description{ +\code{mc6_mthds} returns a list of flag methods to be used +during level 6 multiple-concentration processing. +} +\section{Available Methods}{ + + +More information about the level 6 multiple-concentration processing is +available in the package vignette, "Pipeline_Overview." + +\describe{ + \item{singlept.hit.high}{The singlept.hit.high flag identifies + concentration series where the median response was greater than 3*bmad + only at the highest tested concentration and the series had an active + hit-call.} + \item{singlept.hit.mid}{The singlept.hit.mid flag identifies concentration + series where the median response was greater than 3*bmad at only one + concentration (not the highest tested concentration) and the series had + an active hit-call.} + \item{multipoint.neg}{The multipoint.neg flag identifies concentration + series with response medians greater than 3*bmad at multiple + concentrations and an inactive hit-call.} + \item{gnls.lowconc}{The gnls.lowconc flag identifies concentration series + where the gain-loss model won, the gain AC50 is less than the minimum + tested concentration, and the loss AC50 is less than the mean tested + concentration.} + \item{noise}{The noise flag attempts to identify noisy concentration + series by flagging series where the root mean square error for the series + is greater than the cutoff for the assay endpoint.} + \item{border.hit}{The border.hit flag identifies active concentration + series where the top parameter of the winning model was less than or equal + to 1.2*cut-off or the the activity probablity was less than 0.9.} + \item{border.miss}{The border.miss flag identifies inactive concentration + series where either the Hill or gain-loss top parameter was greater than + or equal to 0.8*cut-off and the activity probability was greater than 0.5.} + \item{overfit.hit}{The overfit.hit flag recalculates the model winner + after applying a small sample correction factor to the AIC values. If the + hit-call would be changed after applying the small sample correction + factor the series is flagged. Series with less than 5 concentrations where + the hill model won and series with less than 7 concentrations where the + gain-loss model won are automatically flagged.} + \item{efficacy.50}{The efficacy.50 flag identifies concentration series + with efficacy values (either the modeled top parameter for the winning + model or the maximum median response) are less than 50 for percent activity + data or log2(1.5) for fold induction data} + \item{modlga.lowconc}{The modlga.lowconc flag identifies concentration series + with modl_ga (AC50) values less than the minimum tested concentration.} +} +} + +\seealso{ +\code{\link{mc6}}, \code{\link{Method functions}} to query what +methods get applied to each aeid +} diff --git a/man/Models.Rd b/man/Models.Rd index 6ef100c..3306fca 100644 --- a/man/Models.Rd +++ b/man/Models.Rd @@ -1,98 +1,99 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/Models.R, R/tcplObjCnst.R, R/tcplObjGnls.R, R/tcplObjHill.R -\name{Models} -\alias{Models} -\alias{tcplObjCnst} -\alias{tcplObjGnls} -\alias{tcplObjHill} -\title{Model objective functions} -\usage{ -tcplObjCnst(p, resp) - -tcplObjGnls(p, lconc, resp) - -tcplObjHill(p, lconc, resp) -} -\arguments{ -\item{p}{Numeric, the parameter values. See details for more information.} - -\item{resp}{Numeric, the response values} - -\item{lconc}{Numeric, the log10 concentration values} -} -\value{ -The log-likelyhood. -} -\description{ -These functions take in the dose-response data and the model parameters, and -return a likelyhood value. They are intended to be optimized using -\code{\link{constrOptim}} in the \code{\link{tcplFit}} function. -} -\details{ -These functions produce an estimated value based on the model and given -parameters for each observation. Those estimated values are then used with -the observed values and a scale term to calculate the log-likelyhood. - -Let \eqn{t(z,\nu)} be the Student's t-ditribution with \eqn{\nu} degrees of -freedom, \eqn{y_{i}}{y[i]} be the observed response at the \eqn{i^{th}}{ith} -observation, and \eqn{\mu_{i}}{\mu[i]} be the estimated response at the \eqn{i^{th}}{ith} -observation. We calculate \eqn{z_{i}}{z[i]} as: -\deqn{ -z_{i} = \frac{y_{i} - \mu_{i}}{e^\sigma} -}{ -z[i] = (y[i] - \mu[i])/e^\sigma -} -where \eqn{\sigma} is the scale term. Then the log-likelyhood is: -\deqn{ -\sum_{i=1}^{n} [ln(t(z_{i}, 4)) - \sigma] -}{ -sum_{i=1}^{n} [ln(t(z[i], 4)) - \sigma]} -Where \eqn{n} is the number of observations. -} -\section{Constant Model (cnst)}{ - -\code{tcplObjCnst} calculates the likelyhood for a constant model at 0. The -only parameter passed to \code{tcplObjCnst} by \code{p} is the scale term -\eqn{\sigma}. The constant model value \eqn{\mu_{i}}{\mu[i]} for the -\eqn{i^{th}}{ith} observation is given by: -\deqn{\mu_{i} = 0}{\mu[i] = 0} -} - -\section{Gain-Loss Model (gnls)}{ - -\code{tcplObjGnls} calculates the likelyhood for a 5 parameter model as the -product of two Hill models with the same top and both bottoms equal to 0. -The parameters passed to \code{tcplObjGnls} by \code{p} are (in order) top -(\eqn{\mathit{tp}}), gain log AC50 (\eqn{\mathit{ga}}), gain hill coefficient (\eqn{gw}), -loss log AC50 \eqn{\mathit{la}}, loss hill coefficient \eqn{\mathit{lw}}, and the scale -term (\eqn{\sigma}). The gain-loss model value \eqn{\mu_{i}}{\mu[i]} for the -\eqn{i^{th}}{ith} observation is given by: -\deqn{ -g_{i} = \frac{1}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}} -}{ -g[i] = 1/(1 + 10^(ga - x[i])*gw)} -\deqn{ -l_{i} = \frac{1}{1 + 10^{(x_{i} - \mathit{la})\mathit{lw}}} -}{ -l[i] = 1/(1 + 10^(x[i] - la)*lw)} -\deqn{\mu_{i} = \mathit{tp}(g_{i})(l_{i})}{\mu[i] = tp*g[i]*l[i]} -where \eqn{x_{i}}{x[i]} is the log concentration for the \eqn{i^{th}}{ith} -observation. -} - -\section{Hill Model (hill)}{ - -\code{tcplObjHill} calculates the likelyhood for a 3 parameter Hill model -with the bottom equal to 0. The parameters passed to \code{tcplObjHill} by -\code{p} are (in order) top (\eqn{\mathit{tp}}), log AC50 (\eqn{\mathit{ga}}), hill -coefficient (\eqn{\mathit{gw}}), and the scale term (\eqn{\sigma}). The hill model -value \eqn{\mu_{i}}{\mu[i]} for the \eqn{i^{th}}{ith} observation is given -by: -\deqn{ -\mu_{i} = \frac{tp}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}} -}{ -\mu[i] = tp/(1 + 10^(ga - x[i])*gw)} -where \eqn{x_{i}}{x[i]} is the log concentration for the \eqn{i^{th}}{ith} -observation. -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/Models.R, R/tcplObjCnst.R, R/tcplObjGnls.R, +% R/tcplObjHill.R +\name{Models} +\alias{Models} +\alias{tcplObjCnst} +\alias{tcplObjGnls} +\alias{tcplObjHill} +\title{Model objective functions} +\usage{ +tcplObjCnst(p, resp) + +tcplObjGnls(p, lconc, resp) + +tcplObjHill(p, lconc, resp) +} +\arguments{ +\item{p}{Numeric, the parameter values. See details for more information.} + +\item{resp}{Numeric, the response values} + +\item{lconc}{Numeric, the log10 concentration values} +} +\value{ +The log-likelyhood. +} +\description{ +These functions take in the dose-response data and the model parameters, and +return a likelyhood value. They are intended to be optimized using +\code{\link{constrOptim}} in the \code{\link{tcplFit}} function. +} +\details{ +These functions produce an estimated value based on the model and given +parameters for each observation. Those estimated values are then used with +the observed values and a scale term to calculate the log-likelyhood. + +Let \eqn{t(z,\nu)} be the Student's t-ditribution with \eqn{\nu} degrees of +freedom, \eqn{y_{i}}{y[i]} be the observed response at the \eqn{i^{th}}{ith} +observation, and \eqn{\mu_{i}}{\mu[i]} be the estimated response at the \eqn{i^{th}}{ith} +observation. We calculate \eqn{z_{i}}{z[i]} as: +\deqn{ +z_{i} = \frac{y_{i} - \mu_{i}}{e^\sigma} +}{ +z[i] = (y[i] - \mu[i])/e^\sigma +} +where \eqn{\sigma} is the scale term. Then the log-likelyhood is: +\deqn{ +\sum_{i=1}^{n} [ln(t(z_{i}, 4)) - \sigma] +}{ +sum_{i=1}^{n} [ln(t(z[i], 4)) - \sigma]} +Where \eqn{n} is the number of observations. +} +\section{Constant Model (cnst)}{ + +\code{tcplObjCnst} calculates the likelyhood for a constant model at 0. The +only parameter passed to \code{tcplObjCnst} by \code{p} is the scale term +\eqn{\sigma}. The constant model value \eqn{\mu_{i}}{\mu[i]} for the +\eqn{i^{th}}{ith} observation is given by: +\deqn{\mu_{i} = 0}{\mu[i] = 0} +} + +\section{Gain-Loss Model (gnls)}{ + +\code{tcplObjGnls} calculates the likelyhood for a 5 parameter model as the +product of two Hill models with the same top and both bottoms equal to 0. +The parameters passed to \code{tcplObjGnls} by \code{p} are (in order) top +(\eqn{\mathit{tp}}), gain log AC50 (\eqn{\mathit{ga}}), gain hill coefficient (\eqn{gw}), +loss log AC50 \eqn{\mathit{la}}, loss hill coefficient \eqn{\mathit{lw}}, and the scale +term (\eqn{\sigma}). The gain-loss model value \eqn{\mu_{i}}{\mu[i]} for the +\eqn{i^{th}}{ith} observation is given by: +\deqn{ +g_{i} = \frac{1}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}} +}{ +g[i] = 1/(1 + 10^(ga - x[i])*gw)} +\deqn{ +l_{i} = \frac{1}{1 + 10^{(x_{i} - \mathit{la})\mathit{lw}}} +}{ +l[i] = 1/(1 + 10^(x[i] - la)*lw)} +\deqn{\mu_{i} = \mathit{tp}(g_{i})(l_{i})}{\mu[i] = tp*g[i]*l[i]} +where \eqn{x_{i}}{x[i]} is the log concentration for the \eqn{i^{th}}{ith} +observation. +} + +\section{Hill Model (hill)}{ + +\code{tcplObjHill} calculates the likelyhood for a 3 parameter Hill model +with the bottom equal to 0. The parameters passed to \code{tcplObjHill} by +\code{p} are (in order) top (\eqn{\mathit{tp}}), log AC50 (\eqn{\mathit{ga}}), hill +coefficient (\eqn{\mathit{gw}}), and the scale term (\eqn{\sigma}). The hill model +value \eqn{\mu_{i}}{\mu[i]} for the \eqn{i^{th}}{ith} observation is given +by: +\deqn{ +\mu_{i} = \frac{tp}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}} +}{ +\mu[i] = tp/(1 + 10^(ga - x[i])*gw)} +where \eqn{x_{i}}{x[i]} is the log concentration for the \eqn{i^{th}}{ith} +observation. +} + diff --git a/man/SC1_Methods.Rd b/man/SC1_Methods.Rd index 6bac906..13f6476 100644 --- a/man/SC1_Methods.Rd +++ b/man/SC1_Methods.Rd @@ -1,92 +1,92 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/sc1_mthds.R -\name{SC1_Methods} -\alias{SC1_Methods} -\alias{sc1_mthds} -\title{List of level 1 single-concentration normalization functions} -\usage{ -sc1_mthds() -} -\value{ -A list functions -} -\description{ -\code{sc1_mthds} returns a list of functions to be used during level 1 -single-concentration processing. -} -\details{ -The functions contained in the list returned by \code{sc1_mthds} return -a list of expressions to be executed in the \code{sc2} (not exported) -function environment. The functions are described here for reference -purposes, The \code{sc1_mthds} function is not exported, nor is it -intended for use. - -All available methods are described in the Available Methods section, listed -by the function/method name. -} -\note{ -This function is not exported and is not intended to be used by the user. -} -\section{Available Methods}{ - - -The methods are broken into three types, based on what fields they define. -Different methods are used to define "bval" (the baseline value), "pval" -(the positive control value), and "resp" (the final response value). - -Although it does not say so specifically in each description, all methods -are applied by acid. - -More information about the level 3 single-concentration processing is -available in the package vignette, "Pipeline_Overview." - -\subsection{bval Methods}{ - \describe{ - \item{bval.apid.nwlls.med}{Calculate bval as the median of rval for - wells with wllt equal to "n," by apid.} - \item{bval.apid.twlls.med}{Calculate bval as the median of rval for - wells with wllt equal to "t," by apid.} - \item{bval.apid.tn.med}{Calculate bval as the median of rval for wells - with wllt equal to "t" or "n," by apid.} - } -} - -\subsection{pval Methods}{ - \describe{ - \item{pval.apid.pwlls.med}{Calculate pval as the median of rval for - wells with wllt equal to "p," by apid.} - \item{pval.apid.mwlls.med}{Calculate pval as the median of rval for - wells with wllt equal to "m," by apid.} - \item{pval.apid.medpcbyconc.max}{First calculate the median of rval for - wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then - calculate pval as the maximum of the calculated medians, by apid.} - \item{pval.apid.medpcbyconc.min}{First calculate the median of rval for - wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then - calculate pval as the minimum of the calculated medians, by apid.} - \item{pval.apid.medncbyconc.min}{First calculate the median of rval for - wells with wllt equal to "m" or "o," by wllt, conc, and apid. Then - calculate pval as the minimum of the calculated medians, by apid.} - \item{pval.zero}{Define pval as 0.} - } -} - -\subsection{resp Methods}{ - \describe{ - \item{resp.pc}{Calculate resp as \eqn{\frac{\mathit{rval} - - \mathit{bval}}{\mathit{pval} - \mathit{bval}}100}{(rval - bval)/(pval - - bval)*100}.} - \item{resp.fc}{Calculate resp as \eqn{\mathit{rval}/\mathit{bval}}{ - rval/bval}.} - \item{resp.logfc}{Calculate resp as \eqn{\mathit{rval} - \mathit{bval}}{ - rval - bval}.} - \item{resp.log2}{Take the logarithm of resp with base 2.} - \item{resp.multneg1}{Multiply resp by -1.} - \item{none}{Do no normalization; make resp equal to rval.} - } -} -} -\seealso{ -\code{\link{sc1}}, \code{\link{Method functions}} to query what -methods get applied to each acid -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/sc1_mthds.R +\name{SC1_Methods} +\alias{SC1_Methods} +\alias{sc1_mthds} +\title{List of level 1 single-concentration normalization functions} +\usage{ +sc1_mthds() +} +\value{ +A list functions +} +\description{ +\code{sc1_mthds} returns a list of functions to be used during level 1 +single-concentration processing. +} +\details{ +The functions contained in the list returned by \code{sc1_mthds} return +a list of expressions to be executed in the \code{sc2} (not exported) +function environment. The functions are described here for reference +purposes, The \code{sc1_mthds} function is not exported, nor is it +intended for use. + +All available methods are described in the Available Methods section, listed +by the function/method name. +} +\note{ +This function is not exported and is not intended to be used by the user. +} +\section{Available Methods}{ + + +The methods are broken into three types, based on what fields they define. +Different methods are used to define "bval" (the baseline value), "pval" +(the positive control value), and "resp" (the final response value). + +Although it does not say so specifically in each description, all methods +are applied by acid. + +More information about the level 3 single-concentration processing is +available in the package vignette, "Pipeline_Overview." + +\subsection{bval Methods}{ + \describe{ + \item{bval.apid.nwlls.med}{Calculate bval as the median of rval for + wells with wllt equal to "n," by apid.} + \item{bval.apid.twlls.med}{Calculate bval as the median of rval for + wells with wllt equal to "t," by apid.} + \item{bval.apid.tn.med}{Calculate bval as the median of rval for wells + with wllt equal to "t" or "n," by apid.} + } +} + +\subsection{pval Methods}{ + \describe{ + \item{pval.apid.pwlls.med}{Calculate pval as the median of rval for + wells with wllt equal to "p," by apid.} + \item{pval.apid.mwlls.med}{Calculate pval as the median of rval for + wells with wllt equal to "m," by apid.} + \item{pval.apid.medpcbyconc.max}{First calculate the median of rval for + wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then + calculate pval as the maximum of the calculated medians, by apid.} + \item{pval.apid.medpcbyconc.min}{First calculate the median of rval for + wells with wllt equal to "p" or "c," by wllt, conc, and apid. Then + calculate pval as the minimum of the calculated medians, by apid.} + \item{pval.apid.medncbyconc.min}{First calculate the median of rval for + wells with wllt equal to "m" or "o," by wllt, conc, and apid. Then + calculate pval as the minimum of the calculated medians, by apid.} + \item{pval.zero}{Define pval as 0.} + } +} + +\subsection{resp Methods}{ + \describe{ + \item{resp.pc}{Calculate resp as \eqn{\frac{\mathit{rval} - + \mathit{bval}}{\mathit{pval} - \mathit{bval}}100}{(rval - bval)/(pval + - bval)*100}.} + \item{resp.fc}{Calculate resp as \eqn{\mathit{rval}/\mathit{bval}}{ + rval/bval}.} + \item{resp.logfc}{Calculate resp as \eqn{\mathit{rval} - \mathit{bval}}{ + rval - bval}.} + \item{resp.log2}{Take the logarithm of resp with base 2.} + \item{resp.multneg1}{Multiply resp by -1.} + \item{none}{Do no normalization; make resp equal to rval.} + } +} +} + +\seealso{ +\code{\link{sc1}}, \code{\link{Method functions}} to query what +methods get applied to each acid +} diff --git a/man/SC2_Methods.Rd b/man/SC2_Methods.Rd index 6984f66..ab20030 100644 --- a/man/SC2_Methods.Rd +++ b/man/SC2_Methods.Rd @@ -1,52 +1,52 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/sc2_mthds.R -\name{SC2_Methods} -\alias{SC2_Methods} -\alias{sc2_mthds} -\title{List of level 2 single-concentration hit-call functions} -\usage{ -sc2_mthds() -} -\value{ -A list functions -} -\description{ -\code{sc2_mthds} returns a list of functions to be used during level 2 -single-concentration processing. -} -\details{ -The functions contained in the list returned by \code{sc2_mthds} return -a list of expressions to be executed in the \code{sc2} (not exported) -function environment. The functions are described here for reference -purposes, The \code{sc2_mthds} function is not exported, nor is it -intended for use. - -All available methods are described in the Available Methods section, listed -by the function/method name. -} -\note{ -This function is not exported and is not intended to be used by the user. -} -\section{Available Methods}{ - - -More information about the level 2 single-concentration processing is -available in the package vignette, "Pipeline_Overview." - -\describe{ - \item{bmad3}{Add a cutoff value of 3*bmad.} - \item{pc20}{Add a cutoff value of 20.} - \item{log2_1.2}{Add a cutoff value of log2(1.2).} - \item{log10_1.2}{Add a cutoff value of log10(1.2).} - \item{bmad5}{Add a cutoff value of 5*bmad.} - \item{bmad6}{Add a cutoff value of 6*bmad.} - \item{bmad10}{Add a cutoff value of 10*bmad.} - \item{pc30orbmad3}{Add a cutoff value of either 30 or 3*bmad, whichever - is less.} -} -} -\seealso{ -\code{\link{sc2}}, \code{\link{Method functions}} to query what -methods get applied to each acid -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/sc2_mthds.R +\name{SC2_Methods} +\alias{SC2_Methods} +\alias{sc2_mthds} +\title{List of level 2 single-concentration hit-call functions} +\usage{ +sc2_mthds() +} +\value{ +A list functions +} +\description{ +\code{sc2_mthds} returns a list of functions to be used during level 2 +single-concentration processing. +} +\details{ +The functions contained in the list returned by \code{sc2_mthds} return +a list of expressions to be executed in the \code{sc2} (not exported) +function environment. The functions are described here for reference +purposes, The \code{sc2_mthds} function is not exported, nor is it +intended for use. + +All available methods are described in the Available Methods section, listed +by the function/method name. +} +\note{ +This function is not exported and is not intended to be used by the user. +} +\section{Available Methods}{ + + +More information about the level 2 single-concentration processing is +available in the package vignette, "Pipeline_Overview." + +\describe{ + \item{bmad3}{Add a cutoff value of 3*bmad.} + \item{pc20}{Add a cutoff value of 20.} + \item{log2_1.2}{Add a cutoff value of log2(1.2).} + \item{log10_1.2}{Add a cutoff value of log10(1.2).} + \item{bmad5}{Add a cutoff value of 5*bmad.} + \item{bmad6}{Add a cutoff value of 6*bmad.} + \item{bmad10}{Add a cutoff value of 10*bmad.} + \item{pc30orbmad3}{Add a cutoff value of either 30 or 3*bmad, whichever + is less.} +} +} + +\seealso{ +\code{\link{sc2}}, \code{\link{Method functions}} to query what +methods get applied to each acid +} diff --git a/man/assay_funcs.Rd b/man/assay_funcs.Rd index d8e8817..23d61d2 100644 --- a/man/assay_funcs.Rd +++ b/man/assay_funcs.Rd @@ -1,70 +1,70 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/assay_funcs.R, R/tcplLoadAcid.R, R/tcplLoadAeid.R, R/tcplLoadAid.R, R/tcplLoadAsid.R -\name{Load assay information} -\alias{Load assay information} -\alias{tcplLoadAcid} -\alias{tcplLoadAeid} -\alias{tcplLoadAid} -\alias{tcplLoadAsid} -\title{Functions for loading assay information} -\usage{ -tcplLoadAcid(fld = NULL, val = NULL, add.fld = NULL) - -tcplLoadAeid(fld = NULL, val = NULL, add.fld = NULL) - -tcplLoadAid(fld = NULL, val = NULL, add.fld = NULL) - -tcplLoadAsid(fld = NULL, val = NULL, add.fld = NULL) -} -\arguments{ -\item{fld}{Character, the field(s) to query/subset on} - -\item{val}{List, vectors of values for each field to query/subset on. Must -be in the same order as 'fld'.} - -\item{add.fld}{Character, additional field(s) to include, but not query/ -subset on} -} -\value{ -A data.table containing the ID, name, and any additional fields. -} -\description{ -These functions query the tcpl databases and returns a data.table with -assay ID and name information. More information about the assay -hierarchy is available in the overview vignette. -} -\details{ -Each element in the assay hierarchy has its own function, loading the ID and -name for the given assay element. For example, \code{tcplLoadAsid} will -return the assay source ID (asid) and assay source name (asnm). -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## The load assay functions can be used without any parameters to list the -## full list of registered assay elements: -tcplLoadAsid() -tcplLoadAeid() - -## Similarly, the user can add fields without doing any element selection: -tcplLoadAeid(add.fld = c("asid", "aid", "acid")) - -## Or, the user can look only at a subset: -tcplLoadAeid(fld = "aeid", val = 1, add.fld = "asid") - -## The field can be any value in one of the corresponding assay element -## tables, but the functions also recognize the abbreviated version of -## the name fields. -tcplListFlds("assay") -a1 <- tcplLoadAeid(fld = "anm", val = "Steroidogenesis") -a2 <- tcplLoadAeid(fld = "assay_name", val = "Steroidogenesis") -identical(a1, a2) - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/assay_funcs.R, R/tcplLoadAcid.R, +% R/tcplLoadAeid.R, R/tcplLoadAid.R, R/tcplLoadAsid.R +\name{Load assay information} +\alias{Load assay information} +\alias{tcplLoadAcid} +\alias{tcplLoadAeid} +\alias{tcplLoadAid} +\alias{tcplLoadAsid} +\title{Functions for loading assay information} +\usage{ +tcplLoadAcid(fld = NULL, val = NULL, add.fld = NULL) + +tcplLoadAeid(fld = NULL, val = NULL, add.fld = NULL) + +tcplLoadAid(fld = NULL, val = NULL, add.fld = NULL) + +tcplLoadAsid(fld = NULL, val = NULL, add.fld = NULL) +} +\arguments{ +\item{fld}{Character, the field(s) to query/subset on} + +\item{val}{List, vectors of values for each field to query/subset on. Must +be in the same order as 'fld'.} + +\item{add.fld}{Character, additional field(s) to include, but not query/ +subset on} +} +\value{ +A data.table containing the ID, name, and any additional fields. +} +\description{ +These functions query the tcpl databases and returns a data.table with +assay ID and name information. More information about the assay +hierarchy is available in the overview vignette. +} +\details{ +Each element in the assay hierarchy has its own function, loading the ID and +name for the given assay element. For example, \code{tcplLoadAsid} will +return the assay source ID (asid) and assay source name (asnm). +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## The load assay functions can be used without any parameters to list the +## full list of registered assay elements: +tcplLoadAsid() +tcplLoadAeid() + +## Similarly, the user can add fields without doing any element selection: +tcplLoadAeid(add.fld = c("asid", "aid", "acid")) + +## Or, the user can look only at a subset: +tcplLoadAeid(fld = "aeid", val = 1, add.fld = "asid") + +## The field can be any value in one of the corresponding assay element +## tables, but the functions also recognize the abbreviated version of +## the name fields. +tcplListFlds("assay") +a1 <- tcplLoadAeid(fld = "anm", val = "Steroidogenesis") +a2 <- tcplLoadAeid(fld = "assay_name", val = "Steroidogenesis") +identical(a1, a2) + +## Reset configuration +options(conf_store) + +} diff --git a/man/blineShift.Rd b/man/blineShift.Rd index 6d36e53..efd5f67 100644 --- a/man/blineShift.Rd +++ b/man/blineShift.Rd @@ -1,29 +1,28 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/blineShift.R -\name{blineShift} -\alias{blineShift} -\title{Shift the baseline to 0} -\usage{ -blineShift(resp, logc, wndw) -} -\arguments{ -\item{resp}{Numeric, the response values} - -\item{logc}{Numeric, the log10 concentration values} - -\item{wndw}{Numeric, the threshold window} -} -\value{ -A numeric vector containing the shifted response values -} -\description{ -\code{blineShift} Takes in dose-response data and shifts the baseline -to 0 based on the window. -} -\note{ -This function is not exported and is not inteded to be used by the user. -} -\seealso{ -\code{\link{mc3_mthds}}, \code{\link{mc3}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/blineShift.R +\name{blineShift} +\alias{blineShift} +\title{Shift the baseline to 0} +\usage{ +blineShift(resp, logc, wndw) +} +\arguments{ +\item{resp}{Numeric, the response values} + +\item{logc}{Numeric, the log10 concentration values} + +\item{wndw}{Numeric, the threshold window} +} +\value{ +A numeric vector containing the shifted response values +} +\description{ +\code{blineShift} Takes in dose-response data and shifts the baseline +to 0 based on the window. +} +\note{ +This function is not exported and is not inteded to be used by the user. +} +\seealso{ +\code{\link{mc3_mthds}}, \code{\link{mc3}} +} diff --git a/man/config_funcs.Rd b/man/config_funcs.Rd index 507fdef..c97d10c 100644 --- a/man/config_funcs.Rd +++ b/man/config_funcs.Rd @@ -1,66 +1,86 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/config_funcs.R, R/tcplConf.R, R/tcplConfDefault.R, R/tcplConfList.R, R/tcplConfLoad.R, R/tcplConfReset.R, R/tcplConfSave.R -\name{Configure functions} -\alias{Configure functions} -\alias{tcplConf} -\alias{tcplConfDefault} -\alias{tcplConfList} -\alias{tcplConfLoad} -\alias{tcplConfReset} -\alias{tcplConfSave} -\title{Functions for configuring the tcpl package} -\usage{ -tcplConf(drvr = NULL, user = NULL, pass = NULL, host = NULL, - db = NULL) - -tcplConfDefault() - -tcplConfList(show.pass = FALSE) - -tcplConfLoad() - -tcplConfReset() - -tcplConfSave() -} -\arguments{ -\item{drvr}{Character of length 1, which database driver to use} - -\item{user}{Character of length 1, the database server username} - -\item{pass}{Character of length 1, the database server password} - -\item{host}{Character of length 1, the database server} - -\item{db}{Character of length 1, the name of the tcpl database} - -\item{show.pass}{Logical, should the password be returned} -} -\description{ -These functions are used to configure the tcpl settings. -} -\details{ -Currently, the tcpl package only supports the "MySQL" and "SQLite" database -drivers. - -\code{tcplConf} changes \code{options} to set the tcpl-specific options, -most importantly to configure the connection to the tcpl databases. -\code{tcplConf} will only change non-null values, and can be used to -change a single value if needed. - -\code{tcplConfSave} modifies the TCPL.config file to reflect the current -tcpl settings. - -\code{tcplConfList} lists the values assigned to the tcpl global options. - -\code{tcplConfLoad} updates the tcpl settings to reflect the current -configuration file. - -\code{tcplConfDefault} changes the \code{options} to reflect the default -settings for the example SQLite database, but does not alter the -configuration file. - -\code{tcplConfReset} is used to generate the initial configuration script, -and can be used to reset or regenerate the configuration script by the user. -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/config_funcs.R, R/tcplConf.R, +% R/tcplConfDefault.R, R/tcplConfList.R, R/tcplConfLoad.R, R/tcplConfReset.R, +% R/tcplConfSave.R +\name{Configure functions} +\alias{Configure functions} +\alias{tcplConf} +\alias{tcplConfDefault} +\alias{tcplConfList} +\alias{tcplConfLoad} +\alias{tcplConfReset} +\alias{tcplConfSave} +\title{Functions for configuring the tcpl package} +\usage{ +tcplConf(drvr = NULL, user = NULL, pass = NULL, host = NULL, + db = NULL) + +tcplConfDefault() + +tcplConfList(show.pass = FALSE) + +tcplConfLoad(list.new = TRUE) + +tcplConfReset() + +tcplConfSave() +} +\arguments{ +\item{drvr}{Character of length 1, which database driver to use} + +\item{user}{Character of length 1, the database server username} + +\item{pass}{Character of length 1, the database server password} + +\item{host}{Character of length 1, the database server} + +\item{db}{Character of length 1, the name of the tcpl database} + +\item{show.pass}{Logical, should the password be returned} + +\item{list.new}{Logical of length 1, should the new settings be printed?} +} +\description{ +These functions are used to configure the tcpl settings. +} +\details{ +Currently, the tcpl package only supports the "MySQL" and "SQLite" database +drivers. + +The settings can be stored in a configuration file to make the using the +package more user-friendly. To create the configuration file, the user must +first create a system environment variable ('TCPL_CONF') that points to to +the file. There is more information about system environment variables in +\code{\link{Startup}} and \code{\link{Sys.getenv}}. Briefly, the user +needs to modify the '.Renviron' file in their home directory. If the file +does not exist, create it, and add the following line: + +TCPL_CONF=path/to/confFile.conf + +Here 'path/to/confFile.conf' can be any path to a file. One suggestion would +be to include .tcplConf in the home directory, eg. TCPL_CONF=~/.tcplConf. +Note, '~' may not indicate the home directory on every operating system. +Once the environment variable is added, the user can change the settings +using \code{tcplConf}, then save the settings to the file given by the +TCPL_CONF environment variable running \code{tcplConfSave()}. + +\code{tcplConf} changes \code{options} to set the tcpl-specific options, +most importantly to configure the connection to the tcpl databases. +\code{tcplConf} will only change non-null values, and can be used to +change a single value if needed. + +\code{tcplConfSave} modifies the configuration file to reflect the current +tcpl settings. + +\code{tcplConfList} lists the values assigned to the tcpl global options. + +\code{tcplConfLoad} updates the tcpl settings to reflect the current +configuration file. + +\code{tcplConfDefault} changes the \code{options} to reflect the default +settings for the example SQLite database, but does not alter the +configuration file. + +\code{tcplConfReset} is used to generate the initial configuration script, +and can be used to reset or regenerate the configuration script by the user. +} diff --git a/man/flareFunc.Rd b/man/flareFunc.Rd index b2d1958..35cbc64 100644 --- a/man/flareFunc.Rd +++ b/man/flareFunc.Rd @@ -1,29 +1,28 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/flareFunc.R -\name{flareFunc} -\alias{flareFunc} -\title{Calculate the weighted mean of a square to detect plate flares} -\usage{ -flareFunc(val, coli, rowi, apid, r) -} -\arguments{ -\item{val}{Numeric, the well values} - -\item{coli}{Integer, the well column index} - -\item{rowi}{Integer, the well row index} - -\item{apid}{Character, the assay plate id} - -\item{r}{Integer, the number of wells from the center well (in one -direction) to make the square} -} -\description{ -\code{flareFunc} calculates the weighted mean of square regions to detect -plate flares. -} -\seealso{ -\code{\link{MC6_Methods}}, \code{\link{Method functions}}, -\code{\link{mc6}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/flareFunc.R +\name{flareFunc} +\alias{flareFunc} +\title{Calculate the weighted mean of a square to detect plate flares} +\usage{ +flareFunc(val, coli, rowi, apid, r) +} +\arguments{ +\item{val}{Numeric, the well values} + +\item{coli}{Integer, the well column index} + +\item{rowi}{Integer, the well row index} + +\item{apid}{Character, the assay plate id} + +\item{r}{Integer, the number of wells from the center well (in one +direction) to make the square} +} +\description{ +\code{flareFunc} calculates the weighted mean of square regions to detect +plate flares. +} +\seealso{ +\code{\link{MC6_Methods}}, \code{\link{Method functions}}, +\code{\link{mc6}} +} diff --git a/man/hill_utils.Rd b/man/hill_utils.Rd index c3e702c..02fe242 100644 --- a/man/hill_utils.Rd +++ b/man/hill_utils.Rd @@ -1,71 +1,71 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/hill_utils.R, R/tcplHillACXX.R, R/tcplHillConc.R, R/tcplHillVal.R -\name{Hill model utilites} -\alias{Hill model utilites} -\alias{tcplHillACXX} -\alias{tcplHillConc} -\alias{tcplHillVal} -\title{Functions to solve the Hill model} -\usage{ -tcplHillACXX(XX, tp, ga, gw, bt = 0) - -tcplHillConc(val, tp, ga, gw, bt = 0) - -tcplHillVal(logc, tp, ga, gw, bt = 0) -} -\arguments{ -\item{XX}{Numeric, the activity level (percentage of the top value)} - -\item{tp}{Numeric, the top value from the Hill model} - -\item{ga}{Numeric, the logAC50 value from the Hill model} - -\item{gw}{Numeric, the Hill coefficient from the Hill model} - -\item{bt}{Numierc, the bottom value from the Hill model} - -\item{val}{Numeric, the activity value} - -\item{logc}{Numeric, the log concentration} -} -\description{ -These functions solve for Hill model parameters. -} -\details{ -\code{tcplHillVal} computes the value of the Hill model for a given log -concentration. - -\code{tcplHillACXX} computes the activity concentration for a Hill model for -a given activity level. - -\code{tcplHillConc} computes the Hill model concentration for a -given value. -} -\examples{ -## The following code gives examples for a Hill model with a top of 50, -## bottom of 0, AC50 of 1 and Hill coefficient of 1. -## tcplHillVal calculates activity value given a concentration. tcplHillVal -## will return the tp/2 when logc equals ga: -tcplHillVal(logc = 1, tp = 50, ga = 1, gw = 1, bt = 0) - -## Here, tcplHillConc returns the concentration where the value equals 20 -tcplHillConc(val = 20, tp = 50, ga = 1, gw = 1, bt = 0) - -## Note how this differs from tcplHillACXX: -tcplHillACXX(XX = 20, tp = 50, ga = 1, gw = 1, bt = 0) - -## tcplHillACXX is based on the top value and allows the user to calculate -## specifc activity concentrations based on a percentage of the top value - -## For example, we can calculate the value for the concentration 0.25, then -## use that value to check the other two functions. - -value <- tcplHillVal(logc = 0.25, tp = 50, ga = 1, gw = 1, bt = 0) -c1 <- tcplHillConc(val = value, tp = 50, ga = 1, gw = 1, bt = 0) -c2 <- tcplHillACXX(XX = value/50*100, tp = 50, ga = 1, gw = 1, bt = 0) -all.equal(0.25, c1, c2) - -## Notice, the value had to be transformed to a percentage of the top value -## when using tcplHillACXX -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/hill_utils.R, R/tcplHillACXX.R, +% R/tcplHillConc.R, R/tcplHillVal.R +\name{Hill model utilites} +\alias{Hill model utilites} +\alias{tcplHillACXX} +\alias{tcplHillConc} +\alias{tcplHillVal} +\title{Functions to solve the Hill model} +\usage{ +tcplHillACXX(XX, tp, ga, gw, bt = 0) + +tcplHillConc(val, tp, ga, gw, bt = 0) + +tcplHillVal(logc, tp, ga, gw, bt = 0) +} +\arguments{ +\item{XX}{Numeric, the activity level (percentage of the top value)} + +\item{tp}{Numeric, the top value from the Hill model} + +\item{ga}{Numeric, the logAC50 value from the Hill model} + +\item{gw}{Numeric, the Hill coefficient from the Hill model} + +\item{bt}{Numierc, the bottom value from the Hill model} + +\item{val}{Numeric, the activity value} + +\item{logc}{Numeric, the log concentration} +} +\description{ +These functions solve for Hill model parameters. +} +\details{ +\code{tcplHillVal} computes the value of the Hill model for a given log +concentration. + +\code{tcplHillACXX} computes the activity concentration for a Hill model for +a given activity level. + +\code{tcplHillConc} computes the Hill model concentration for a +given value. +} +\examples{ +## The following code gives examples for a Hill model with a top of 50, +## bottom of 0, AC50 of 1 and Hill coefficient of 1. +## tcplHillVal calculates activity value given a concentration. tcplHillVal +## will return the tp/2 when logc equals ga: +tcplHillVal(logc = 1, tp = 50, ga = 1, gw = 1, bt = 0) + +## Here, tcplHillConc returns the concentration where the value equals 20 +tcplHillConc(val = 20, tp = 50, ga = 1, gw = 1, bt = 0) + +## Note how this differs from tcplHillACXX: +tcplHillACXX(XX = 20, tp = 50, ga = 1, gw = 1, bt = 0) + +## tcplHillACXX is based on the top value and allows the user to calculate +## specifc activity concentrations based on a percentage of the top value + +## For example, we can calculate the value for the concentration 0.25, then +## use that value to check the other two functions. + +value <- tcplHillVal(logc = 0.25, tp = 50, ga = 1, gw = 1, bt = 0) +c1 <- tcplHillConc(val = value, tp = 50, ga = 1, gw = 1, bt = 0) +c2 <- tcplHillACXX(XX = value/50*100, tp = 50, ga = 1, gw = 1, bt = 0) +all.equal(0.25, c1, c2) + +## Notice, the value had to be transformed to a percentage of the top value +## when using tcplHillACXX +} diff --git a/man/interlaceFunc.Rd b/man/interlaceFunc.Rd index cda3a4f..d787880 100644 --- a/man/interlaceFunc.Rd +++ b/man/interlaceFunc.Rd @@ -1,32 +1,31 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/interlaceFunc.R -\name{interlaceFunc} -\alias{interlaceFunc} -\title{Calculate the weighted mean of a square to detect interlace effect} -\usage{ -interlaceFunc(val, intq, coli, rowi, apid, r) -} -\arguments{ -\item{val}{Numeric, the well values} - -\item{intq}{Numeric, interlace quadrant} - -\item{coli}{Integer, the well column index} - -\item{rowi}{Integer, the well row index} - -\item{apid}{Character, the assay plate id} - -\item{r}{Integer, the number of wells from the center well (in one -direction) to make the square} -} -\description{ -\code{interlaceFunc} calculates the distance weighted mean of square regions -from a 384-well plate that is interlaced onto a 1536 well plate to detect -non-random signals coming from the source plate -} -\seealso{ -\code{\link{MC6_Methods}}, \code{\link{Method functions}}, -\code{\link{mc6}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/interlaceFunc.R +\name{interlaceFunc} +\alias{interlaceFunc} +\title{Calculate the weighted mean of a square to detect interlace effect} +\usage{ +interlaceFunc(val, intq, coli, rowi, apid, r) +} +\arguments{ +\item{val}{Numeric, the well values} + +\item{intq}{Numeric, interlace quadrant} + +\item{coli}{Integer, the well column index} + +\item{rowi}{Integer, the well row index} + +\item{apid}{Character, the assay plate id} + +\item{r}{Integer, the number of wells from the center well (in one +direction) to make the square} +} +\description{ +\code{interlaceFunc} calculates the distance weighted mean of square regions +from a 384-well plate that is interlaced onto a 1536 well plate to detect +non-random signals coming from the source plate +} +\seealso{ +\code{\link{MC6_Methods}}, \code{\link{Method functions}}, +\code{\link{mc6}} +} diff --git a/man/is.odd.Rd b/man/is.odd.Rd index 973c483..eb919c6 100644 --- a/man/is.odd.Rd +++ b/man/is.odd.Rd @@ -1,23 +1,22 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/is.odd.R -\name{is.odd} -\alias{is.odd} -\title{Check for odd numbers} -\usage{ -is.odd(x) -} -\arguments{ -\item{x}{An integer} -} -\value{ -\code{TRUE} for odd integers and \code{FALSE} for even integers. -} -\description{ -\code{is.odd} takes an integer vector, \code{x}, and returns TRUE for odd -integers. -} -\seealso{ -Other tcpl abbreviations: \code{\link{lu}}, - \code{\link{lw}}, \code{\link{sink.reset}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/is.odd.R +\name{is.odd} +\alias{is.odd} +\title{Check for odd numbers} +\usage{ +is.odd(x) +} +\arguments{ +\item{x}{An integer} +} +\value{ +\code{TRUE} for odd integers and \code{FALSE} for even integers. +} +\description{ +\code{is.odd} takes an integer vector, \code{x}, and returns TRUE for odd +integers. +} +\seealso{ +Other tcpl abbreviations: \code{\link{lu}}, + \code{\link{lw}}, \code{\link{sink.reset}} +} diff --git a/man/lu.Rd b/man/lu.Rd index 5471450..999178e 100644 --- a/man/lu.Rd +++ b/man/lu.Rd @@ -1,25 +1,24 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/lu.R -\name{lu} -\alias{lu} -\title{Abbreviation for \code{length(unique(x))}} -\usage{ -lu(x) -} -\arguments{ -\item{x}{A logical} -} -\value{ -The unique of the \code{TRUE} values in \code{x} -} -\description{ -\code{lu} takes a logical vector, \code{x}, and returns -\code{length(unique(x))}. -} -\seealso{ -\code{\link{unique}}, \code{\link{which}} - -Other tcpl abbreviations: \code{\link{is.odd}}, - \code{\link{lw}}, \code{\link{sink.reset}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/lu.R +\name{lu} +\alias{lu} +\title{Abbreviation for \code{length(unique(x))}} +\usage{ +lu(x) +} +\arguments{ +\item{x}{A logical} +} +\value{ +The unique of the \code{TRUE} values in \code{x} +} +\description{ +\code{lu} takes a logical vector, \code{x}, and returns +\code{length(unique(x))}. +} +\seealso{ +\code{\link{unique}}, \code{\link{which}} + +Other tcpl abbreviations: \code{\link{is.odd}}, + \code{\link{lw}}, \code{\link{sink.reset}} +} diff --git a/man/lw.Rd b/man/lw.Rd index 5cdaa10..cafb0fa 100644 --- a/man/lw.Rd +++ b/man/lw.Rd @@ -1,25 +1,24 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/lw.R -\name{lw} -\alias{lw} -\title{Abbreviation for \code{length(which(x))}} -\usage{ -lw(x) -} -\arguments{ -\item{x}{A logical} -} -\value{ -The length of the \code{TRUE} values in \code{x} -} -\description{ -\code{lw} takes a logical vector, \code{x}, and returns -\code{length(which(x))}. -} -\seealso{ -\code{\link{length}}, \code{\link{which}} - -Other tcpl abbreviations: \code{\link{is.odd}}, - \code{\link{lu}}, \code{\link{sink.reset}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/lw.R +\name{lw} +\alias{lw} +\title{Abbreviation for \code{length(which(x))}} +\usage{ +lw(x) +} +\arguments{ +\item{x}{A logical} +} +\value{ +The length of the \code{TRUE} values in \code{x} +} +\description{ +\code{lw} takes a logical vector, \code{x}, and returns +\code{length(which(x))}. +} +\seealso{ +\code{\link{length}}, \code{\link{which}} + +Other tcpl abbreviations: \code{\link{is.odd}}, + \code{\link{lu}}, \code{\link{sink.reset}} +} diff --git a/man/mc1.Rd b/man/mc1.Rd index 62cbe9b..4d57213 100644 --- a/man/mc1.Rd +++ b/man/mc1.Rd @@ -1,44 +1,43 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc1.R -\name{mc1} -\alias{mc1} -\title{Perform level 1 -multiple-concentration processing} -\usage{ -mc1(ac, wr = FALSE) -} -\arguments{ -\item{ac}{Integer of length 1, assay component id (acid) for processing.} - -\item{wr}{Logical, whether the processed data should be written to the tcpl -database} -} -\value{ -A boolean of length 1, indicating the success of the processing, or -when 'wr' is FALSE, a list where the first element is a boolean indiciating -the success of processing and the second element is a data.table containing -the processed data -} -\description{ -\code{mc1} loads level 0 data from the tcpl -database for the given id and performs level 1 -multiple-concentration processing. -The processed data is then loaded into the mc1 table and -all subsequent data is deleted with \code{\link{tcplCascade}}. See details -for more information. - -The individual processing functions are no longer exported, as it is -typically more convenient and suggested to use the \code{\link{tcplRun}} -wrapper function. -} -\details{ -Level 1 processing includes defining the concentration and replicate index, -cndx and repi, respectively. -} -\seealso{ -Other multiple-concentration data -processing functions: \code{\link{mc2}}, - \code{\link{mc3}}, \code{\link{mc4}}, \code{\link{mc5}}, - \code{\link{mc6}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc1.R +\name{mc1} +\alias{mc1} +\title{Perform level 1 +multiple-concentration processing} +\usage{ +mc1(ac, wr = FALSE) +} +\arguments{ +\item{ac}{Integer of length 1, assay component id (acid) for processing.} + +\item{wr}{Logical, whether the processed data should be written to the tcpl +database} +} +\value{ +A boolean of length 1, indicating the success of the processing, or +when 'wr' is FALSE, a list where the first element is a boolean indiciating +the success of processing and the second element is a data.table containing +the processed data +} +\description{ +\code{mc1} loads level 0 data from the tcpl +database for the given id and performs level 1 +multiple-concentration processing. +The processed data is then loaded into the mc1 table and +all subsequent data is deleted with \code{\link{tcplCascade}}. See details +for more information. + +The individual processing functions are no longer exported, as it is +typically more convenient and suggested to use the \code{\link{tcplRun}} +wrapper function. +} +\details{ +Level 1 processing includes defining the concentration and replicate index, +cndx and repi, respectively. +} +\seealso{ +Other multiple-concentration data +processing functions: \code{\link{mc2}}, + \code{\link{mc3}}, \code{\link{mc4}}, \code{\link{mc5}}, + \code{\link{mc6}} +} diff --git a/man/mc2.Rd b/man/mc2.Rd index 7dc300b..27e7ad7 100644 --- a/man/mc2.Rd +++ b/man/mc2.Rd @@ -1,47 +1,46 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc2.R -\name{mc2} -\alias{mc2} -\title{Perform level 2 -multiple-concentration processing} -\usage{ -mc2(ac, wr = FALSE) -} -\arguments{ -\item{ac}{Integer of length 1, assay component id (acid) for processing.} - -\item{wr}{Logical, whether the processed data should be written to the tcpl -database} -} -\value{ -A boolean of length 1, indicating the success of the processing, or -when 'wr' is FALSE, a list where the first element is a boolean indiciating -the success of processing and the second element is a data.table containing -the processed data -} -\description{ -\code{mc2} loads level 1 data from the tcpl -database for the given id and performs level 2 -multiple-concentration processing. -The processed data is then loaded into the mc2 table and -all subsequent data is deleted with \code{\link{tcplCascade}}. See details -for more information. - -The individual processing functions are no longer exported, as it is -typically more convenient and suggested to use the \code{\link{tcplRun}} -wrapper function. -} -\details{ -Level 2 multiple-concentration processing includes defining the -corrected value, cval, based on the correction methods listed in the -mc2_acid and mc2_methods tables. -} -\seealso{ -\code{\link{Method functions}}, \code{\link{MC2_Methods}} - -Other multiple-concentration data -processing functions: \code{\link{mc1}}, - \code{\link{mc3}}, \code{\link{mc4}}, \code{\link{mc5}}, - \code{\link{mc6}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc2.R +\name{mc2} +\alias{mc2} +\title{Perform level 2 +multiple-concentration processing} +\usage{ +mc2(ac, wr = FALSE) +} +\arguments{ +\item{ac}{Integer of length 1, assay component id (acid) for processing.} + +\item{wr}{Logical, whether the processed data should be written to the tcpl +database} +} +\value{ +A boolean of length 1, indicating the success of the processing, or +when 'wr' is FALSE, a list where the first element is a boolean indiciating +the success of processing and the second element is a data.table containing +the processed data +} +\description{ +\code{mc2} loads level 1 data from the tcpl +database for the given id and performs level 2 +multiple-concentration processing. +The processed data is then loaded into the mc2 table and +all subsequent data is deleted with \code{\link{tcplCascade}}. See details +for more information. + +The individual processing functions are no longer exported, as it is +typically more convenient and suggested to use the \code{\link{tcplRun}} +wrapper function. +} +\details{ +Level 2 multiple-concentration processing includes defining the +corrected value, cval, based on the correction methods listed in the +mc2_acid and mc2_methods tables. +} +\seealso{ +\code{\link{Method functions}}, \code{\link{MC2_Methods}} + +Other multiple-concentration data +processing functions: \code{\link{mc1}}, + \code{\link{mc3}}, \code{\link{mc4}}, \code{\link{mc5}}, + \code{\link{mc6}} +} diff --git a/man/mc3.Rd b/man/mc3.Rd index 35e014b..90c0f23 100644 --- a/man/mc3.Rd +++ b/man/mc3.Rd @@ -1,48 +1,47 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc3.R -\name{mc3} -\alias{mc3} -\title{Perform level 3 -multiple-concentration processing} -\usage{ -mc3(ac, wr = FALSE) -} -\arguments{ -\item{ac}{Integer of length 1, assay component id (acid) for processing.} - -\item{wr}{Logical, whether the processed data should be written to the tcpl -database} -} -\value{ -A boolean of length 1, indicating the success of the processing, or -when 'wr' is FALSE, a list where the first element is a boolean indiciating -the success of processing and the second element is a data.table containing -the processed data -} -\description{ -\code{mc3} loads level 2 data from the tcpl -database for the given id and performs level 3 -multiple-concentration processing. -The processed data is then loaded into the mc3 table and -all subsequent data is deleted with \code{\link{tcplCascade}}. See details -for more information. - -The individual processing functions are no longer exported, as it is -typically more convenient and suggested to use the \code{\link{tcplRun}} -wrapper function. -} -\details{ -Level 3 multiple-concentration processing includes mapping assay component -to assay endpoint, duplicating the data when the assay component has -multiple assay endpoints, and any normalization of the data. Data -normalization based on methods listed in mc3_aeid and mc3_methods tables. -} -\seealso{ -\code{\link{Method functions}}, \code{\link{MC3_Methods}} - -Other multiple-concentration data -processing functions: \code{\link{mc1}}, - \code{\link{mc2}}, \code{\link{mc4}}, \code{\link{mc5}}, - \code{\link{mc6}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc3.R +\name{mc3} +\alias{mc3} +\title{Perform level 3 +multiple-concentration processing} +\usage{ +mc3(ac, wr = FALSE) +} +\arguments{ +\item{ac}{Integer of length 1, assay component id (acid) for processing.} + +\item{wr}{Logical, whether the processed data should be written to the tcpl +database} +} +\value{ +A boolean of length 1, indicating the success of the processing, or +when 'wr' is FALSE, a list where the first element is a boolean indiciating +the success of processing and the second element is a data.table containing +the processed data +} +\description{ +\code{mc3} loads level 2 data from the tcpl +database for the given id and performs level 3 +multiple-concentration processing. +The processed data is then loaded into the mc3 table and +all subsequent data is deleted with \code{\link{tcplCascade}}. See details +for more information. + +The individual processing functions are no longer exported, as it is +typically more convenient and suggested to use the \code{\link{tcplRun}} +wrapper function. +} +\details{ +Level 3 multiple-concentration processing includes mapping assay component +to assay endpoint, duplicating the data when the assay component has +multiple assay endpoints, and any normalization of the data. Data +normalization based on methods listed in mc3_aeid and mc3_methods tables. +} +\seealso{ +\code{\link{Method functions}}, \code{\link{MC3_Methods}} + +Other multiple-concentration data +processing functions: \code{\link{mc1}}, + \code{\link{mc2}}, \code{\link{mc4}}, \code{\link{mc5}}, + \code{\link{mc6}} +} diff --git a/man/mc4.Rd b/man/mc4.Rd index 3e80641..988c7bb 100644 --- a/man/mc4.Rd +++ b/man/mc4.Rd @@ -1,49 +1,48 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc4.R -\name{mc4} -\alias{mc4} -\title{Perform level 4 -multiple-concentration processing} -\usage{ -mc4(ae, wr = FALSE) -} -\arguments{ -\item{ae}{Integer of length 1, assay endpoint id (aeid) for processing.} - -\item{wr}{Logical, whether the processed data should be written to the tcpl -database} -} -\value{ -A boolean of length 1, indicating the success of the processing, or -when 'wr' is FALSE, a list where the first element is a boolean indiciating -the success of processing and the second element is a data.table containing -the processed data -} -\description{ -\code{mc4} loads level 3 data from the tcpl -database for the given id and performs level 4 -multiple-concentration processing. -The processed data is then loaded into the mc4 table and -all subsequent data is deleted with \code{\link{tcplCascade}}. See details -for more information. - -The individual processing functions are no longer exported, as it is -typically more convenient and suggested to use the \code{\link{tcplRun}} -wrapper function. -} -\details{ -Level 4 multiple-concentration modeling takes the dose-response data for -chemical-assay pairs, and fits three models to the data: constant, hill, -and gain-loss. For more information about the models see -\code{\link{Models}}. When a chemical has more than one sample, the function -fits each sample seperately. -} -\seealso{ -\code{\link{tcplFit}}, \code{\link{Models}} - -Other multiple-concentration data -processing functions: \code{\link{mc1}}, - \code{\link{mc2}}, \code{\link{mc3}}, \code{\link{mc5}}, - \code{\link{mc6}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc4.R +\name{mc4} +\alias{mc4} +\title{Perform level 4 +multiple-concentration processing} +\usage{ +mc4(ae, wr = FALSE) +} +\arguments{ +\item{ae}{Integer of length 1, assay endpoint id (aeid) for processing.} + +\item{wr}{Logical, whether the processed data should be written to the tcpl +database} +} +\value{ +A boolean of length 1, indicating the success of the processing, or +when 'wr' is FALSE, a list where the first element is a boolean indiciating +the success of processing and the second element is a data.table containing +the processed data +} +\description{ +\code{mc4} loads level 3 data from the tcpl +database for the given id and performs level 4 +multiple-concentration processing. +The processed data is then loaded into the mc4 table and +all subsequent data is deleted with \code{\link{tcplCascade}}. See details +for more information. + +The individual processing functions are no longer exported, as it is +typically more convenient and suggested to use the \code{\link{tcplRun}} +wrapper function. +} +\details{ +Level 4 multiple-concentration modeling takes the dose-response data for +chemical-assay pairs, and fits three models to the data: constant, hill, +and gain-loss. For more information about the models see +\code{\link{Models}}. When a chemical has more than one sample, the function +fits each sample seperately. +} +\seealso{ +\code{\link{tcplFit}}, \code{\link{Models}} + +Other multiple-concentration data +processing functions: \code{\link{mc1}}, + \code{\link{mc2}}, \code{\link{mc3}}, \code{\link{mc5}}, + \code{\link{mc6}} +} diff --git a/man/mc5.Rd b/man/mc5.Rd index e417963..cb0aaa5 100644 --- a/man/mc5.Rd +++ b/man/mc5.Rd @@ -1,47 +1,46 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc5.R -\name{mc5} -\alias{mc5} -\title{Perform level 5 -multiple-concentration processing} -\usage{ -mc5(ae, wr = FALSE) -} -\arguments{ -\item{ae}{Integer of length 1, assay endpoint id (aeid) for processing.} - -\item{wr}{Logical, whether the processed data should be written to the tcpl -database} -} -\value{ -A boolean of length 1, indicating the success of the processing, or -when 'wr' is FALSE, a list where the first element is a boolean indiciating -the success of processing and the second element is a data.table containing -the processed data -} -\description{ -\code{mc5} loads level 4 data from the tcpl -database for the given id and performs level 5 -multiple-concentration processing. -The processed data is then loaded into the mc5 table and -all subsequent data is deleted with \code{\link{tcplCascade}}. See details -for more information. - -The individual processing functions are no longer exported, as it is -typically more convenient and suggested to use the \code{\link{tcplRun}} -wrapper function. -} -\details{ -Level 5 multiple-concentration hit-calling uses the fit parameters and the -activity cutoff methods from mc5_aeid and mc5_methods to make an activity -call and identify the winning model for each fit. -} -\seealso{ -\code{\link{Method functions}}, \code{\link{MC5_Methods}} - -Other multiple-concentration data -processing functions: \code{\link{mc1}}, - \code{\link{mc2}}, \code{\link{mc3}}, \code{\link{mc4}}, - \code{\link{mc6}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc5.R +\name{mc5} +\alias{mc5} +\title{Perform level 5 +multiple-concentration processing} +\usage{ +mc5(ae, wr = FALSE) +} +\arguments{ +\item{ae}{Integer of length 1, assay endpoint id (aeid) for processing.} + +\item{wr}{Logical, whether the processed data should be written to the tcpl +database} +} +\value{ +A boolean of length 1, indicating the success of the processing, or +when 'wr' is FALSE, a list where the first element is a boolean indiciating +the success of processing and the second element is a data.table containing +the processed data +} +\description{ +\code{mc5} loads level 4 data from the tcpl +database for the given id and performs level 5 +multiple-concentration processing. +The processed data is then loaded into the mc5 table and +all subsequent data is deleted with \code{\link{tcplCascade}}. See details +for more information. + +The individual processing functions are no longer exported, as it is +typically more convenient and suggested to use the \code{\link{tcplRun}} +wrapper function. +} +\details{ +Level 5 multiple-concentration hit-calling uses the fit parameters and the +activity cutoff methods from mc5_aeid and mc5_methods to make an activity +call and identify the winning model for each fit. +} +\seealso{ +\code{\link{Method functions}}, \code{\link{MC5_Methods}} + +Other multiple-concentration data +processing functions: \code{\link{mc1}}, + \code{\link{mc2}}, \code{\link{mc3}}, \code{\link{mc4}}, + \code{\link{mc6}} +} diff --git a/man/mc6.Rd b/man/mc6.Rd index 533c3b8..2e0038c 100644 --- a/man/mc6.Rd +++ b/man/mc6.Rd @@ -1,47 +1,46 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mc6.R -\name{mc6} -\alias{mc6} -\title{Perform level 6 -multiple-concentration processing} -\usage{ -mc6(ae, wr = FALSE) -} -\arguments{ -\item{ae}{Integer of length 1, assay endpoint id (aeid) for processing.} - -\item{wr}{Logical, whether the processed data should be written to the tcpl -database} -} -\value{ -A boolean of length 1, indicating the success of the processing, or -when 'wr' is FALSE, a list where the first element is a boolean indiciating -the success of processing and the second element is a data.table containing -the processed data -} -\description{ -\code{mc6} loads level 5 data from the tcpl -database for the given id and performs level 6 -multiple-concentration processing. -The processed data is then loaded into the mc6 table and -all subsequent data is deleted with \code{\link{tcplCascade}}. See details -for more information. - -The individual processing functions are no longer exported, as it is -typically more convenient and suggested to use the \code{\link{tcplRun}} -wrapper function. -} -\details{ -Level 6 multiple-concentration flagging uses both the plate level -concentration-response data and the modeled parameters to flag potential -false positives and false negative results. -} -\seealso{ -\code{\link{Method functions}}, \code{\link{MC6_Methods}} - -Other multiple-concentration data -processing functions: \code{\link{mc1}}, - \code{\link{mc2}}, \code{\link{mc3}}, \code{\link{mc4}}, - \code{\link{mc5}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mc6.R +\name{mc6} +\alias{mc6} +\title{Perform level 6 +multiple-concentration processing} +\usage{ +mc6(ae, wr = FALSE) +} +\arguments{ +\item{ae}{Integer of length 1, assay endpoint id (aeid) for processing.} + +\item{wr}{Logical, whether the processed data should be written to the tcpl +database} +} +\value{ +A boolean of length 1, indicating the success of the processing, or +when 'wr' is FALSE, a list where the first element is a boolean indiciating +the success of processing and the second element is a data.table containing +the processed data +} +\description{ +\code{mc6} loads level 5 data from the tcpl +database for the given id and performs level 6 +multiple-concentration processing. +The processed data is then loaded into the mc6 table and +all subsequent data is deleted with \code{\link{tcplCascade}}. See details +for more information. + +The individual processing functions are no longer exported, as it is +typically more convenient and suggested to use the \code{\link{tcplRun}} +wrapper function. +} +\details{ +Level 6 multiple-concentration flagging uses both the plate level +concentration-response data and the modeled parameters to flag potential +false positives and false negative results. +} +\seealso{ +\code{\link{Method functions}}, \code{\link{MC6_Methods}} + +Other multiple-concentration data +processing functions: \code{\link{mc1}}, + \code{\link{mc2}}, \code{\link{mc3}}, \code{\link{mc4}}, + \code{\link{mc5}} +} diff --git a/man/mthd_funcs.Rd b/man/mthd_funcs.Rd index eacc9ed..f4c0d00 100644 --- a/man/mthd_funcs.Rd +++ b/man/mthd_funcs.Rd @@ -1,87 +1,88 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/mthd_funcs.R, R/tcplMthdAssign.R, R/tcplMthdClear.R, R/tcplMthdList.R, R/tcplMthdLoad.R -\name{Method functions} -\alias{Method functions} -\alias{tcplMthdAssign} -\alias{tcplMthdClear} -\alias{tcplMthdList} -\alias{tcplMthdLoad} -\title{Functions for managing processing methods} -\usage{ -tcplMthdAssign(lvl, id, mthd_id, ordr = NULL, type) - -tcplMthdClear(lvl, id, mthd_id = NULL, type) - -tcplMthdList(lvl, type = "mc") - -tcplMthdLoad(lvl, id = NULL, type = "mc") -} -\arguments{ -\item{lvl}{Integer of length 1, the method level} - -\item{id}{Integer, the assay component or assay endpoint id(s)} - -\item{mthd_id}{Integer, the method id(s)} - -\item{ordr}{Integer, the order in which to execute the analysis methods, -must be the same length as mthd_id, does not apply to levels 5 or 6} - -\item{type}{Character of length 1, the data type, "sc" or "mc"} -} -\description{ -These functions are used to manage which methods are used to process data. -They include methods for assigning, clearing, and loading the assigned -methods. Also, \code{tcplMthdList} lists the available methods. -} -\details{ -\code{tcplMthdLoad} loads the assigned methods for the given level and -ID(s). Similarly, \code{tcplMthdList} displays the available methods for -the given level. These two functions do not make any changes to the -database. - -Unlike the \code{-Load} and \code{-List} functions, the \code{-Assign} and -\code{-Clear} functions alter the database and trigger a delete cascade. -\code{tcplMthdAssign} assigns methods to the given ID(s), and -\code{tcplMthdClear} removes methods. In addition to the method ID -('mthd_id'), assigning methods at some levels require an order ('ordr'). -The 'ordr' parameter is necessary to allow progression of methods at level -one for single-concentration processing, and levels two and three for -multiple-concentration processing. More information about method assignments -and the delete cascade are available in the package vignette. -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## tcplListMthd allows the user to display the available methods for -## a given level and data type -head(tcplMthdList(lvl = 2, type = "mc")) - -## tcplLoadMthd shows which methods are assigned for the given ID, level, -## and data type. Here we will show how to register, load, and clear methods -## using an acid not in the example database. Note: There is no check for -## whether an ID exists before assigning/clearing methods. -tcplMthdLoad(lvl = 2, id = 55, type = "mc") - -## ACID 55 does not have any methods. Assign methods from the list above. -tcplMthdAssign(lvl = 2, - id = 55, - mthd_id = c(3, 4, 2), - ordr = 1:3, - type = "mc") -## Method assignment can be done for multiple assays, too. -tcplMthdAssign(lvl = 2, - id = 53:54, - mthd_id = c(3, 4, 2), - ordr = 1:3, - type = "mc") - -## Cleanup example method assigments -tcplMthdClear(lvl = 2, id = 53:55, type = "mc") - -## Reset configuration -options(conf_store) -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/mthd_funcs.R, R/tcplMthdAssign.R, +% R/tcplMthdClear.R, R/tcplMthdList.R, R/tcplMthdLoad.R +\name{Method functions} +\alias{Method functions} +\alias{tcplMthdAssign} +\alias{tcplMthdClear} +\alias{tcplMthdList} +\alias{tcplMthdLoad} +\title{Functions for managing processing methods} +\usage{ +tcplMthdAssign(lvl, id, mthd_id, ordr = NULL, type) + +tcplMthdClear(lvl, id, mthd_id = NULL, type) + +tcplMthdList(lvl, type = "mc") + +tcplMthdLoad(lvl, id = NULL, type = "mc") +} +\arguments{ +\item{lvl}{Integer of length 1, the method level} + +\item{id}{Integer, the assay component or assay endpoint id(s)} + +\item{mthd_id}{Integer, the method id(s)} + +\item{ordr}{Integer, the order in which to execute the analysis methods, +must be the same length as mthd_id, does not apply to levels 5 or 6} + +\item{type}{Character of length 1, the data type, "sc" or "mc"} +} +\description{ +These functions are used to manage which methods are used to process data. +They include methods for assigning, clearing, and loading the assigned +methods. Also, \code{tcplMthdList} lists the available methods. +} +\details{ +\code{tcplMthdLoad} loads the assigned methods for the given level and +ID(s). Similarly, \code{tcplMthdList} displays the available methods for +the given level. These two functions do not make any changes to the +database. + +Unlike the \code{-Load} and \code{-List} functions, the \code{-Assign} and +\code{-Clear} functions alter the database and trigger a delete cascade. +\code{tcplMthdAssign} assigns methods to the given ID(s), and +\code{tcplMthdClear} removes methods. In addition to the method ID +('mthd_id'), assigning methods at some levels require an order ('ordr'). +The 'ordr' parameter is necessary to allow progression of methods at level +one for single-concentration processing, and levels two and three for +multiple-concentration processing. More information about method assignments +and the delete cascade are available in the package vignette. +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## tcplListMthd allows the user to display the available methods for +## a given level and data type +head(tcplMthdList(lvl = 2, type = "mc")) + +## tcplLoadMthd shows which methods are assigned for the given ID, level, +## and data type. Here we will show how to register, load, and clear methods +## using an acid not in the example database. Note: There is no check for +## whether an ID exists before assigning/clearing methods. +tcplMthdLoad(lvl = 2, id = 55, type = "mc") + +\dontrun{ +## ACID 55 does not have any methods. Assign methods from the list above. +tcplMthdAssign(lvl = 2, + id = 55, + mthd_id = c(3, 4, 2), + ordr = 1:3, + type = "mc") +## Method assignment can be done for multiple assays, too. +tcplMthdAssign(lvl = 2, + id = 53:54, + mthd_id = c(3, 4, 2), + ordr = 1:3, + type = "mc") + +## Cleanup example method assigments +tcplMthdClear(lvl = 2, id = 53:55, type = "mc") +} +## Reset configuration +options(conf_store) +} diff --git a/man/query_funcs.Rd b/man/query_funcs.Rd index bccf894..3e58475 100644 --- a/man/query_funcs.Rd +++ b/man/query_funcs.Rd @@ -1,47 +1,46 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/query_funcs.R, R/tcplQuery.R, R/tcplSendQuery.R -\name{Query functions} -\alias{Query functions} -\alias{tcplQuery} -\alias{tcplSendQuery} -\title{Wrappers for sending queries and fetching results} -\usage{ -tcplQuery(query, db = getOption("TCPL_DB"), drvr = getOption("TCPL_DRVR")) - -tcplSendQuery(query, db = getOption("TCPL_DB"), - drvr = getOption("TCPL_DRVR")) -} -\arguments{ -\item{query}{Character of length 1, the query string} - -\item{db}{Character of length 1, the name of the tcpl database} - -\item{drvr}{Character of length 1, which database driver to use} -} -\description{ -These functions send a query to the given database, and are the access point -for all tcpl functions that query or update the tcpl database. -} -\details{ -Currently, the tcpl package only supports the "MySQL" and "SQLite" database -drivers. - -\code{tcplQuery} returns a data.table object with the query results. -\code{tcplSendQuery} sends a query, but does not fetch any results, and -returns 'TRUE' or the error message given by the database. -} -\examples{ - -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -tcplQuery("SELECT 'Hello World';") -tcplQuery("SELECT * FROM assay;") - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/query_funcs.R, R/tcplQuery.R, R/tcplSendQuery.R +\name{Query functions} +\alias{Query functions} +\alias{tcplQuery} +\alias{tcplSendQuery} +\title{Wrappers for sending queries and fetching results} +\usage{ +tcplQuery(query, db = getOption("TCPL_DB"), drvr = getOption("TCPL_DRVR")) + +tcplSendQuery(query, db = getOption("TCPL_DB"), + drvr = getOption("TCPL_DRVR")) +} +\arguments{ +\item{query}{Character of length 1, the query string} + +\item{db}{Character of length 1, the name of the tcpl database} + +\item{drvr}{Character of length 1, which database driver to use} +} +\description{ +These functions send a query to the given database, and are the access point +for all tcpl functions that query or update the tcpl database. +} +\details{ +Currently, the tcpl package only supports the "MySQL" and "SQLite" database +drivers. + +\code{tcplQuery} returns a data.table object with the query results. +\code{tcplSendQuery} sends a query, but does not fetch any results, and +returns 'TRUE' or the error message given by the database. +} +\examples{ + +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +tcplQuery("SELECT 'Hello World';") +tcplQuery("SELECT * FROM assay;") + +## Reset configuration +options(conf_store) + +} diff --git a/man/registerMthd.Rd b/man/registerMthd.Rd index 8455dd8..d98181b 100644 --- a/man/registerMthd.Rd +++ b/man/registerMthd.Rd @@ -1,30 +1,29 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/registerMthd.R -\name{registerMthd} -\alias{registerMthd} -\title{Add a new analysis method} -\usage{ -registerMthd(lvl, mthd, desc, nddr = 0L, type) -} -\arguments{ -\item{lvl}{Integer of length 1, the level for the analysis method} - -\item{mthd}{Character, the name of the method} - -\item{desc}{Character, same length as mthd, the method description} - -\item{nddr}{Integer, 0 or 1, 1 if the method requires loading the dose- -response data} - -\item{type}{Character of length 1, the data type, "sc" or "mc"} -} -\description{ -\code{registerMthd} registers a new analysis method to the tcpl -databases. -} -\details{ -'mthd' must match a corresponding function name in the functions that load -the methods, ie. \code{mc2_mthds}. 'nddr' only applies to level 6 -methods. -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/registerMthd.R +\name{registerMthd} +\alias{registerMthd} +\title{Add a new analysis method} +\usage{ +registerMthd(lvl, mthd, desc, nddr = 0L, type) +} +\arguments{ +\item{lvl}{Integer of length 1, the level for the analysis method} + +\item{mthd}{Character, the name of the method} + +\item{desc}{Character, same length as mthd, the method description} + +\item{nddr}{Integer, 0 or 1, 1 if the method requires loading the dose- +response data} + +\item{type}{Character of length 1, the data type, "sc" or "mc"} +} +\description{ +\code{registerMthd} registers a new analysis method to the tcpl +databases. +} +\details{ +'mthd' must match a corresponding function name in the functions that load +the methods, ie. \code{mc2_mthds}. 'nddr' only applies to level 6 +methods. +} diff --git a/man/rgstr_funcs.Rd b/man/rgstr_funcs.Rd index b52d372..a26734d 100644 --- a/man/rgstr_funcs.Rd +++ b/man/rgstr_funcs.Rd @@ -1,84 +1,85 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/rgstr_funcs.R, R/tcplRegister.R, R/tcplUpdate.R -\name{Register/update annotation} -\alias{Register/update annotation} -\alias{tcplRegister} -\alias{tcplUpdate} -\title{Functions for registering & updating annotation information} -\usage{ -tcplRegister(what, flds) - -tcplUpdate(what, id, flds) -} -\arguments{ -\item{what}{Character of length 1, the name of the ID to register or update} - -\item{flds}{Named list, the other fields and their values} - -\item{id}{Integer, the ID value(s) to update} -} -\description{ -These functions are used to register and update the chemical and assay -annotation information. -} -\details{ -These functions are used to populate the tcpl database with the necessary -annotation information to complete the processing. As shown in the package -vignette, the package requires some information about the samples and assays -before data can be loaded into the tcpl database. - -Depending on what is being registered, different information is required. -The following table lists the fields that can be registered/updated by these -functions, and the minimal fields required for registering a new ID. (The -database table affected is in parentheses.) - -\itemize{ - \item asid (assay_source): assay_source_name - \item aid (assay): asid, assay_name, assay_footprint - \item acid (assay_component): aid, assay_component_name - \item aeid (assay_component_endpoint): acid, assay_component_endpoint_name, - normalized_data_type - \item acsn (assay_component_map): acid, acsn - \item spid (sample): spid, chid - \item chid (chemical): chid, casn - \item clib (chemical_library): chid, clib -} - -Note: The functions accept the abbreviated forms of the names, ie. "aenm" -rather than the full "assay_component_endpoint_name." More information about -the registration process and all of the fields is available in the vignette. -} -\examples{ - -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## Load current ASID information -tcplLoadAsid() - -## Register a new assay source -tcplRegister(what = "asid", flds = list(asnm = "example_asid")) - -## Show the newly registered ASID -tcplLoadAsid(add.fld = "assay_source_desc") - -## Notice that the newly created ASID does not have an assay_source_desc. -## The field could have been defined during the registration process, but -## can also be updated using tcplUpdate -i1 <- tcplLoadAsid()[asnm == "example_asid", asid] -tcplUpdate(what = "asid", - id = i1, - flds = list(assay_source_desc = "example asid description")) -tcplLoadAsid(add.fld = "assay_source_desc") - -## Remove the created ASID. Note: Manually deleting primary keys can cause -## serious database problems and should not generally be done. -tcplSendQuery(paste0("DELETE FROM assay_source WHERE asid = ", i1, ";")) - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/rgstr_funcs.R, R/tcplRegister.R, R/tcplUpdate.R +\name{Register/update annotation} +\alias{Register/update annotation} +\alias{tcplRegister} +\alias{tcplUpdate} +\title{Functions for registering & updating annotation information} +\usage{ +tcplRegister(what, flds) + +tcplUpdate(what, id, flds) +} +\arguments{ +\item{what}{Character of length 1, the name of the ID to register or update} + +\item{flds}{Named list, the other fields and their values} + +\item{id}{Integer, the ID value(s) to update} +} +\description{ +These functions are used to register and update the chemical and assay +annotation information. +} +\details{ +These functions are used to populate the tcpl database with the necessary +annotation information to complete the processing. As shown in the package +vignette, the package requires some information about the samples and assays +before data can be loaded into the tcpl database. + +Depending on what is being registered, different information is required. +The following table lists the fields that can be registered/updated by these +functions, and the minimal fields required for registering a new ID. (The +database table affected is in parentheses.) + +\itemize{ + \item asid (assay_source): assay_source_name + \item aid (assay): asid, assay_name, assay_footprint + \item acid (assay_component): aid, assay_component_name + \item aeid (assay_component_endpoint): acid, assay_component_endpoint_name, + normalized_data_type + \item acsn (assay_component_map): acid, acsn + \item spid (sample): spid, chid + \item chid (chemical): chid, casn + \item clib (chemical_library): chid, clib +} + +Note: The functions accept the abbreviated forms of the names, ie. "aenm" +rather than the full "assay_component_endpoint_name." More information about +the registration process and all of the fields is available in the vignette. +} +\examples{ + +\dontrun{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## Load current ASID information +tcplLoadAsid() + +## Register a new assay source +tcplRegister(what = "asid", flds = list(asnm = "example_asid")) + +## Show the newly registered ASID +tcplLoadAsid(add.fld = "assay_source_desc") + +## Notice that the newly created ASID does not have an assay_source_desc. +## The field could have been defined during the registration process, but +## can also be updated using tcplUpdate +i1 <- tcplLoadAsid()[asnm == "example_asid", asid] +tcplUpdate(what = "asid", + id = i1, + flds = list(assay_source_desc = "example asid description")) +tcplLoadAsid(add.fld = "assay_source_desc") + +## Remove the created ASID. Note: Manually deleting primary keys can cause +## serious database problems and should not generally be done. +tcplSendQuery(paste0("DELETE FROM assay_source WHERE asid = ", i1, ";")) + +## Reset configuration +options(conf_store) +} + +} diff --git a/man/sc1.Rd b/man/sc1.Rd index 7beda4a..27436ad 100644 --- a/man/sc1.Rd +++ b/man/sc1.Rd @@ -1,46 +1,45 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/sc1.R -\name{sc1} -\alias{sc1} -\title{Perform level 1 -single-concentration processing} -\usage{ -sc1(ac, wr = FALSE) -} -\arguments{ -\item{ac}{Integer of length 1, assay component id (acid) for processing.} - -\item{wr}{Logical, whether the processed data should be written to the tcpl -database} -} -\value{ -A boolean of length 1, indicating the success of the processing, or -when 'wr' is FALSE, a list where the first element is a boolean indiciating -the success of processing and the second element is a data.table containing -the processed data -} -\description{ -\code{sc1} loads level 0 data from the tcpl -database for the given id and performs level 1 -single-concentration processing. -The processed data is then loaded into the sc1 table and -all subsequent data is deleted with \code{\link{tcplCascade}}. See details -for more information. - -The individual processing functions are no longer exported, as it is -typically more convenient and suggested to use the \code{\link{tcplRun}} -wrapper function. -} -\details{ -Level 1 single-concentration processing includes mapping assay component -to assay endpoint, duplicating the data when the assay component has -multiple assay endpoints, and any normalization of the data. Data -normalization based on methods listed in sc1_aeid and sc1_methods tables. -} -\seealso{ -\code{\link{Method functions}}, \code{\link{SC1_Methods}} - -Other single-concentration data -processing functions: \code{\link{sc2}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/sc1.R +\name{sc1} +\alias{sc1} +\title{Perform level 1 +single-concentration processing} +\usage{ +sc1(ac, wr = FALSE) +} +\arguments{ +\item{ac}{Integer of length 1, assay component id (acid) for processing.} + +\item{wr}{Logical, whether the processed data should be written to the tcpl +database} +} +\value{ +A boolean of length 1, indicating the success of the processing, or +when 'wr' is FALSE, a list where the first element is a boolean indiciating +the success of processing and the second element is a data.table containing +the processed data +} +\description{ +\code{sc1} loads level 0 data from the tcpl +database for the given id and performs level 1 +single-concentration processing. +The processed data is then loaded into the sc1 table and +all subsequent data is deleted with \code{\link{tcplCascade}}. See details +for more information. + +The individual processing functions are no longer exported, as it is +typically more convenient and suggested to use the \code{\link{tcplRun}} +wrapper function. +} +\details{ +Level 1 single-concentration processing includes mapping assay component +to assay endpoint, duplicating the data when the assay component has +multiple assay endpoints, and any normalization of the data. Data +normalization based on methods listed in sc1_aeid and sc1_methods tables. +} +\seealso{ +\code{\link{Method functions}}, \code{\link{SC1_Methods}} + +Other single-concentration data +processing functions: \code{\link{sc2}} +} diff --git a/man/sc2.Rd b/man/sc2.Rd index 0566371..272ba7f 100644 --- a/man/sc2.Rd +++ b/man/sc2.Rd @@ -1,45 +1,44 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/sc2.R -\name{sc2} -\alias{sc2} -\title{Perform level 2 -single-concentration processing} -\usage{ -sc2(ae, wr = FALSE) -} -\arguments{ -\item{ae}{Integer of length 1, assay endpoint id (aeid) for processing.} - -\item{wr}{Logical, whether the processed data should be written to the tcpl -database} -} -\value{ -A boolean of length 1, indicating the success of the processing, or -when 'wr' is FALSE, a list where the first element is a boolean indiciating -the success of processing and the second element is a data.table containing -the processed data -} -\description{ -\code{sc2} loads level 1 data from the tcpl -database for the given id and performs level 2 -single-concentration processing. -The processed data is then loaded into the sc2 table and -all subsequent data is deleted with \code{\link{tcplCascade}}. See details -for more information. - -The individual processing functions are no longer exported, as it is -typically more convenient and suggested to use the \code{\link{tcplRun}} -wrapper function. -} -\details{ -Level 2 single-concentration processing defines the bmad value, and uses the -activity cutoff methods from sc2_aeid and sc2_methods to make an activity -call. -} -\seealso{ -\code{\link{Method functions}}, \code{\link{SC2_Methods}} - -Other single-concentration data -processing functions: \code{\link{sc1}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/sc2.R +\name{sc2} +\alias{sc2} +\title{Perform level 2 +single-concentration processing} +\usage{ +sc2(ae, wr = FALSE) +} +\arguments{ +\item{ae}{Integer of length 1, assay endpoint id (aeid) for processing.} + +\item{wr}{Logical, whether the processed data should be written to the tcpl +database} +} +\value{ +A boolean of length 1, indicating the success of the processing, or +when 'wr' is FALSE, a list where the first element is a boolean indiciating +the success of processing and the second element is a data.table containing +the processed data +} +\description{ +\code{sc2} loads level 1 data from the tcpl +database for the given id and performs level 2 +single-concentration processing. +The processed data is then loaded into the sc2 table and +all subsequent data is deleted with \code{\link{tcplCascade}}. See details +for more information. + +The individual processing functions are no longer exported, as it is +typically more convenient and suggested to use the \code{\link{tcplRun}} +wrapper function. +} +\details{ +Level 2 single-concentration processing defines the bmad value, and uses the +activity cutoff methods from sc2_aeid and sc2_methods to make an activity +call. +} +\seealso{ +\code{\link{Method functions}}, \code{\link{SC2_Methods}} + +Other single-concentration data +processing functions: \code{\link{sc1}} +} diff --git a/man/sink.reset.Rd b/man/sink.reset.Rd index d88ee71..20e9f69 100644 --- a/man/sink.reset.Rd +++ b/man/sink.reset.Rd @@ -1,22 +1,21 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/sink.reset.R -\name{sink.reset} -\alias{sink.reset} -\title{Reset all sinks} -\usage{ -sink.reset() -} -\description{ -\code{sink.reset} resets all sinks and returns all output to the console. -} -\details{ -\code{sink.reset} identifies all sinks with \code{sink.number} then returns -all output and messages back to the console. -} -\seealso{ -\code{\link{sink}}, \code{\link{sink.number}} - -Other tcpl abbreviations: \code{\link{is.odd}}, - \code{\link{lu}}, \code{\link{lw}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/sink.reset.R +\name{sink.reset} +\alias{sink.reset} +\title{Reset all sinks} +\usage{ +sink.reset() +} +\description{ +\code{sink.reset} resets all sinks and returns all output to the console. +} +\details{ +\code{sink.reset} identifies all sinks with \code{sink.number} then returns +all output and messages back to the console. +} +\seealso{ +\code{\link{sink}}, \code{\link{sink.number}} + +Other tcpl abbreviations: \code{\link{is.odd}}, + \code{\link{lu}}, \code{\link{lw}} +} diff --git a/man/tcplAICProb.Rd b/man/tcplAICProb.Rd index 6d30837..762f21a 100644 --- a/man/tcplAICProb.Rd +++ b/man/tcplAICProb.Rd @@ -1,40 +1,39 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplAICProb.R -\name{tcplAICProb} -\alias{tcplAICProb} -\title{Calculate the AIC probabilities} -\usage{ -tcplAICProb(...) -} -\arguments{ -\item{\dots}{Numeric vectors of AIC values} -} -\value{ -A vector of probability values for each model given, as a list. -} -\description{ -\code{tcplAICProb} Calculates the probability that the model best represents -the data based on the AIC value for each model. -} -\details{ -The function takes vectors of AIC values. Each vector represents the model -AIC values for multiple observation sets. Each vector must contain the same -number and order of observation sets. The calculation assumes every possible -model is accounted for, and the results should be interpreted accordingly. -} -\examples{ -## Returns the probability for each model, given models with AIC values -## ranging from 80 to 100 -tcplAICProb(80, 85, 90, 95, 100) - -## Also works for vectors -m1 <- c(95, 195, 300) ## model 1 for three different observations -m2 <- c(100, 200, 295) ## model 2 for three different observations -tcplAICProb(m1, m2) - -} -\seealso{ -\code{\link{tcplFit}}, \code{\link{AIC}} for more information -about AIC values. -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplAICProb.R +\name{tcplAICProb} +\alias{tcplAICProb} +\title{Calculate the AIC probabilities} +\usage{ +tcplAICProb(...) +} +\arguments{ +\item{\dots}{Numeric vectors of AIC values} +} +\value{ +A vector of probability values for each model given, as a list. +} +\description{ +\code{tcplAICProb} Calculates the probability that the model best represents +the data based on the AIC value for each model. +} +\details{ +The function takes vectors of AIC values. Each vector represents the model +AIC values for multiple observation sets. Each vector must contain the same +number and order of observation sets. The calculation assumes every possible +model is accounted for, and the results should be interpreted accordingly. +} +\examples{ +## Returns the probability for each model, given models with AIC values +## ranging from 80 to 100 +tcplAICProb(80, 85, 90, 95, 100) + +## Also works for vectors +m1 <- c(95, 195, 300) ## model 1 for three different observations +m2 <- c(100, 200, 295) ## model 2 for three different observations +tcplAICProb(m1, m2) + +} +\seealso{ +\code{\link{tcplFit}}, \code{\link{AIC}} for more information +about AIC values. +} diff --git a/man/tcplAddModel.Rd b/man/tcplAddModel.Rd index ede9c3d..e1193ff 100644 --- a/man/tcplAddModel.Rd +++ b/man/tcplAddModel.Rd @@ -1,63 +1,62 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplAddModel.R -\name{tcplAddModel} -\alias{tcplAddModel} -\title{Draw a tcpl Model onto an exisiting plot} -\usage{ -tcplAddModel(pars, modl = NULL, adj = NULL, ...) -} -\arguments{ -\item{pars}{List of parameters from level 4 or 5 output} - -\item{modl}{Character of length 1, the model to plot: 'cnst,' 'hill,' or -'gnls'} - -\item{adj}{Numeric of length 1, an adjustment factor, see details for more -information} - -\item{\dots}{Additional arguments passed to \code{curve}} -} -\description{ -\code{tcplAddModel} draws a a line for one of the tcpl Models (see -\code{\link{Models}} for more information) onto an existing plot. -} -\details{ -\code{tcplAddModel} draws the model line assuming the x-axis represents log -base 10 concentration. - -If \code{modl} is NULL, the function checks \code{pars$modl} and will return -an error if \code{pars$modl} is also NULL. - -\code{adj} is intended to scale the models, so that models with different -response units can be visualized on a single plot. The recommended value for -\code{adl} is \code{1/(3*bmad)} for level 4 data and \code{1/coff} for level -5 data. If \code{adj} is NULL the function will check \code{pars$adj} and -set \code{adj} to 1 if \code{pars$adj} is also NULL. -} -\examples{ -## Create some dummy data to plot -logc <- 1:10 -r1 <- sapply(logc, tcplHillVal, ga = 5, tp = 50, gw = 0.5) -r2 <- log2(sapply(logc, tcplHillVal, ga = 4, tp = 30, gw = 0.5)) -p1 <- tcplFit(logc = logc, resp = r1, bmad = 10) -p2 <- tcplFit(logc = logc, resp = r2, bmad = log2(1.5)) - -## In the dummy data above, the two plots are on very different scales -plot(r1 ~ logc, pch = 16, ylab = "raw response") -tcplAddModel(pars = p1, modl = "hill") -points(r2 ~ logc) -tcplAddModel(pars = p2, modl = "hill", lty = "dashed") - -## To visualize the two curves on the same plot for comparison, we can -## scale the values to the bmad, such that a scaled response of 1 will equal -## the bmad for each curve. -plot(r1/10 ~ logc, pch = 16, ylab = "scaled response") -tcplAddModel(pars = p1, modl = "hill", adj = 1/10) -points(r2/log2(5) ~ logc) -tcplAddModel(pars = p2, modl = "hill", adj = 1/log2(5), lty = "dashed") - -} -\seealso{ -\code{\link{Models}}, \code{\link{tcplPlotFits}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplAddModel.R +\name{tcplAddModel} +\alias{tcplAddModel} +\title{Draw a tcpl Model onto an exisiting plot} +\usage{ +tcplAddModel(pars, modl = NULL, adj = NULL, ...) +} +\arguments{ +\item{pars}{List of parameters from level 4 or 5 output} + +\item{modl}{Character of length 1, the model to plot: 'cnst,' 'hill,' or +'gnls'} + +\item{adj}{Numeric of length 1, an adjustment factor, see details for more +information} + +\item{\dots}{Additional arguments passed to \code{curve}} +} +\description{ +\code{tcplAddModel} draws a a line for one of the tcpl Models (see +\code{\link{Models}} for more information) onto an existing plot. +} +\details{ +\code{tcplAddModel} draws the model line assuming the x-axis represents log +base 10 concentration. + +If \code{modl} is NULL, the function checks \code{pars$modl} and will return +an error if \code{pars$modl} is also NULL. + +\code{adj} is intended to scale the models, so that models with different +response units can be visualized on a single plot. The recommended value for +\code{adl} is \code{1/(3*bmad)} for level 4 data and \code{1/coff} for level +5 data. If \code{adj} is NULL the function will check \code{pars$adj} and +set \code{adj} to 1 if \code{pars$adj} is also NULL. +} +\examples{ +## Create some dummy data to plot +logc <- 1:10 +r1 <- sapply(logc, tcplHillVal, ga = 5, tp = 50, gw = 0.5) +r2 <- log2(sapply(logc, tcplHillVal, ga = 4, tp = 30, gw = 0.5)) +p1 <- tcplFit(logc = logc, resp = r1, bmad = 10) +p2 <- tcplFit(logc = logc, resp = r2, bmad = log2(1.5)) + +## In the dummy data above, the two plots are on very different scales +plot(r1 ~ logc, pch = 16, ylab = "raw response") +tcplAddModel(pars = p1, modl = "hill") +points(r2 ~ logc) +tcplAddModel(pars = p2, modl = "hill", lty = "dashed") + +## To visualize the two curves on the same plot for comparison, we can +## scale the values to the bmad, such that a scaled response of 1 will equal +## the bmad for each curve. +plot(r1/10 ~ logc, pch = 16, ylab = "scaled response") +tcplAddModel(pars = p1, modl = "hill", adj = 1/10) +points(r2/log2(5) ~ logc) +tcplAddModel(pars = p2, modl = "hill", adj = 1/log2(5), lty = "dashed") + +} +\seealso{ +\code{\link{Models}}, \code{\link{tcplPlotFits}} +} diff --git a/man/tcplAppend.Rd b/man/tcplAppend.Rd index 9750412..78ac76e 100644 --- a/man/tcplAppend.Rd +++ b/man/tcplAppend.Rd @@ -1,23 +1,22 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplAppend.R -\name{tcplAppend} -\alias{tcplAppend} -\title{Append rows to a table} -\usage{ -tcplAppend(dat, tbl, db) -} -\arguments{ -\item{dat}{data.table, the data to append to a table} - -\item{tbl}{Character of length 1, the table to append to} - -\item{db}{Character of length 1, the database containing \code{tbl}} -} -\description{ -\code{tcplAppend} takes a data.table (dat) and appends the data.table into -a database table. -} -\note{ -This function is not exported and not intended to be used by the user. -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplAppend.R +\name{tcplAppend} +\alias{tcplAppend} +\title{Append rows to a table} +\usage{ +tcplAppend(dat, tbl, db) +} +\arguments{ +\item{dat}{data.table, the data to append to a table} + +\item{tbl}{Character of length 1, the table to append to} + +\item{db}{Character of length 1, the database containing \code{tbl}} +} +\description{ +\code{tcplAppend} takes a data.table (dat) and appends the data.table into +a database table. +} +\note{ +This function is not exported and not intended to be used by the user. +} diff --git a/man/tcplCascade.Rd b/man/tcplCascade.Rd index 9e1a9a8..49f017b 100644 --- a/man/tcplCascade.Rd +++ b/man/tcplCascade.Rd @@ -1,33 +1,32 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplCascade.R -\name{tcplCascade} -\alias{tcplCascade} -\title{Do a cascading delete on tcpl screening data} -\usage{ -tcplCascade(lvl, type, id) -} -\arguments{ -\item{lvl}{Integer of length 1, the first level to delete from} - -\item{type}{Character of length 1, the data type, "sc" or "mc"} - -\item{id}{Integer, the id(s) to delete. See details for more information.} -} -\description{ -\code{tcplCascade} deletes the data for the given id(s) starting at -the processing level given. The delete will cascade through all subsequent -tables. -} -\details{ -The data type can be either 'mc' for mutliple concentration data, or 'sc' -for single concentration data. Multiple concentration data will be loaded -into the level tables, whereas the single concentration will be loaded into -the single tables. - -If lvl is less than 3, id is interpreted as acid(s) and if lvl is greater -than or equal to 3, id is interpreted as aeid(s). -} -\note{ -This function is not exported and not intended to be used by the user. -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplCascade.R +\name{tcplCascade} +\alias{tcplCascade} +\title{Do a cascading delete on tcpl screening data} +\usage{ +tcplCascade(lvl, type, id) +} +\arguments{ +\item{lvl}{Integer of length 1, the first level to delete from} + +\item{type}{Character of length 1, the data type, "sc" or "mc"} + +\item{id}{Integer, the id(s) to delete. See details for more information.} +} +\description{ +\code{tcplCascade} deletes the data for the given id(s) starting at +the processing level given. The delete will cascade through all subsequent +tables. +} +\details{ +The data type can be either 'mc' for mutliple concentration data, or 'sc' +for single concentration data. Multiple concentration data will be loaded +into the level tables, whereas the single concentration will be loaded into +the single tables. + +If lvl is less than 3, id is interpreted as acid(s) and if lvl is greater +than or equal to 3, id is interpreted as aeid(s). +} +\note{ +This function is not exported and not intended to be used by the user. +} diff --git a/man/tcplCode2CASN.Rd b/man/tcplCode2CASN.Rd index 371ea3c..e4cefc9 100644 --- a/man/tcplCode2CASN.Rd +++ b/man/tcplCode2CASN.Rd @@ -1,31 +1,30 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplCode2CASN.R -\name{tcplCode2CASN} -\alias{tcplCode2CASN} -\title{Convert chemical code to CAS Registry Number} -\usage{ -tcplCode2CASN(code) -} -\arguments{ -\item{code}{Character of length 1, a chemical code} -} -\value{ -A CAS Registry Number. -} -\description{ -\code{tcplCode2CASN} takes a code and converts it CAS Registry Number. -} -\details{ -The function checks for the validity of the CAS Registry Number. Also, -the ToxCast data includes chemcials for which there is no CASRN. The -convention for these chemicals is to give them a CASRN as NOCAS_chid; the -code for these compounds is CNOCASchid. The function handles the NOCAS -compounds as they are stored in the database, as shown in the exmaple below. -} -\examples{ -tcplCode2CASN("C80057") -tcplCode2CASN("C09812420") ## Invalid CASRN will give a warning -tcplCode2CASN("CNOCAS0015") ## The underscore is reinserted for NOCAS codes - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplCode2CASN.R +\name{tcplCode2CASN} +\alias{tcplCode2CASN} +\title{Convert chemical code to CAS Registry Number} +\usage{ +tcplCode2CASN(code) +} +\arguments{ +\item{code}{Character of length 1, a chemical code} +} +\value{ +A CAS Registry Number. +} +\description{ +\code{tcplCode2CASN} takes a code and converts it CAS Registry Number. +} +\details{ +The function checks for the validity of the CAS Registry Number. Also, +the ToxCast data includes chemcials for which there is no CASRN. The +convention for these chemicals is to give them a CASRN as NOCAS_chid; the +code for these compounds is CNOCASchid. The function handles the NOCAS +compounds as they are stored in the database, as shown in the exmaple below. +} +\examples{ +tcplCode2CASN("C80057") +tcplCode2CASN("C09812420") ## Invalid CASRN will give a warning +tcplCode2CASN("CNOCAS0015") ## The underscore is reinserted for NOCAS codes + +} diff --git a/man/tcplCytoPt.Rd b/man/tcplCytoPt.Rd index 0c8c91a..88d732d 100644 --- a/man/tcplCytoPt.Rd +++ b/man/tcplCytoPt.Rd @@ -1,113 +1,112 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplCytoPt.R -\name{tcplCytoPt} -\alias{tcplCytoPt} -\title{Calculate the cytotoxicity point based on the "burst" endpoints} -\usage{ -tcplCytoPt(chid = NULL, aeid = NULL, flag = TRUE, min.test = TRUE, - default.pt = 3) -} -\arguments{ -\item{chid}{Integer, chemical ID values to subset on} - -\item{aeid}{Integer, assay endpoint ID values to override the "burst assay" -definitions} - -\item{flag}{Integer, mc6_mthd_id values to be passed to -\code{\link{tcplSubsetChid}}} - -\item{min.test}{Integer or Boolean, the number of tested assay endpoints -required for a cheimcal to be used in calculating the "global MAD."} - -\item{default.pt}{Numeric of length 1, the default cytotoxicity point value} -} -\value{ -A data.table with the cytotoxicity distribution for each chemical. -The definition of the field names are listed under "details." -} -\description{ -\code{tcplCytoPt} calculates the cytotoxicity point and average cytotoxicity -distribution based on the acitivty in the "burst" assay endpoints. -} -\details{ -\code{tcplCytoPt} provides estimates for chemical-specific cytotoxicity -distributions (more information available in the vignette.) Before -calculating the cytotoxicity distributions, the level 5 data is subsetted -by the \code{\link{tcplSubsetChid}} function. - -The 'chid' parameter specifies a subset of chemicals to use in the -calculations, given by chemical ID (chid). The 'aeid' parameter specifies -which assays to use in calculating the cytotoxicity point and distribution. -By default \code{tcplCytoPt} will use all available chemicals and the -assay endpoints defined by the 'burst_assay' field in the -"assay_component_endpoint" table. The examples show how to identify the -"burst" endpoints. - -\code{tcplCytoPt} returns the cytotoxicity point (the AC50 values of the -active "burst" endpoints), the corresponding MAD, and the global MAD (median -of the calculated MAD values). Not every chemical must be tested in every -"burst" endpoint. The 'min.test' parameter allows the user to specify a -minimum number of tested assay endpoints as a requirement for MAD values to -be included in the global MAD calculation. For example, suppose the user -supplies 10 "burst" assays. The user can choose to require a chemical to be -tested in at least 5 of those assays for it's MAD value to be included in -the global MAD calculation. Having chemicals with many less "burst" endpoints -tested may inflate or deflate the global MAD calculation. By default (values -of \code{TRUE} or \code{NULL}), \code{tcplCytoPt} requires a chemical to be -tested in at least 80\% of the given "burst" assays. The user can also -provide 'min.test' values of \code{FALSE} (indicating to include all MAD -values), or a number (indicating a specific number of endpoints). - -Chemicals without at least 2 active "burst" assays do not have a MAD value, -and the cytotoxicity point is defined by the 'default.pt' parameter. The -default value for 'default.pt' is 3. - -The resulting data.table has the following fields: -\enumerate{ - \item "chid" -- The chemical ID. - \item "code" -- The chemcial code. - \item "chnm" -- The chemical name. - \item "casn" -- The chemical CASRN. - \item "med" -- The median of the "burst" endpoint log(AC50) ("modl_ga" in - the level 5 output) values. - \item "mad" -- The MAD of the "burst" endpoint log(AC50) values. - \item "ntst" -- The number of "burst" endpoints tested. - \item "nhit" -- The number of acive "burst" endpoints. - \item "use_global_mad" -- TRUE/FALSE, whether the mad value was used in the - global MAD calculation. - \item "global_mad" -- The median of the "mad" values where "use_global_mad" - is TRUE. - \item "cyto_pt" -- The cytotoxicity point, or the value in "med" when - "nhit" is at least 2. - \item "cyto_pt_um" -- \eqn{10^\mathit{cyto\_pt}}{10^cyto_pt} - \item "lower_bnd_um" -- \eqn{10^{\mathit{cyto\_pt} - 3\mathit{global\_mad}}}{10^(cyto_pt - 3*global_mad)} -} -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## Load the "burst" endpoints -- none are defined in the example dataset -tcplLoadAeid(fld = "burst_assay", val = 1) - -## Calculate the cytotoxicity distributions using both example endpoints -tcplCytoPt(aeid = 1:2) - -## The above example does not calculate a global MAD, because no chemical -## hit both endpoints. (This makes sense, because both endpoints are -## derived from one component, where one endpoint is acitivity in the -## up direction, and the other is acitivty in the down direction.) -## Note, the cyto_pt is also 3 for all chemicals, because the function -## requires at least two endpoints to calculate a cytotoxicity point. If -## the user wishes to use one assay, this function is not necessary. - -## Changing 'default.pt' will change cyto_pt in the resulting data.table -tcplCytoPt(aeid = 1:2, default.pt = 6) - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplCytoPt.R +\name{tcplCytoPt} +\alias{tcplCytoPt} +\title{Calculate the cytotoxicity point based on the "burst" endpoints} +\usage{ +tcplCytoPt(chid = NULL, aeid = NULL, flag = TRUE, min.test = TRUE, + default.pt = 3) +} +\arguments{ +\item{chid}{Integer, chemical ID values to subset on} + +\item{aeid}{Integer, assay endpoint ID values to override the "burst assay" +definitions} + +\item{flag}{Integer, mc6_mthd_id values to be passed to +\code{\link{tcplSubsetChid}}} + +\item{min.test}{Integer or Boolean, the number of tested assay endpoints +required for a cheimcal to be used in calculating the "global MAD."} + +\item{default.pt}{Numeric of length 1, the default cytotoxicity point value} +} +\value{ +A data.table with the cytotoxicity distribution for each chemical. +The definition of the field names are listed under "details." +} +\description{ +\code{tcplCytoPt} calculates the cytotoxicity point and average cytotoxicity +distribution based on the acitivty in the "burst" assay endpoints. +} +\details{ +\code{tcplCytoPt} provides estimates for chemical-specific cytotoxicity +distributions (more information available in the vignette.) Before +calculating the cytotoxicity distributions, the level 5 data is subsetted +by the \code{\link{tcplSubsetChid}} function. + +The 'chid' parameter specifies a subset of chemicals to use in the +calculations, given by chemical ID (chid). The 'aeid' parameter specifies +which assays to use in calculating the cytotoxicity point and distribution. +By default \code{tcplCytoPt} will use all available chemicals and the +assay endpoints defined by the 'burst_assay' field in the +"assay_component_endpoint" table. The examples show how to identify the +"burst" endpoints. + +\code{tcplCytoPt} returns the cytotoxicity point (the AC50 values of the +active "burst" endpoints), the corresponding MAD, and the global MAD (median +of the calculated MAD values). Not every chemical must be tested in every +"burst" endpoint. The 'min.test' parameter allows the user to specify a +minimum number of tested assay endpoints as a requirement for MAD values to +be included in the global MAD calculation. For example, suppose the user +supplies 10 "burst" assays. The user can choose to require a chemical to be +tested in at least 5 of those assays for it's MAD value to be included in +the global MAD calculation. Having chemicals with many less "burst" endpoints +tested may inflate or deflate the global MAD calculation. By default (values +of \code{TRUE} or \code{NULL}), \code{tcplCytoPt} requires a chemical to be +tested in at least 80\% of the given "burst" assays. The user can also +provide 'min.test' values of \code{FALSE} (indicating to include all MAD +values), or a number (indicating a specific number of endpoints). + +Chemicals without at least 2 active "burst" assays do not have a MAD value, +and the cytotoxicity point is defined by the 'default.pt' parameter. The +default value for 'default.pt' is 3. + +The resulting data.table has the following fields: +\enumerate{ + \item "chid" -- The chemical ID. + \item "code" -- The chemcial code. + \item "chnm" -- The chemical name. + \item "casn" -- The chemical CASRN. + \item "med" -- The median of the "burst" endpoint log(AC50) ("modl_ga" in + the level 5 output) values. + \item "mad" -- The MAD of the "burst" endpoint log(AC50) values. + \item "ntst" -- The number of "burst" endpoints tested. + \item "nhit" -- The number of acive "burst" endpoints. + \item "use_global_mad" -- TRUE/FALSE, whether the mad value was used in the + global MAD calculation. + \item "global_mad" -- The median of the "mad" values where "use_global_mad" + is TRUE. + \item "cyto_pt" -- The cytotoxicity point, or the value in "med" when + "nhit" is at least 2. + \item "cyto_pt_um" -- \eqn{10^\mathit{cyto\_pt}}{10^cyto_pt} + \item "lower_bnd_um" -- \eqn{10^{\mathit{cyto\_pt} - 3\mathit{global\_mad}}}{10^(cyto_pt - 3*global_mad)} +} +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## Load the "burst" endpoints -- none are defined in the example dataset +tcplLoadAeid(fld = "burst_assay", val = 1) + +## Calculate the cytotoxicity distributions using both example endpoints +tcplCytoPt(aeid = 1:2) + +## The above example does not calculate a global MAD, because no chemical +## hit both endpoints. (This makes sense, because both endpoints are +## derived from one component, where one endpoint is acitivity in the +## up direction, and the other is acitivty in the down direction.) +## Note, the cyto_pt is also 3 for all chemicals, because the function +## requires at least two endpoints to calculate a cytotoxicity point. If +## the user wishes to use one assay, this function is not necessary. + +## Changing 'default.pt' will change cyto_pt in the resulting data.table +tcplCytoPt(aeid = 1:2, default.pt = 6) + +## Reset configuration +options(conf_store) + +} diff --git a/man/tcplDelete.Rd b/man/tcplDelete.Rd index 26d0b00..59ad66e 100644 --- a/man/tcplDelete.Rd +++ b/man/tcplDelete.Rd @@ -1,28 +1,27 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplDelete.R -\name{tcplDelete} -\alias{tcplDelete} -\title{Delete rows from tcpl databases} -\usage{ -tcplDelete(tbl, fld, val, db) -} -\arguments{ -\item{tbl}{Character, length 1, the table to delete from} - -\item{fld}{Character, the field(s) to query on} - -\item{val}{List, vectors of values for each field to query on. Must be in -the same order as 'fld'.} - -\item{db}{Character, the database containing the table} -} -\description{ -\code{tcplDelete} deletes rows from the given table and database. -} -\note{ -This function is not exported and not intended to be used by the user. -} -\seealso{ -\code{\link{tcplSendQuery}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplDelete.R +\name{tcplDelete} +\alias{tcplDelete} +\title{Delete rows from tcpl databases} +\usage{ +tcplDelete(tbl, fld, val, db) +} +\arguments{ +\item{tbl}{Character, length 1, the table to delete from} + +\item{fld}{Character, the field(s) to query on} + +\item{val}{List, vectors of values for each field to query on. Must be in +the same order as 'fld'.} + +\item{db}{Character, the database containing the table} +} +\description{ +\code{tcplDelete} deletes rows from the given table and database. +} +\note{ +This function is not exported and not intended to be used by the user. +} +\seealso{ +\code{\link{tcplSendQuery}} +} diff --git a/man/tcplFit.Rd b/man/tcplFit.Rd index d853350..9a0037b 100644 --- a/man/tcplFit.Rd +++ b/man/tcplFit.Rd @@ -1,45 +1,44 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplFit.R -\name{tcplFit} -\alias{tcplFit} -\title{Fit the data with the constant, hill, and gain-loss models} -\usage{ -tcplFit(logc, resp, bmad, force.fit = FALSE, ...) -} -\arguments{ -\item{logc}{Numeric, log concentration values} - -\item{resp}{Numeric, normalized response values} - -\item{bmad}{Numeric, the baseline median absolute deviation for the entire -assay} - -\item{force.fit}{Logical, TRUE indicates to attempt fitting every -concentration series} - -\item{\dots}{Any other data to be included in list output.} -} -\value{ -List of summary values and fit parameters for the given data. -} -\description{ -\code{tcplFit} fits the constant, hill, and gain-loss models to the given data -and returns some summary statistics and the fit parameters in a list. -} -\details{ -By default, \code{tcplFit} will only attempt to fit concentration series -when at least one median value is greater than 3*bmad. -} -\examples{ -logc <- 1:10 -resp <- sapply(1:10, tcplHillVal, ga = 5, tp = 50, gw = 0.5) -params <- tcplFit(logc = logc, resp = resp, bmad = 10) -plot(resp ~ logc) -tcplAddModel(pars = params, modl = "hill") - -} -\seealso{ -\code{\link{tcplObjCnst}}, \code{\link{tcplObjHill}}, -\code{\link{tcplObjGnls}}, \code{\link{constrOptim}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplFit.R +\name{tcplFit} +\alias{tcplFit} +\title{Fit the data with the constant, hill, and gain-loss models} +\usage{ +tcplFit(logc, resp, bmad, force.fit = FALSE, ...) +} +\arguments{ +\item{logc}{Numeric, log concentration values} + +\item{resp}{Numeric, normalized response values} + +\item{bmad}{Numeric, the baseline median absolute deviation for the entire +assay} + +\item{force.fit}{Logical, TRUE indicates to attempt fitting every +concentration series} + +\item{\dots}{Any other data to be included in list output.} +} +\value{ +List of summary values and fit parameters for the given data. +} +\description{ +\code{tcplFit} fits the constant, hill, and gain-loss models to the given data +and returns some summary statistics and the fit parameters in a list. +} +\details{ +By default, \code{tcplFit} will only attempt to fit concentration series +when at least one median value is greater than 3*bmad. +} +\examples{ +logc <- 1:10 +resp <- sapply(1:10, tcplHillVal, ga = 5, tp = 50, gw = 0.5) +params <- tcplFit(logc = logc, resp = resp, bmad = 10) +plot(resp ~ logc) +tcplAddModel(pars = params, modl = "hill") + +} +\seealso{ +\code{\link{tcplObjCnst}}, \code{\link{tcplObjHill}}, +\code{\link{tcplObjGnls}}, \code{\link{constrOptim}} +} diff --git a/man/tcplListFlds.Rd b/man/tcplListFlds.Rd index cbc111e..4643d69 100644 --- a/man/tcplListFlds.Rd +++ b/man/tcplListFlds.Rd @@ -1,29 +1,28 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplListFlds.R -\name{tcplListFlds} -\alias{tcplListFlds} -\title{Load the field names for a table} -\usage{ -tcplListFlds(tbl, db = getOption("TCPL_DB")) -} -\arguments{ -\item{tbl}{Character of length 1, the tcpl database table} - -\item{db}{Character of length 1, the tcpl database} -} -\value{ -A string of field names for the given table. -} -\description{ -\code{tcplListFlds} loads the column names for the given table and database. -} -\details{ -This function can be particularly useful in defining the 'fld' param in the -tcplLoad- functions. -} -\examples{ -## Gives the fields in the mc1 table -tcplListFlds("mc1") - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplListFlds.R +\name{tcplListFlds} +\alias{tcplListFlds} +\title{Load the field names for a table} +\usage{ +tcplListFlds(tbl, db = getOption("TCPL_DB")) +} +\arguments{ +\item{tbl}{Character of length 1, the tcpl database table} + +\item{db}{Character of length 1, the tcpl database} +} +\value{ +A string of field names for the given table. +} +\description{ +\code{tcplListFlds} loads the column names for the given table and database. +} +\details{ +This function can be particularly useful in defining the 'fld' param in the +tcplLoad- functions. +} +\examples{ +## Gives the fields in the mc1 table +tcplListFlds("mc1") + +} diff --git a/man/tcplLoadChem.Rd b/man/tcplLoadChem.Rd index d418428..15a8f31 100644 --- a/man/tcplLoadChem.Rd +++ b/man/tcplLoadChem.Rd @@ -1,59 +1,58 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplLoadChem.R -\name{tcplLoadChem} -\alias{tcplLoadChem} -\title{Load sample/chemical information} -\usage{ -tcplLoadChem(field = NULL, val = NULL, exact = TRUE, - include.spid = TRUE) -} -\arguments{ -\item{field}{Character of length 1, the field to query on} - -\item{val}{Vector of values to subset on} - -\item{exact}{Logical, should chemical names be considered exact?} - -\item{include.spid}{Logical, should spid be included?} -} -\value{ -A data.table with the chemical information for the given parameters -} -\description{ -\code{tcplLoadChem} queries the tcpl database and returns the chemcial -information for the given field and values. -} -\details{ -The 'field' parameter is named differently from the 'fld' parameter seen -in other functions because it only takes one input. - -The functionality of the 'exact' parameter cannot be demonstrated within -the SQLite environment. However, in the MySQL environment the user should -be able to give parital chemcial name strings, to find chemicals with -similar names. For example, setting 'val' to "phenol" when 'field' is "chnm" -and 'exact' is \code{FALSE} might pull up the chemicals "Bisphenol A" and -"4-Butylphenol". More technically, setting 'exact' to \code{FALSE} passes -the string in 'val' to an RLIKE statement within the MySQL query. -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## Passing no parameters gives all of the registered chemicals with their -## sample IDs -tcplLoadChem() - -## Or the user can exclude spid and get a unique list of chemicals -tcplLoadChem(include.spid = FALSE) - -## Other examples: -tcplLoadChem(field = "chnm", val = "Bisphenol A") -tcplLoadChem(field = "chid", val = 1:5) - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplLoadChem.R +\name{tcplLoadChem} +\alias{tcplLoadChem} +\title{Load sample/chemical information} +\usage{ +tcplLoadChem(field = NULL, val = NULL, exact = TRUE, + include.spid = TRUE) +} +\arguments{ +\item{field}{Character of length 1, the field to query on} + +\item{val}{Vector of values to subset on} + +\item{exact}{Logical, should chemical names be considered exact?} + +\item{include.spid}{Logical, should spid be included?} +} +\value{ +A data.table with the chemical information for the given parameters +} +\description{ +\code{tcplLoadChem} queries the tcpl database and returns the chemcial +information for the given field and values. +} +\details{ +The 'field' parameter is named differently from the 'fld' parameter seen +in other functions because it only takes one input. + +The functionality of the 'exact' parameter cannot be demonstrated within +the SQLite environment. However, in the MySQL environment the user should +be able to give parital chemcial name strings, to find chemicals with +similar names. For example, setting 'val' to "phenol" when 'field' is "chnm" +and 'exact' is \code{FALSE} might pull up the chemicals "Bisphenol A" and +"4-Butylphenol". More technically, setting 'exact' to \code{FALSE} passes +the string in 'val' to an RLIKE statement within the MySQL query. +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## Passing no parameters gives all of the registered chemicals with their +## sample IDs +tcplLoadChem() + +## Or the user can exclude spid and get a unique list of chemicals +tcplLoadChem(include.spid = FALSE) + +## Other examples: +tcplLoadChem(field = "chnm", val = "Bisphenol A") +tcplLoadChem(field = "chid", val = 1:5) + +## Reset configuration +options(conf_store) + +} diff --git a/man/tcplLoadClib.Rd b/man/tcplLoadClib.Rd index e4d98be..230db78 100644 --- a/man/tcplLoadClib.Rd +++ b/man/tcplLoadClib.Rd @@ -1,64 +1,63 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplLoadClib.R -\name{tcplLoadClib} -\alias{tcplLoadClib} -\title{Load chemical library information} -\usage{ -tcplLoadClib(field = NULL, val = NULL) -} -\arguments{ -\item{field}{Character of length 1, \code{'chid'} or \code{'clib'}, whether -to search by chemical id (chid), or chemical library (clib)} - -\item{val}{The values to query on} -} -\value{ -A data.table with the chemical library information for the given -parameters. -} -\description{ -\code{tcplLoadClib} queries the tcpl databases and returns information -about the chemial library. -} -\details{ -Chemicals are stored in different libraries by chemcial ID. Therefore, it -is not possible to delineate samples with the same chemical ID into two -distinct chemical libraries. However, it is possible for a chemcial ID to -belong to more than one (or no) chemical libraries. - -When chemicals belong to more than one library, the chemical is listed -multiple times (one for each distinct library). -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## Passing no parameters gives all of the chemical ISs that have a chemical -## library registered -clib <- tcplLoadClib() - -## Notice there are more rows in tcplLoadClib than in tcplLoadChem, -## indicating some chemicals must belong to more than library. -chem <- tcplLoadChem(include.spid = FALSE) -nrow(chem) -nrow(clib) - -## It is possible that some chemicals do not have a chemical library -## registered, although this is not the case in the example data. -all(chem$chid \%in\% clib$chid) - -## Show the unique chemical libraries -clib[ , unique(clib)] - -## Specifying a chemical library will not show what other libraries a -## chemical might belong to. -tcplLoadClib(field = "clib", val = "other") -tcplLoadClib(field = "chid", val = 1:2) - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplLoadClib.R +\name{tcplLoadClib} +\alias{tcplLoadClib} +\title{Load chemical library information} +\usage{ +tcplLoadClib(field = NULL, val = NULL) +} +\arguments{ +\item{field}{Character of length 1, \code{'chid'} or \code{'clib'}, whether +to search by chemical id (chid), or chemical library (clib)} + +\item{val}{The values to query on} +} +\value{ +A data.table with the chemical library information for the given +parameters. +} +\description{ +\code{tcplLoadClib} queries the tcpl databases and returns information +about the chemial library. +} +\details{ +Chemicals are stored in different libraries by chemcial ID. Therefore, it +is not possible to delineate samples with the same chemical ID into two +distinct chemical libraries. However, it is possible for a chemcial ID to +belong to more than one (or no) chemical libraries. + +When chemicals belong to more than one library, the chemical is listed +multiple times (one for each distinct library). +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## Passing no parameters gives all of the chemical ISs that have a chemical +## library registered +clib <- tcplLoadClib() + +## Notice there are more rows in tcplLoadClib than in tcplLoadChem, +## indicating some chemicals must belong to more than library. +chem <- tcplLoadChem(include.spid = FALSE) +nrow(chem) +nrow(clib) + +## It is possible that some chemicals do not have a chemical library +## registered, although this is not the case in the example data. +all(chem$chid \%in\% clib$chid) + +## Show the unique chemical libraries +clib[ , unique(clib)] + +## Specifying a chemical library will not show what other libraries a +## chemical might belong to. +tcplLoadClib(field = "clib", val = "other") +tcplLoadClib(field = "chid", val = 1:2) + +## Reset configuration +options(conf_store) + +} diff --git a/man/tcplLoadData.Rd b/man/tcplLoadData.Rd index 5c6c9fe..8b06e3f 100644 --- a/man/tcplLoadData.Rd +++ b/man/tcplLoadData.Rd @@ -1,83 +1,82 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplLoadData.R -\name{tcplLoadData} -\alias{tcplLoadData} -\title{Load tcpl data} -\usage{ -tcplLoadData(lvl, fld = NULL, val = NULL, type = "mc") -} -\arguments{ -\item{lvl}{Integer of length 1, the level of data to load} - -\item{fld}{Character, the field(s) to query on} - -\item{val}{List, vectors of values for each field to query on. Must be in -the same order as 'fld'.} - -\item{type}{Character of length 1, the data type, "sc" or "mc"} -} -\value{ -A data.table containing data for the given fields. -} -\description{ -\code{tcplLoadData} queries the tcpl databases and returns a data.table with -data for the given level and data type. -} -\details{ -The data type can be either 'mc' for mutliple concentration data, or 'sc' -for single concentration data. Multiple concentration data will be loaded -into the 'mc' tables, whereas the single concentration will be loaded into -the 'sc' tables. - -Setting 'lvl' to "agg" will return an aggregate table containing the m4id -with the concentration-response data and m3id to map back to well-level -information. - -Leaving \code{fld} NULL will return all data. - -Valid \code{fld} inputs are based on the data level and type: -\tabular{ccl}{ -type \tab lvl \tab Queried tables \cr -sc \tab 0 \tab sc0 \cr -sc \tab 1 \tab sc0, sc1 \cr -sc \tab agg \tab sc1, sc2_agg \cr -sc \tab 2 \tab sc2 \cr -mc \tab 0 \tab mc0 \cr -mc \tab 1 \tab mc0, mc1 \cr -mc \tab 2 \tab mc0, mc1, mc2 \cr -mc \tab 3 \tab mc0, mc1, mc3 \cr -mc \tab agg \tab mc3, mc4_agg \cr -mc \tab 4 \tab mc4 \cr -mc \tab 5 \tab mc4, mc5 \cr -mc \tab 6 \tab mc4, mc6 -} -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## Load all of level 0 for multiple-concentration data, note 'mc' is the -## default value for type -tcplLoadData(lvl = 0) - -## Load all of level 1 for single-concentration -tcplLoadData(lvl = 1, type = "sc") - -## List the fields available for level 1, coming from tables mc0 and mc1 -tcplListFlds(tbl = "mc0") -tcplListFlds(tbl = "mc1") - -## Load level 0 data where the well type is "t" and the concentration -## index is 3 or 4 -tcplLoadData(lvl = 1, fld = c("wllt", "cndx"), val = list("t", c(3:4))) - -## Reset configuration -options(conf_store) - -} -\seealso{ -\code{\link{tcplQuery}}, \code{\link{data.table}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplLoadData.R +\name{tcplLoadData} +\alias{tcplLoadData} +\title{Load tcpl data} +\usage{ +tcplLoadData(lvl, fld = NULL, val = NULL, type = "mc") +} +\arguments{ +\item{lvl}{Integer of length 1, the level of data to load} + +\item{fld}{Character, the field(s) to query on} + +\item{val}{List, vectors of values for each field to query on. Must be in +the same order as 'fld'.} + +\item{type}{Character of length 1, the data type, "sc" or "mc"} +} +\value{ +A data.table containing data for the given fields. +} +\description{ +\code{tcplLoadData} queries the tcpl databases and returns a data.table with +data for the given level and data type. +} +\details{ +The data type can be either 'mc' for mutliple concentration data, or 'sc' +for single concentration data. Multiple concentration data will be loaded +into the 'mc' tables, whereas the single concentration will be loaded into +the 'sc' tables. + +Setting 'lvl' to "agg" will return an aggregate table containing the m4id +with the concentration-response data and m3id to map back to well-level +information. + +Leaving \code{fld} NULL will return all data. + +Valid \code{fld} inputs are based on the data level and type: +\tabular{ccl}{ +type \tab lvl \tab Queried tables \cr +sc \tab 0 \tab sc0 \cr +sc \tab 1 \tab sc0, sc1 \cr +sc \tab agg \tab sc1, sc2_agg \cr +sc \tab 2 \tab sc2 \cr +mc \tab 0 \tab mc0 \cr +mc \tab 1 \tab mc0, mc1 \cr +mc \tab 2 \tab mc0, mc1, mc2 \cr +mc \tab 3 \tab mc0, mc1, mc3 \cr +mc \tab agg \tab mc3, mc4_agg \cr +mc \tab 4 \tab mc4 \cr +mc \tab 5 \tab mc4, mc5 \cr +mc \tab 6 \tab mc4, mc6 +} +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## Load all of level 0 for multiple-concentration data, note 'mc' is the +## default value for type +tcplLoadData(lvl = 0) + +## Load all of level 1 for single-concentration +tcplLoadData(lvl = 1, type = "sc") + +## List the fields available for level 1, coming from tables mc0 and mc1 +tcplListFlds(tbl = "mc0") +tcplListFlds(tbl = "mc1") + +## Load level 0 data where the well type is "t" and the concentration +## index is 3 or 4 +tcplLoadData(lvl = 1, fld = c("wllt", "cndx"), val = list("t", c(3:4))) + +## Reset configuration +options(conf_store) + +} +\seealso{ +\code{\link{tcplQuery}}, \code{\link{data.table}} +} diff --git a/man/tcplLoadUnit.Rd b/man/tcplLoadUnit.Rd index 1bac55f..27d88e4 100644 --- a/man/tcplLoadUnit.Rd +++ b/man/tcplLoadUnit.Rd @@ -1,23 +1,22 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplLoadUnit.R -\name{tcplLoadUnit} -\alias{tcplLoadUnit} -\title{Load response units for assay endpoints} -\usage{ -tcplLoadUnit(aeid) -} -\arguments{ -\item{aeid}{Integer, assay endpoint ids} -} -\value{ -A data.table containing level 3 correction methods for the given -aeids. -} -\description{ -\code{tcplLoadUnit} queries the tcpl databases and returns a data.table -with the response units for the given assay endpoint ids (aeid). -} -\seealso{ -\code{\link{tcplQuery}}, \code{\link{data.table}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplLoadUnit.R +\name{tcplLoadUnit} +\alias{tcplLoadUnit} +\title{Load response units for assay endpoints} +\usage{ +tcplLoadUnit(aeid) +} +\arguments{ +\item{aeid}{Integer, assay endpoint ids} +} +\value{ +A data.table containing level 3 correction methods for the given +aeids. +} +\description{ +\code{tcplLoadUnit} queries the tcpl databases and returns a data.table +with the response units for the given assay endpoint ids (aeid). +} +\seealso{ +\code{\link{tcplQuery}}, \code{\link{data.table}} +} diff --git a/man/tcplMakeAeidPlts.Rd b/man/tcplMakeAeidPlts.Rd index 19fdab5..de1d398 100644 --- a/man/tcplMakeAeidPlts.Rd +++ b/man/tcplMakeAeidPlts.Rd @@ -1,46 +1,45 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplMakeAeidPlts.R -\name{tcplMakeAeidPlts} -\alias{tcplMakeAeidPlts} -\title{Create a .pdf with dose-response plots} -\usage{ -tcplMakeAeidPlts(aeid, lvl = 4L, fname = NULL, odir = getwd(), - ordr.fitc = TRUE, clib = NULL) -} -\arguments{ -\item{aeid}{Integer of length 1, the assay endpoint id} - -\item{lvl}{Integer of lengh 1, the data level to use (4-6)} - -\item{fname}{Character, the filename} - -\item{odir}{The directory to save the .pdf file in} - -\item{ordr.fitc}{Logical, should the fits be ordered by fit category?} - -\item{clib}{Character, the chemical library to subset on, see -\code{\link{tcplLoadClib}} for more information.} -} -\description{ -\code{tcplMakeAeidPlts} creates a .pdf file with the dose-response plots for -the given aeid. -} -\details{ -\code{tcplMakeAeidPlts} provides a wrapper for \code{\link{tcplPlotFits}}, -allowing the user to produce PDFs with the curve plots without having to -separately load all of the data and establish the PDF device. - -If 'fname' is \code{NULL}, a default name is given by concatenating together -assay information. - -Note, the default value for ordr.fitc is \code{TRUE} in -\code{tcplMakeAeidPlts}, but \code{FALSE} in \code{tcplPlotFits} -} -\examples{ -\dontrun{ -## Will produce the same result as the example for tcplPlotFits -tcplMakeAeidPlts(aeid = 1, lvl = 6, ordr.fitc = FALSE) -} - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplMakeAeidPlts.R +\name{tcplMakeAeidPlts} +\alias{tcplMakeAeidPlts} +\title{Create a .pdf with dose-response plots} +\usage{ +tcplMakeAeidPlts(aeid, lvl = 4L, fname = NULL, odir = getwd(), + ordr.fitc = TRUE, clib = NULL) +} +\arguments{ +\item{aeid}{Integer of length 1, the assay endpoint id} + +\item{lvl}{Integer of lengh 1, the data level to use (4-6)} + +\item{fname}{Character, the filename} + +\item{odir}{The directory to save the .pdf file in} + +\item{ordr.fitc}{Logical, should the fits be ordered by fit category?} + +\item{clib}{Character, the chemical library to subset on, see +\code{\link{tcplLoadClib}} for more information.} +} +\description{ +\code{tcplMakeAeidPlts} creates a .pdf file with the dose-response plots for +the given aeid. +} +\details{ +\code{tcplMakeAeidPlts} provides a wrapper for \code{\link{tcplPlotFits}}, +allowing the user to produce PDFs with the curve plots without having to +separately load all of the data and establish the PDF device. + +If 'fname' is \code{NULL}, a default name is given by concatenating together +assay information. + +Note, the default value for ordr.fitc is \code{TRUE} in +\code{tcplMakeAeidPlts}, but \code{FALSE} in \code{tcplPlotFits} +} +\examples{ +\dontrun{ +## Will produce the same result as the example for tcplPlotFits +tcplMakeAeidPlts(aeid = 1, lvl = 6, ordr.fitc = FALSE) +} + +} diff --git a/man/tcplPlotFitc.Rd b/man/tcplPlotFitc.Rd index 5b8c9f0..32ec3e1 100644 --- a/man/tcplPlotFitc.Rd +++ b/man/tcplPlotFitc.Rd @@ -1,22 +1,21 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplPlotFitc.R -\name{tcplPlotFitc} -\alias{tcplPlotFitc} -\title{Plot the fit category tree} -\usage{ -tcplPlotFitc(fitc = NULL, main = NULL, fitc_sub = NULL) -} -\arguments{ -\item{fitc}{Integer, the fit categories} - -\item{main}{Character of length 1, the title (optional)} - -\item{fitc_sub, }{Integer, a subset of fit categories to plot} -} -\description{ -\code{tcplPlotFitc} makes a plot showing the level 5 fit categories. -} -\note{ -Suggested device size (inches): width = 10, height = 7.5, pointsize = 9 -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplPlotFitc.R +\name{tcplPlotFitc} +\alias{tcplPlotFitc} +\title{Plot the fit category tree} +\usage{ +tcplPlotFitc(fitc = NULL, main = NULL, fitc_sub = NULL) +} +\arguments{ +\item{fitc}{Integer, the fit categories} + +\item{main}{Character of length 1, the title (optional)} + +\item{fitc_sub, }{Integer, a subset of fit categories to plot} +} +\description{ +\code{tcplPlotFitc} makes a plot showing the level 5 fit categories. +} +\note{ +Suggested device size (inches): width = 10, height = 7.5, pointsize = 9 +} diff --git a/man/tcplPlotFits.Rd b/man/tcplPlotFits.Rd index c6d534f..95af7a5 100644 --- a/man/tcplPlotFits.Rd +++ b/man/tcplPlotFits.Rd @@ -1,77 +1,76 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplPlotFits.R -\name{tcplPlotFits} -\alias{tcplPlotFits} -\title{Plot summary fits based on fit and dose-response data} -\usage{ -tcplPlotFits(dat, agg, flg = NULL, ordr.fitc = FALSE, browse = FALSE) -} -\arguments{ -\item{dat}{data.table, level 4 or level 5 data, see details.} - -\item{agg}{data.table, concentration-response aggregate data, see details.} - -\item{flg}{data.table, level 6 data, see details.} - -\item{ordr.fitc}{Logical, should the fits be ordered by fit category?} - -\item{browse}{Logical, should \code{browser()} be called after every plot?} -} -\description{ -\code{tcplPlotFits} takes the dose-response and fit data and produces -summary plot figures. -} -\details{ -The data for 'dat', 'agg', and 'flg' should be loaded using the -\code{\link{tcplLoadData}} function with the appropriate 'lvl' parameter. -See help page for \code{tcplLoadData} for more information. - -Supplying level 4 data for the 'dat' parameter will result in level 4 plots. -Similarly, supp - -If fits are not ordered by fit category, they will be ordered by chemical -ID. Inputs with multiple assay endpoints will first be ordered by assay -endpoint ID. -} -\examples{ - -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## tcplPlotFits needs data.tables supplying the concentration/response -## data stored in mc4_agg, as well as the fit information from mc4 or mc5. -## Additionally, tcplPlotFits will take level 6 data from mc6 and add the -## flag information to the plots. The following shows how to make level 6 -## plots. Omitting the 'flg' parameter would result in level 5 plots, and -## loading level 4, rather than level 5 data, would result in level 4 plots. - -l5 <- tcplLoadData(lvl = 5, fld = "aeid", val = 1) -l4_agg <- tcplLoadData(lvl = "agg", fld = "aeid", val = 1) -l6 <- tcplLoadData(lvl = 6, fld = "aeid", val = 1) -\dontrun{ -pdf(file = "tcplPlotFits.pdf", height = 6, width = 10, pointsize = 10) -tcplPlotFits(dat = l5, agg = l4_agg, flg = l6) -graphics.off() -} - -## While it is most likely the user will want to just save all of the plots -## to view in a PDF, the 'browse' parameter can be used to quickly view -## some plots. - -## Start by identifying some sample IDs to plot, then call tcplPlotFits with -## a subset of the data. This browse function is admittedly clunky. -bpa <- tcplLoadChem(field = "chnm", val = "Bisphenol A")[ , spid] -l5_sub <- l5[spid \%in\% bpa] -\dontrun{ -tcplPlotFits(dat = l5_sub, - agg = l4_agg[m4id \%in\% l5_sub$m4id], - browse = TRUE) -} - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplPlotFits.R +\name{tcplPlotFits} +\alias{tcplPlotFits} +\title{Plot summary fits based on fit and dose-response data} +\usage{ +tcplPlotFits(dat, agg, flg = NULL, ordr.fitc = FALSE, browse = FALSE) +} +\arguments{ +\item{dat}{data.table, level 4 or level 5 data, see details.} + +\item{agg}{data.table, concentration-response aggregate data, see details.} + +\item{flg}{data.table, level 6 data, see details.} + +\item{ordr.fitc}{Logical, should the fits be ordered by fit category?} + +\item{browse}{Logical, should \code{browser()} be called after every plot?} +} +\description{ +\code{tcplPlotFits} takes the dose-response and fit data and produces +summary plot figures. +} +\details{ +The data for 'dat', 'agg', and 'flg' should be loaded using the +\code{\link{tcplLoadData}} function with the appropriate 'lvl' parameter. +See help page for \code{tcplLoadData} for more information. + +Supplying level 4 data for the 'dat' parameter will result in level 4 plots. +Similarly, supp + +If fits are not ordered by fit category, they will be ordered by chemical +ID. Inputs with multiple assay endpoints will first be ordered by assay +endpoint ID. +} +\examples{ + +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## tcplPlotFits needs data.tables supplying the concentration/response +## data stored in mc4_agg, as well as the fit information from mc4 or mc5. +## Additionally, tcplPlotFits will take level 6 data from mc6 and add the +## flag information to the plots. The following shows how to make level 6 +## plots. Omitting the 'flg' parameter would result in level 5 plots, and +## loading level 4, rather than level 5 data, would result in level 4 plots. + +l5 <- tcplLoadData(lvl = 5, fld = "aeid", val = 1) +l4_agg <- tcplLoadData(lvl = "agg", fld = "aeid", val = 1) +l6 <- tcplLoadData(lvl = 6, fld = "aeid", val = 1) +\dontrun{ +pdf(file = "tcplPlotFits.pdf", height = 6, width = 10, pointsize = 10) +tcplPlotFits(dat = l5, agg = l4_agg, flg = l6) +graphics.off() +} + +## While it is most likely the user will want to just save all of the plots +## to view in a PDF, the 'browse' parameter can be used to quickly view +## some plots. + +## Start by identifying some sample IDs to plot, then call tcplPlotFits with +## a subset of the data. This browse function is admittedly clunky. +bpa <- tcplLoadChem(field = "chnm", val = "Bisphenol A")[ , spid] +l5_sub <- l5[spid \%in\% bpa] +\dontrun{ +tcplPlotFits(dat = l5_sub, + agg = l4_agg[m4id \%in\% l5_sub$m4id], + browse = TRUE) +} + +## Reset configuration +options(conf_store) + +} diff --git a/man/tcplPlotM4ID.Rd b/man/tcplPlotM4ID.Rd index 7b3d591..e1d15af 100644 --- a/man/tcplPlotM4ID.Rd +++ b/man/tcplPlotM4ID.Rd @@ -1,48 +1,47 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplPlotM4ID.R -\name{tcplPlotM4ID} -\alias{tcplPlotM4ID} -\title{Plot fit summary plot by m4id} -\usage{ -tcplPlotM4ID(m4id, lvl = 4L) -} -\arguments{ -\item{m4id}{Integer, m4id(s) to plot} - -\item{lvl}{Integer, the level of data to plot} -} -\description{ -\code{tcplPlotM4ID} creates a summary plots for the given m4id(s) by loading -the appropriate data from the tcpl databases and sending it to -\code{\link{tcplPlotFits}} -} -\details{ -A level 4 plot ('lvl' = 4) will plot the concentration series and the -applicable curves, without an indication of the activity call or the -winning model. Level 4 plots can be created without having done subsequent -processing. - -Level 5 plots include the level 4 information with the activity call and -model selection. The winning model will be highlighted red in the side panel -containing the summary statistics. Level 6 plots, in addition the all of the -level 4 and 5 information, include the positive flag IDs. If the flag has -an associated value, the value will be in parentheses follwing the flag ID. -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -tcplPlotM4ID(m4id = 686, lvl = 4) ## Create a level 4 plot -tcplPlotM4ID(m4id = 370, lvl = 5) ## Create a level 5 plot -tcplPlotM4ID(m4id = 322, lvl = 6) ## Create a level 6 plot - -## Reset configuration -options(conf_store) - -} -\seealso{ -\code{\link{tcplPlotFits}}, \code{\link{tcplMakeAeidPlts}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplPlotM4ID.R +\name{tcplPlotM4ID} +\alias{tcplPlotM4ID} +\title{Plot fit summary plot by m4id} +\usage{ +tcplPlotM4ID(m4id, lvl = 4L) +} +\arguments{ +\item{m4id}{Integer, m4id(s) to plot} + +\item{lvl}{Integer, the level of data to plot} +} +\description{ +\code{tcplPlotM4ID} creates a summary plots for the given m4id(s) by loading +the appropriate data from the tcpl databases and sending it to +\code{\link{tcplPlotFits}} +} +\details{ +A level 4 plot ('lvl' = 4) will plot the concentration series and the +applicable curves, without an indication of the activity call or the +winning model. Level 4 plots can be created without having done subsequent +processing. + +Level 5 plots include the level 4 information with the activity call and +model selection. The winning model will be highlighted red in the side panel +containing the summary statistics. Level 6 plots, in addition the all of the +level 4 and 5 information, include the positive flag IDs. If the flag has +an associated value, the value will be in parentheses follwing the flag ID. +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +tcplPlotM4ID(m4id = 686, lvl = 4) ## Create a level 4 plot +tcplPlotM4ID(m4id = 370, lvl = 5) ## Create a level 5 plot +tcplPlotM4ID(m4id = 322, lvl = 6) ## Create a level 6 plot + +## Reset configuration +options(conf_store) + +} +\seealso{ +\code{\link{tcplPlotFits}}, \code{\link{tcplMakeAeidPlts}} +} diff --git a/man/tcplPlotPlate.Rd b/man/tcplPlotPlate.Rd index 1f3cdc5..23bba7d 100644 --- a/man/tcplPlotPlate.Rd +++ b/man/tcplPlotPlate.Rd @@ -1,58 +1,57 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplPlotPlate.R -\name{tcplPlotPlate} -\alias{tcplPlotPlate} -\title{Plot plate heatmap} -\usage{ -tcplPlotPlate(dat, apid, id = NULL, quant = c(0.001, 0.999)) -} -\arguments{ -\item{dat}{data.table containing tcpl data} - -\item{apid}{Character of length 1, the apid to plot} - -\item{id}{Integer of length 1, the assay component id (acid) or assay -endpoint id (aeid), depending on level. Only need to specify for multiplexed -assays when more than one acid/aeid share an apid.} - -\item{quant}{Numeric vector, the range of data to include in the legend} -} -\description{ -\code{tcplPlotPlate} generates a heatmap of assay plate data -} -\details{ -The legend represents the range of the data supplied to dat, for the -applicable ID. The additional horizontal lines on the legend indcate the -range of the plotted plate, to show the relation of the plate to the assay -as a whole. A plot with a legend specific for the given apid can be created -by only supplying the data for the apid of interest to 'dat'. - -The quant parameter, by default including 99.8% of the data, -allows for extreme outliers without losing resolution. Outliers in either -direction will be highlighted with a dark ring, as seen in the example. -A NULL value for 'quant' will not restrict the data at all, and will use -the full range for the legend. - -Wells with a well quality of 0 (only applicable for level 1 plots), will -have an "X" through their center. -} -\note{ -For the optimal output size, use width = 10, height = 10*(2/3), -pointsize = 10, units = "in" -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -d1 <- tcplLoadData(lvl = 1, fld = "acid", val = 1) -\dontrun{ -tcplPlotPlate(dat = d1, apid = "09Apr2014.Plate.17") -} - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplPlotPlate.R +\name{tcplPlotPlate} +\alias{tcplPlotPlate} +\title{Plot plate heatmap} +\usage{ +tcplPlotPlate(dat, apid, id = NULL, quant = c(0.001, 0.999)) +} +\arguments{ +\item{dat}{data.table containing tcpl data} + +\item{apid}{Character of length 1, the apid to plot} + +\item{id}{Integer of length 1, the assay component id (acid) or assay +endpoint id (aeid), depending on level. Only need to specify for multiplexed +assays when more than one acid/aeid share an apid.} + +\item{quant}{Numeric vector, the range of data to include in the legend} +} +\description{ +\code{tcplPlotPlate} generates a heatmap of assay plate data +} +\details{ +The legend represents the range of the data supplied to dat, for the +applicable ID. The additional horizontal lines on the legend indcate the +range of the plotted plate, to show the relation of the plate to the assay +as a whole. A plot with a legend specific for the given apid can be created +by only supplying the data for the apid of interest to 'dat'. + +The quant parameter, by default including 99.8% of the data, +allows for extreme outliers without losing resolution. Outliers in either +direction will be highlighted with a dark ring, as seen in the example. +A NULL value for 'quant' will not restrict the data at all, and will use +the full range for the legend. + +Wells with a well quality of 0 (only applicable for level 1 plots), will +have an "X" through their center. +} +\note{ +For the optimal output size, use width = 10, height = 10*(2/3), +pointsize = 10, units = "in" +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +d1 <- tcplLoadData(lvl = 1, fld = "acid", val = 1) +\dontrun{ +tcplPlotPlate(dat = d1, apid = "09Apr2014.Plate.17") +} + +## Reset configuration +options(conf_store) + +} diff --git a/man/tcplPrepOtpt.Rd b/man/tcplPrepOtpt.Rd index 56f17e8..26a9488 100644 --- a/man/tcplPrepOtpt.Rd +++ b/man/tcplPrepOtpt.Rd @@ -1,56 +1,55 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplPrepOtpt.R -\name{tcplPrepOtpt} -\alias{tcplPrepOtpt} -\title{Map assay/chemcial ID values to annotation information} -\usage{ -tcplPrepOtpt(dat, ids = NULL) -} -\arguments{ -\item{dat}{data.table, output from \code{\link{tcplLoadData}}} - -\item{ids}{Character, (optional) a subset of ID fields to map} -} -\value{ -The given data.table with chemical and assay information mapped -} -\description{ -\code{tcplPrepOtpt} queries the chemical and assay information from the tcpl -database, and maps the annotation information to the given data. -} -\details{ -\code{tcplPrepOtpt} is used to map chemical and assay identifiers to their -respective names and annotation information to create a human-readable table -that is more suitable for an export/output. - -By default the function will map sample ID (spid), assay component id (acid), -and assay endpoint ID (aeid) values. However, if 'ids' is not null, the -function will only attempt to map the ID fields given by 'ids.' -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## Load some example data -d1 <- tcplLoadData(1) - -## Check for chemical name in 'dat' -"chnm" \%in\% names(d1) ## FALSE - -## Map chemical annotation only -d2 <- tcplPrepOtpt(d1, ids = "spid") -"chnm" \%in\% names(d2) ## TRUE -"acnm" \%in\% names(d2) ## FALSE - -## Map all annotations -d3 <- tcplPrepOtpt(d1) ## Also works if function is given d2 -"chnm" \%in\% names(d2) ## TRUE -"acnm" \%in\% names(d2) ## TRUE - -## Reset configuration -options(conf_store) - -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplPrepOtpt.R +\name{tcplPrepOtpt} +\alias{tcplPrepOtpt} +\title{Map assay/chemcial ID values to annotation information} +\usage{ +tcplPrepOtpt(dat, ids = NULL) +} +\arguments{ +\item{dat}{data.table, output from \code{\link{tcplLoadData}}} + +\item{ids}{Character, (optional) a subset of ID fields to map} +} +\value{ +The given data.table with chemical and assay information mapped +} +\description{ +\code{tcplPrepOtpt} queries the chemical and assay information from the tcpl +database, and maps the annotation information to the given data. +} +\details{ +\code{tcplPrepOtpt} is used to map chemical and assay identifiers to their +respective names and annotation information to create a human-readable table +that is more suitable for an export/output. + +By default the function will map sample ID (spid), assay component id (acid), +and assay endpoint ID (aeid) values. However, if 'ids' is not null, the +function will only attempt to map the ID fields given by 'ids.' +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## Load some example data +d1 <- tcplLoadData(1) + +## Check for chemical name in 'dat' +"chnm" \%in\% names(d1) ## FALSE + +## Map chemical annotation only +d2 <- tcplPrepOtpt(d1, ids = "spid") +"chnm" \%in\% names(d2) ## TRUE +"acnm" \%in\% names(d2) ## FALSE + +## Map all annotations +d3 <- tcplPrepOtpt(d1) ## Also works if function is given d2 +"chnm" \%in\% names(d2) ## TRUE +"acnm" \%in\% names(d2) ## TRUE + +## Reset configuration +options(conf_store) + +} diff --git a/man/tcplRun.Rd b/man/tcplRun.Rd index a81cf2b..bee8525 100644 --- a/man/tcplRun.Rd +++ b/man/tcplRun.Rd @@ -1,55 +1,54 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplRun.R -\name{tcplRun} -\alias{tcplRun} -\title{Perform data processing} -\usage{ -tcplRun(asid = NULL, slvl, elvl, id = NULL, type = "mc", - mc.cores = NULL, outfile = NULL, runname = NULL) -} -\arguments{ -\item{asid}{Integer, assay source id} - -\item{slvl}{Integer of length 1, the starting level to process} - -\item{elvl}{Integer of length 1, the ending level to process} - -\item{id}{Integer, rather than assay source id, the specific assay -component or assay endpoint id(s) (optional)} - -\item{type}{Character of length 1, the data type, "sc" or "mc"} - -\item{mc.cores}{Integer of length 1, the number of cores to use, set to 1 -when using Windows operating system} - -\item{outfile}{Character of length 1, the name of the log file (optional)} - -\item{runname}{Character of length 1, the name of the run to be used in the -oufile (optional)} -} -\value{ -A list containing the results from each level of processing. Each -level processed will return a named logical vector, indicating the success -of the processing for the id. -} -\description{ -\code{tcplRun} is the function for performing the data processing, for both -single-concentration and multiple-concentration formats. -} -\details{ -The \code{tcplRun} function is the core processing function within the -package. The function acts as a wrapper for individual processing functions, -(ie. \code{mc1}, \code{sc1}, etc.) that are not exported. If possible, the -processing is done in parallel by 'id' by utilizing the -\code{\link{mclapply}} function within the parallel package. - -If slvl is less than 4, 'id' is interpreted as acid and if slvl is 4 or -greater 'id' is interpreted as aeid. Must give either 'asid' or 'id'. If an -id fails no results get loaded into the database, and the id does not get -placed into the cue for subsequent level processing. - -The 'type' parameter specifies what type of processing to complete: "mc" for -multiple-concentration processing, and "sc" for single-concentration -processing. -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplRun.R +\name{tcplRun} +\alias{tcplRun} +\title{Perform data processing} +\usage{ +tcplRun(asid = NULL, slvl, elvl, id = NULL, type = "mc", + mc.cores = NULL, outfile = NULL, runname = NULL) +} +\arguments{ +\item{asid}{Integer, assay source id} + +\item{slvl}{Integer of length 1, the starting level to process} + +\item{elvl}{Integer of length 1, the ending level to process} + +\item{id}{Integer, rather than assay source id, the specific assay +component or assay endpoint id(s) (optional)} + +\item{type}{Character of length 1, the data type, "sc" or "mc"} + +\item{mc.cores}{Integer of length 1, the number of cores to use, set to 1 +when using Windows operating system} + +\item{outfile}{Character of length 1, the name of the log file (optional)} + +\item{runname}{Character of length 1, the name of the run to be used in the +oufile (optional)} +} +\value{ +A list containing the results from each level of processing. Each +level processed will return a named logical vector, indicating the success +of the processing for the id. +} +\description{ +\code{tcplRun} is the function for performing the data processing, for both +single-concentration and multiple-concentration formats. +} +\details{ +The \code{tcplRun} function is the core processing function within the +package. The function acts as a wrapper for individual processing functions, +(ie. \code{mc1}, \code{sc1}, etc.) that are not exported. If possible, the +processing is done in parallel by 'id' by utilizing the +\code{\link{mclapply}} function within the parallel package. + +If slvl is less than 4, 'id' is interpreted as acid and if slvl is 4 or +greater 'id' is interpreted as aeid. Must give either 'asid' or 'id'. If an +id fails no results get loaded into the database, and the id does not get +placed into the cue for subsequent level processing. + +The 'type' parameter specifies what type of processing to complete: "mc" for +multiple-concentration processing, and "sc" for single-concentration +processing. +} diff --git a/man/tcplSubsetChid.Rd b/man/tcplSubsetChid.Rd index fd68a66..ce3521e 100644 --- a/man/tcplSubsetChid.Rd +++ b/man/tcplSubsetChid.Rd @@ -1,66 +1,65 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplSubsetChid.R -\name{tcplSubsetChid} -\alias{tcplSubsetChid} -\title{Subset level 5 data to a single sample per chemical} -\usage{ -tcplSubsetChid(dat, flag = TRUE) -} -\arguments{ -\item{dat}{data.table, a data.table with level 5 data} - -\item{flag}{Integer, the mc6_mthd_id values to go into the flag count, see -details for more information} -} -\value{ -A data.table with a single sample for every given chemical-assay -pair. -} -\description{ -\code{tcplSubsetChid} subsets level 5 data to a single tested sample per -chemical. In other words, if a chemical is tested more than once (a chid -has more than one spid) for a given assay endpoint, the function uses a -series of logic to select a single "representative" sample. -} -\details{ -\code{tcplSubsetChid} is intended to work with level 5 data that has -chemical and assay information mapped with \code{\link{tcplPrepOtpt}}. - -To select a single sample, first a "consensus hit-call" is made by majority -rule, with ties defaulting to active. After the chemical-wise hit call is -made, the samples corresponding to to chemical-wise hit call are logically -ordered using the fit category, the number of the flags, and the modl_ga, -then the first sample for every chemical is selected. - -The \code{flag} param can be used to specify a subset of flags to be used in -the flag count. Leaving \code{flag} TRUE utilize all the available flags. -Setting \code{flag} to \code{FALSE} will do the subsetting without -considering any flags. -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## Load the example level 5 data -d1 <- tcplLoadData(lvl = 5, fld = "aeid", val = 2) -d1 <- tcplPrepOtpt(d1) - -## Subset to an example of a duplicated chid -d2 <- d1[chid == 559] -d2[ , list(m4id, hitc, fitc, modl_ga)] - -## Here the consensus hit-call is 1 (active), and the fit categories are -## all equal. Therefore, if the flags are ignored, the selected sample will -## be the sample with the lowest modl_ga. -tcplSubsetChid(dat = d2, flag = FALSE)[ , list(m4id, modl_ga)] - -## Reset configuration -options(conf_store) - -} -\seealso{ -\code{\link{tcplPrepOtpt}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplSubsetChid.R +\name{tcplSubsetChid} +\alias{tcplSubsetChid} +\title{Subset level 5 data to a single sample per chemical} +\usage{ +tcplSubsetChid(dat, flag = TRUE) +} +\arguments{ +\item{dat}{data.table, a data.table with level 5 data} + +\item{flag}{Integer, the mc6_mthd_id values to go into the flag count, see +details for more information} +} +\value{ +A data.table with a single sample for every given chemical-assay +pair. +} +\description{ +\code{tcplSubsetChid} subsets level 5 data to a single tested sample per +chemical. In other words, if a chemical is tested more than once (a chid +has more than one spid) for a given assay endpoint, the function uses a +series of logic to select a single "representative" sample. +} +\details{ +\code{tcplSubsetChid} is intended to work with level 5 data that has +chemical and assay information mapped with \code{\link{tcplPrepOtpt}}. + +To select a single sample, first a "consensus hit-call" is made by majority +rule, with ties defaulting to active. After the chemical-wise hit call is +made, the samples corresponding to to chemical-wise hit call are logically +ordered using the fit category, the number of the flags, and the modl_ga, +then the first sample for every chemical is selected. + +The \code{flag} param can be used to specify a subset of flags to be used in +the flag count. Leaving \code{flag} TRUE utilize all the available flags. +Setting \code{flag} to \code{FALSE} will do the subsetting without +considering any flags. +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## Load the example level 5 data +d1 <- tcplLoadData(lvl = 5, fld = "aeid", val = 2) +d1 <- tcplPrepOtpt(d1) + +## Subset to an example of a duplicated chid +d2 <- d1[chid == 559] +d2[ , list(m4id, hitc, fitc, modl_ga)] + +## Here the consensus hit-call is 1 (active), and the fit categories are +## all equal. Therefore, if the flags are ignored, the selected sample will +## be the sample with the lowest modl_ga. +tcplSubsetChid(dat = d2, flag = FALSE)[ , list(m4id, modl_ga)] + +## Reset configuration +options(conf_store) + +} +\seealso{ +\code{\link{tcplPrepOtpt}} +} diff --git a/man/tcplVarMat.Rd b/man/tcplVarMat.Rd index ee1cf0c..9c9a3dc 100644 --- a/man/tcplVarMat.Rd +++ b/man/tcplVarMat.Rd @@ -1,118 +1,117 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplVarMat.R -\name{tcplVarMat} -\alias{tcplVarMat} -\title{Create chemical by assay matrices} -\usage{ -tcplVarMat(chid = NULL, aeid = NULL, add.vars = NULL, row.id = "code", - flag = TRUE, cyto.pars = list(), include.na.chid = FALSE, odir = NULL, - file.prefix = NULL) -} -\arguments{ -\item{chid}{Integer, chemical ID values to subset on} - -\item{aeid}{Integer, assay endpoint ID values to subset on} - -\item{add.vars}{Character, mc4 or mc5 field(s) not included in the standard -list to add additional matrices} - -\item{row.id}{Character, the chemical identifier to use in the output} - -\item{flag}{Integer or Logical of length 1, passed to -\code{\link{tcplSubsetChid}}} - -\item{cyto.pars}{List, named list of arguments passed to -\code{\link{tcplCytoPt}}} - -\item{include.na.chid}{Logical of length 1, whether to include the chemicals -not listed in the tcpl databases (ie. controls)} - -\item{odir}{Directory to write comma separated file(s)} - -\item{file.prefix}{Character of length 1, prefix to the file name when odir -is not NULL} -} -\value{ -A list of chemical by assay matrices where the rownames are given by -the 'row.id' paramter, and the colnames are given by assay endpoint name -(aenm). -} -\description{ -\code{tcplVarMat} creates chemical by assay matrices. -} -\details{ -The \code{tcplVarMat} function is used to create chemical by assay matrices -for different paramters. The standard list of matrices returned includes: - -\enumerate{ - \item "modl_ga" -- The logAC50 (in the gain direction) for the winning - model. - \item "hitc" -- The hit-call for the winning model. - \item "m4id" -- The m4id, listing the concentration series selected by - \code{tcplSubsetChid}. - \item "zscore" -- The z-score based on the output from \code{tcplCytoPt}. - The formula used for calculating the z-score is - \eqn{-(\mathit{modl\_ga} - \mathit{cyto\_pt})/\mathit{global\_mad}} - \item "tested" -- 1 or 0, 1 indicating the chemical/assay pair - was tested in either the single- or multiple-concentration format - \item "tested_sc" -- 1 or 0, 1 indicating the chemical/assay pair - was tested in the single-concentration format - \item "tested_mc" -- 1 or 0, 1 indicating the chemical/assay pair - was tested in the multiple-concentration format - \item "ac50" -- a modified AC50 table (in non-log units) where - assay/chemical pairs that were not tested, or tested and had a hitcall of 0 - or -1 have the value 1e6. - \item "neglogac50" -- -log(AC50/1e6) where assay/chemical pairs that were - not tested, or tested and had a hitcall of 0 or -1 have the value 0. -} - -To add addtitional matrices, the 'add.vars' parameter can be used to specify -the fields from the mc4 or mc5 tables to create matrices for. - -When more than one sample is included for a chemical/assay pair, -\code{tcplVarMat} aggregates multiple samples to a chemical level call -utilizing \code{\link{tcplSubsetChid}}. - -By setting \code{odir} the function will write out a csv with, naming the -file with the convention: "var_Matrix_date.csv" where 'var' is the name -of the matrix. A prefix can be added to the output files using the -'file.prefix' paramter. - -When a concentration series has a sample id not listed in the \code{tcpl} -database, and 'include.na.chid' is TRUE, the rowname for that series will -be the concatenation of "SPID_" and the spid. Note, if the user gives a -subset of chid values to the 'chid' parameter, 'include.na.chid' will be -set to FALSE with a warning. - -The tcplVarMat function calls both \code{tcplSubsetChid} and -\code{tcplCytoPt} (which separately calls \code{tcplSubsetChid}). The input -for the \code{tcplVarMat} 'flag' parameter is passed to the -\code{tcplSubsetChid} call used to parse down the data to create the -matrices. The \code{tcplSubsetChid} called within \code{tcplCytoPt} (to -parse down the cytotoxicity data used to define the "zscore" matrix) can -be modified by passing a separate 'flag' element in the list defined by the -'cyto.pars' parameter. -} -\examples{ -## Store the current config settings, so they can be reloaded at the end -## of the examples -conf_store <- tcplConfList() -tcplConfDefault() - -## Demonstrate the returned values. Note with no "burst" assays defined in -## the example database, the user must provide which aeid values to use -## in calculating the cytotoxicity distributions for the 'zscore' matrix. -tcplVarMat(chid = 1:5, cyto.pars = list(aeid = 1:2)) - -## Other changes can be made -tcplVarMat(chid = 1:5, row.id = "chnm", cyto.pars = list(aeid = 1:2)) -tcplVarMat(chid = 1:5, add.vars = "max_med", cyto.pars = list(aeid = 1:2)) - -## Reset configuration -options(conf_store) - -} -\seealso{ -\code{\link{tcplSubsetChid}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplVarMat.R +\name{tcplVarMat} +\alias{tcplVarMat} +\title{Create chemical by assay matrices} +\usage{ +tcplVarMat(chid = NULL, aeid = NULL, add.vars = NULL, row.id = "code", + flag = TRUE, cyto.pars = list(), include.na.chid = FALSE, odir = NULL, + file.prefix = NULL) +} +\arguments{ +\item{chid}{Integer, chemical ID values to subset on} + +\item{aeid}{Integer, assay endpoint ID values to subset on} + +\item{add.vars}{Character, mc4 or mc5 field(s) not included in the standard +list to add additional matrices} + +\item{row.id}{Character, the chemical identifier to use in the output} + +\item{flag}{Integer or Logical of length 1, passed to +\code{\link{tcplSubsetChid}}} + +\item{cyto.pars}{List, named list of arguments passed to +\code{\link{tcplCytoPt}}} + +\item{include.na.chid}{Logical of length 1, whether to include the chemicals +not listed in the tcpl databases (ie. controls)} + +\item{odir}{Directory to write comma separated file(s)} + +\item{file.prefix}{Character of length 1, prefix to the file name when odir +is not NULL} +} +\value{ +A list of chemical by assay matrices where the rownames are given by +the 'row.id' paramter, and the colnames are given by assay endpoint name +(aenm). +} +\description{ +\code{tcplVarMat} creates chemical by assay matrices. +} +\details{ +The \code{tcplVarMat} function is used to create chemical by assay matrices +for different paramters. The standard list of matrices returned includes: + +\enumerate{ + \item "modl_ga" -- The logAC50 (in the gain direction) for the winning + model. + \item "hitc" -- The hit-call for the winning model. + \item "m4id" -- The m4id, listing the concentration series selected by + \code{tcplSubsetChid}. + \item "zscore" -- The z-score based on the output from \code{tcplCytoPt}. + The formula used for calculating the z-score is + \eqn{-(\mathit{modl\_ga} - \mathit{cyto\_pt})/\mathit{global\_mad}} + \item "tested" -- 1 or 0, 1 indicating the chemical/assay pair + was tested in either the single- or multiple-concentration format + \item "tested_sc" -- 1 or 0, 1 indicating the chemical/assay pair + was tested in the single-concentration format + \item "tested_mc" -- 1 or 0, 1 indicating the chemical/assay pair + was tested in the multiple-concentration format + \item "ac50" -- a modified AC50 table (in non-log units) where + assay/chemical pairs that were not tested, or tested and had a hitcall of 0 + or -1 have the value 1e6. + \item "neglogac50" -- -log(AC50/1e6) where assay/chemical pairs that were + not tested, or tested and had a hitcall of 0 or -1 have the value 0. +} + +To add addtitional matrices, the 'add.vars' parameter can be used to specify +the fields from the mc4 or mc5 tables to create matrices for. + +When more than one sample is included for a chemical/assay pair, +\code{tcplVarMat} aggregates multiple samples to a chemical level call +utilizing \code{\link{tcplSubsetChid}}. + +By setting \code{odir} the function will write out a csv with, naming the +file with the convention: "var_Matrix_date.csv" where 'var' is the name +of the matrix. A prefix can be added to the output files using the +'file.prefix' paramter. + +When a concentration series has a sample id not listed in the \code{tcpl} +database, and 'include.na.chid' is TRUE, the rowname for that series will +be the concatenation of "SPID_" and the spid. Note, if the user gives a +subset of chid values to the 'chid' parameter, 'include.na.chid' will be +set to FALSE with a warning. + +The tcplVarMat function calls both \code{tcplSubsetChid} and +\code{tcplCytoPt} (which separately calls \code{tcplSubsetChid}). The input +for the \code{tcplVarMat} 'flag' parameter is passed to the +\code{tcplSubsetChid} call used to parse down the data to create the +matrices. The \code{tcplSubsetChid} called within \code{tcplCytoPt} (to +parse down the cytotoxicity data used to define the "zscore" matrix) can +be modified by passing a separate 'flag' element in the list defined by the +'cyto.pars' parameter. +} +\examples{ +## Store the current config settings, so they can be reloaded at the end +## of the examples +conf_store <- tcplConfList() +tcplConfDefault() + +## Demonstrate the returned values. Note with no "burst" assays defined in +## the example database, the user must provide which aeid values to use +## in calculating the cytotoxicity distributions for the 'zscore' matrix. +tcplVarMat(chid = 1:5, cyto.pars = list(aeid = 1:2)) + +## Other changes can be made +tcplVarMat(chid = 1:5, row.id = "chnm", cyto.pars = list(aeid = 1:2)) +tcplVarMat(chid = 1:5, add.vars = "max_med", cyto.pars = list(aeid = 1:2)) + +## Reset configuration +options(conf_store) + +} +\seealso{ +\code{\link{tcplSubsetChid}} +} diff --git a/man/tcplWriteData.Rd b/man/tcplWriteData.Rd index 3dee4f6..df22833 100644 --- a/man/tcplWriteData.Rd +++ b/man/tcplWriteData.Rd @@ -1,39 +1,38 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplWriteData.R -\name{tcplWriteData} -\alias{tcplWriteData} -\title{Write screening data into the tcpl databases} -\usage{ -tcplWriteData(dat, lvl, type) -} -\arguments{ -\item{dat}{data.table, the screening data to load} - -\item{lvl}{Integer of length 1, the data processing level} - -\item{type}{Character of length 1, the data type, "sc" or "mc"} -} -\description{ -\code{tcplWriteData} takes a data.table with screening data and writes the -data into the given level table in the tcpl databases. -} -\details{ -This function appends data onto the existing table. It also deletes all the -data for any acids or aeids dat contains from the given and all downstream -tables. - -The data type can be either 'mc' for mutliple concentration data, or 'sc' -for single concentration data. Multiple concentration data will be loaded -into the level tables, whereas the single concentration will be loaded into -the single tables. -} -\note{ -This function is not exported and is not inteded to be used by the user. -The user should only write level 0 data, which is written with -\code{\link{tcplWriteLvl0}}. -} -\seealso{ -\code{\link{tcplCascade}}, \code{\link{tcplAppend}}, -\code{\link{tcplWriteLvl0}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplWriteData.R +\name{tcplWriteData} +\alias{tcplWriteData} +\title{Write screening data into the tcpl databases} +\usage{ +tcplWriteData(dat, lvl, type) +} +\arguments{ +\item{dat}{data.table, the screening data to load} + +\item{lvl}{Integer of length 1, the data processing level} + +\item{type}{Character of length 1, the data type, "sc" or "mc"} +} +\description{ +\code{tcplWriteData} takes a data.table with screening data and writes the +data into the given level table in the tcpl databases. +} +\details{ +This function appends data onto the existing table. It also deletes all the +data for any acids or aeids dat contains from the given and all downstream +tables. + +The data type can be either 'mc' for mutliple concentration data, or 'sc' +for single concentration data. Multiple concentration data will be loaded +into the level tables, whereas the single concentration will be loaded into +the single tables. +} +\note{ +This function is not exported and is not inteded to be used by the user. +The user should only write level 0 data, which is written with +\code{\link{tcplWriteLvl0}}. +} +\seealso{ +\code{\link{tcplCascade}}, \code{\link{tcplAppend}}, +\code{\link{tcplWriteLvl0}} +} diff --git a/man/tcplWriteLvl0.Rd b/man/tcplWriteLvl0.Rd index 2d7198a..d69a551 100644 --- a/man/tcplWriteLvl0.Rd +++ b/man/tcplWriteLvl0.Rd @@ -1,42 +1,41 @@ -% Generated by roxygen2: do not edit by hand -% Please edit documentation in R/tcplWriteLvl0.R -\name{tcplWriteLvl0} -\alias{tcplWriteLvl0} -\title{Write level 0 screening data into the tcpl databases} -\usage{ -tcplWriteLvl0(dat, type) -} -\arguments{ -\item{dat}{data.table, the screening data to load} - -\item{type}{Character of length 1, the data type, "sc" or "mc"} -} -\description{ -\code{tcplWriteLvl0} takes a data.table with level 0 screening data and -writes the data into the level 0 tables in the tcpl databases. -} -\details{ -This function appends data onto the existing table. It also deletes all the -data for any acids or aeids dat contains from the given and all downstream -tables. - -Before writing any data the function maps the assay component source name(s) -(acsn) to assay component id (acid), ensures the proper class on each field -and checks for every test compound sample id (spid where wllt == "t") in the -tcpl chemical database. If field types get changed a warning is given -listing the affected fields and they type they were coerced to. If the -acsn(s) or spid(s) do not map to the tcpl databases the function will return -an error and the data will not be written. - -The data type can be either 'mc' for mutliple concentration data, or 'sc' -for single concentration data. Multiple concentration data will be loaded -into the level tables, whereas the single concentration will be loaded into -the single tables. -} -\note{ -This function should only be used to load level 0 data. -} -\seealso{ -\code{\link{tcplCascade}}, \code{\link{tcplAppend}} -} - +% Generated by roxygen2: do not edit by hand +% Please edit documentation in R/tcplWriteLvl0.R +\name{tcplWriteLvl0} +\alias{tcplWriteLvl0} +\title{Write level 0 screening data into the tcpl databases} +\usage{ +tcplWriteLvl0(dat, type) +} +\arguments{ +\item{dat}{data.table, the screening data to load} + +\item{type}{Character of length 1, the data type, "sc" or "mc"} +} +\description{ +\code{tcplWriteLvl0} takes a data.table with level 0 screening data and +writes the data into the level 0 tables in the tcpl databases. +} +\details{ +This function appends data onto the existing table. It also deletes all the +data for any acids or aeids dat contains from the given and all downstream +tables. + +Before writing any data the function maps the assay component source name(s) +(acsn) to assay component id (acid), ensures the proper class on each field +and checks for every test compound sample id (spid where wllt == "t") in the +tcpl chemical database. If field types get changed a warning is given +listing the affected fields and they type they were coerced to. If the +acsn(s) or spid(s) do not map to the tcpl databases the function will return +an error and the data will not be written. + +The data type can be either 'mc' for mutliple concentration data, or 'sc' +for single concentration data. Multiple concentration data will be loaded +into the level tables, whereas the single concentration will be loaded into +the single tables. +} +\note{ +This function should only be used to load level 0 data. +} +\seealso{ +\code{\link{tcplCascade}}, \code{\link{tcplAppend}} +} diff --git a/vignettes/tcpl_Overview.Rnw b/vignettes/tcpl_Overview.Rnw index b6f9950..81bd8cb 100644 --- a/vignettes/tcpl_Overview.Rnw +++ b/vignettes/tcpl_Overview.Rnw @@ -1,1472 +1,1477 @@ -\documentclass{article} - -%\usepackage{hyperref} -\usepackage{url} -\usepackage{Sweave} -\usepackage{rotating} -\usepackage{enumitem} -\usepackage{color} -\usepackage{makebox} -\usepackage{float} -\usepackage{array} -\usepackage{fancyhdr} -\usepackage{multirow} -%\usepackage[usenames,dvipsnames]{color} - -\pagestyle{fancy} -\fancyhead{} -\fancyfoot{} -\renewcommand{\headrulewidth}{0pt} -\fancyhead[C]{\leftmark} -\fancyfoot[C]{\thepage} - -\renewcommand{\arraystretch}{1.5} -%\setlength{\parskip}{10pt} - -\definecolor{gray50}{gray}{0.5} - -\DefineVerbatimEnvironment{Sinput}{Verbatim} {xleftmargin=0em, - frame=single, - rulecolor=\color{gray50}, - framesep=3mm, - label=\tiny{R Input}, - samepage=true} -\DefineVerbatimEnvironment{Soutput}{Verbatim}{xleftmargin=0em, - frame=single, - rulecolor=\color{gray50}, - framesep=3mm, - label=\tiny{R Output}, - samepage=true} - -\newcommand{\Lagr}{\mathop{\mathcal{L}}} - -<>= -options(continue = " ", width = 60, warn = -1) -pdf.options(pointsize = 10) -library(tcpl) -tbls <- unlist(tcplQuery("SELECT name FROM sqlite_master WHERE type='table';")) -keep <- grepl("methods|categories", tbls) -for (i in tbls[!keep]) tcplSendQuery(paste("DELETE FROM", i)) -@ - -%\VignetteIndexEntry{tcpl Overview} - -\begin{document} -\SweaveOpts{concordance=true} -\hyphenpenalty=10000 -\tolerance=10000 - -\title{The ToxCast\texttrademark{} Analysis Pipeline:\\ An R Package for Processing and Modeling Chemical Screening Data \\ \hfill \newline \large Version \Sexpr{packageVersion("tcpl")}} -\author{Dayne L. Filer, Parth Kothiya, Woodrow R. Setzer,\\ Richard S. Judson, Matthew T. Martin} -\maketitle - -\clearpage - -\tableofcontents -%\listoffigures -%\listoftables - -\clearpage -\section*{Introduction} -\label{sec:intro} -\markboth{Introduction}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Introduction} -\subsection*{Overview} -\label{subsec:overview} -\addcontentsline{toc}{subsection}{Overview} -The \texttt{tcpl} package was developed to process high-throughput and high-content screening data generated by the U.S. Environmental Protection Agency (EPA) ToxCast\texttrademark{} program.\footnote{\url{}} ToxCast is screening thousands of chemicals with hundreds of assays coming from numerous and diverse biochemical and cell-based technology platforms. The diverse data, received in heterogeneous formats from numerous vendors, are transformed to a standard computable format and loaded into the \texttt{tcpl} database by vendor-specific R scripts. Once data is loaded into the database, ToxCast utilizes the generalized processing functions provided in this package to process, normalize, model, qualify, flag, inspect, and visualize the data. While developed primarily for ToxCast, we have attempted to make the \texttt{tcpl} package generally applicable to chemical-screening community. - -The \texttt{tcpl} package includes processing functionality for two screening paradigms: (1) single-concentration screening and (2) multiple-concentration screening. Single-concentration screening consists of testing chemicals at one concentration, often for the purpose of identifying potentially active chemicals to test in the multiple-concentration format. Multiple-concentration screening consists of testing chemicals across a concentration range, such that the modeled activity can give an estimate of potency, efficacy, etc. - -Prior to the pipeline processing provided in this package, all the data must go through pre-processing (level 0). Level 0 pre-processing utilizes dataset-specific R scripts to process the heterogeneous data into a uniform format and to load the uniform data into the \texttt{tcpl} database. Level 0 pre-processing is outside the scope of this package, but can be done for virtually any high-throughput or high-content chemical screening effort, provided the resulting data includes the minimum required information. - -In addition to storing the data, the \texttt{tcpl} database stores every processing/analysis decision at the assay component or assay endpoint level to facilitate transparency and reproducibility. For the illustrative purposes of this vignette we have included a SQLite version of the \texttt{tcpl} database containing a small subset of data from the ToxCast program. Because of differences in database capabilities, not all functionality of the package will work with the SQLite version. To best utilize the package the user should work with a MySQL database and the \texttt{RMySQL} package. The package includes a SQL file to initialize the MySQL database on the user's server of choice. Additionally, the MySQL version of the ToxCast database containing all the publicly available ToxCast data is available for download at: \url{}. - -\subsection*{Package Settings} -\label{subsec:pkgsettings} -\addcontentsline{toc}{subsection}{Package Settings} -First, it is highly recommended for users to utilize the \texttt{data.table} package. The \texttt{tcpl} package utilizes the \texttt{data.table} package for all data frame-like objects. -\hfill \newline -<>= -library(data.table) -library(tcpl) -## Store the path the tcpl directory for loading data -pkg_dir <- system.file(package = "tcpl") -@ -\hfill \par -Every time the package is loaded in a new R session, a message similar to the following will print showing the default package settings: -\hfill \newline -\begin{Schunk} -\begin{Soutput} -tcpl (v1.0) loaded with the following settings: - TCPL_DB: /usr/local/lib64/R/library/tcpl/sql/xmpl.sqlite - TCPL_USER: NA - TCPL_HOST: NA - TCPL_DRVR: SQLite -Default settings stored in TCPL.conf. See ?tcplConf for -more information. -\end{Soutput} -\end{Schunk} -\hfill \par - -The package consists of five settings: (1) \texttt{\$TCPL\_DB} points to the \texttt{tcpl} database (either the SQLite file, as in the given example above, or the name of the MySQL database), (2) \texttt{\$TCPL\_USER} stores the username for accessing the database, (3) \texttt{\$TCPL\_PASS} stores the password for accessing the database, (4) \texttt{\$TCPL\_HOST} points to the MySQL server host, and (5) \texttt{\$TCPL\_DRVR} indicates which database driver to use (either ``MySQL'' or ``SQLite''). - -Refer to \texttt{?tcplConf} for more information. At any time users can check the settings using \texttt{tcplConfList()}. An example of database settings would be as follows: - -\hfill \newline -<>= -tcplConf(drvr = "MySQL", - user = "root", - pass = "", - host = "localhost", - db = "toxcastdb") -@ -\hfill \par - -Note, \texttt{tcplSetOpts} will only make changes to the parameters given. The package is always loaded with the settings stored in the TCPL.config file located within the package directory. The user can edit the file, such that the package loads with the desired settings, rather than having to call the \texttt{tcplSetOpts} function every time. The TCPL.config file has to be edited whenever the package is updated or re-installed. - -\subsection*{Assay Structure} -\label{subsec:assaystruc} -\addcontentsline{toc}{subsection}{Assay Structure} -The definition of an ``assay'' is, for the purposes of this package, broken into: -\begin{description}[labelindent=1cm] - \item[assay\_source] -- the vendor/origination of the data - \item[assay] -- the procedure to generate the component data - \item[assay\_component] -- the raw data readout(s) - \item[assay\_component\_endpoint] -- the normalized component data -\end{description} -Each assay element is represented by a separate table in the \texttt{tcpl} database. In general, we refer to an ``assay\_component\_endpoint'' as an ``assay endpoint.'' As we move down the hierarchy, each additional layer has a one-to-many relationship with the previous layer. For example, an assay component can have multiple assay endpoints, but an assay endpoint can derive only from a single assay component. - -All processing occurs by assay component or assay endpoint, depending on the processing type (single-concentration or multiple-concentration) and level. No data are stored at the assay or assay source level. The ``assay'' and ``assay\_source'' tables store annotations to help in the processing and down-stream understanding/analysis of the data. For more information about the assay annotations and the ToxCast assays please refer to \url{}. - -Throughout the package the levels of assay hierarchy are defined and referenced by their primary keys (IDs) in the \texttt{tcpl} database: $\mathit{asid}$ (assay source ID), $\mathit{aid}$ (assay ID), $\mathit{acid}$ (assay component ID), and $\mathit{aeid}$ (assay endpoint ID). In addition, the package abbreviates the fields for the assay hierarchy names. The abbreviations mirror the abbreviations for the IDs with ``nm'' in place of ``id'' in the abbreviations, e.g. assay\_component\_name is abbreviated $\mathit{acnm}$. - -\clearpage -\section*{Register and Upload New Data} -\label{sec:newdata} -\markboth{Register and Upload New Data}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Register and Upload New Data} -This section explains how to register and upload new data into the \texttt{tcpl} database using a small subset of ToxCast data showing changes intracellular cortisol hormone. The subset of data comes from an assay measuring steroidogenesis through cellular levels of mutliple steroid hormones. - -The \texttt{tcpl} package provides three functions for adding new data: (1) \texttt{tcplRegister} to register a new assay or chemical ID, (2) \texttt{tcplUpdate} to change or add additional information for existing assay or chemical IDs, and (3) \texttt{tcplWriteLvl0} for loading data. Before writing any data to the \texttt{tcpl} database, the user has to register the assay and chemical information. - -The first step in registering new assays is to register the assay source. As discussed in the previous section, the package refers to the levels of the assay hierarchy by their ID names, e.g. $\mathit{asid}$ for assay source.The following code shows how to register an assay source, then ensure the assay source was properly registered. -\hfill \newline -<<>>= -## Add a new assay source, call it CTox, -## that produced the data -tcplRegister(what = "asid", flds = list(asnm = "CTox")) -tcplLoadAsid() -@ -\hfill \par -The \texttt{tcplRegister} function takes the abbreviation for $\mathit{assay\_source\_name}$, but the function will also take the unabbreviated form. The same is true of the \texttt{tcplLoadA-} functions, which load the information for the assay annotations stored in the database. The next steps show how to register, in order, an assay, assay component, and assay endpoints. -\hfill \newline -<<>>= -tcplRegister(what = "aid", - flds = list(asid = 1, - anm = "Steroidogenesis", - assay_footprint = "96 well")) -@ -\hfill \par -When registering an assay ($\mathit{aid}$), the user must give an $\mathit{asid}$ to map the assay to the correct assay source. Registering an assay, in addition to an assay\_name ($\mathit{anm}$) and $\mathit{asid}$, requires $\mathit{assay\_footprint}$. The $\mathit{assay\_footprint}$ field is used in the assay plate visualization functions (discussed later) to define the appropriate plate size. The $\mathit{assay\_footprint}$ field can take most string values, but only the numeric value will be extracted, e.g. the text string ``hello 384'' would indicate to draw a 384-well microtitier plate. Values containing multiple numeric values in $\mathit{assay\_footprint}$ may cause errors in plotting plate diagrams. - -With the assay registered, the next step is to register an assay component. The example data presented here only contains data for one of the many steroids measured and only requires one assay component, but at this step the user could add multiple assay components to the ``Steroidogenesis'' assay. -\hfill \newline -<<>>= -tcplRegister(what = "acid", - flds = list(aid = 1, acnm = "CTox_CORT")) -tcplRegister(what = "aeid", - flds = list(acid = c(1, 1), - aenm = c("CTox_CORT_up", - "CTox_CORT_dn"), - normalized_data_type = - rep("log2_fold_induction", 2), - export_ready = c(1, 1), - burst_assay = c(0, 0), - fit_all = c(0, 0))) -@ -\hfill \par -In the example above two assay endpoints were assigned to the assay component. Multiple endpoints allow for different normalization approaches of the data, in this case to detect activity in both the positive and negative directions (up and down). Notice registering an assay endpoint also requires the $\mathit{normalized\_data\_type}$ field. The $\mathit{normalized\_data\_type}$ field gives some default values for plotting. Currently the package supports three $\mathit{normalized\_data\_type}$ values: (1) ``percent\_activity,'' (2) ``log2\_fold\_induction,'' and (3) ``log10\_fold\_induction.'' Any other values will be treated as ``percent\_activity.'' - -The other three additional fields when registering an assay endpoint do not have to be explicitly defined when working in the MySQL environment and will default to the values given above. All three fields represent Boolean values (1 or 0, 1 being \texttt{TRUE}). The $\mathit{export\_ready}$ field indicates (1) the data is done and ready for export or (0) still in progress. The $\mathit{burst\_assay}$ field is specific to multiple-concentration processing and indicates (1) the assay endpoint is included in the burst distribution calculation or (0) not (Appendix \ref{app:cyto}). The $\mathit{fit\_all}$ field is specific to multiple-concentration processing and indicates (1) the package should try to fit every concentration series, or (0) only attempt to fit concentration series that show evidence of activity (page \pageref{subsec:mc4}). - -The final piece of assay information needed is the assay component source name (abbreviated $\mathit{acsn}$), stored in the ``assay\_component\_map'' table. The assay component source name is intended to simplify level 0 pre-processing by defining unique character strings (concatenating information if necessary) from the source files that identify the specific assay components. The unique character strings ($\mathit{acsn}$) get mapped to $\mathit{acid}$. An example of how to register a new $\mathit{acsn}$ will be given later in this section. - -With the minimal assay information registered, the next step is to register the necessary chemical and sample information. The ``chdat.csv'' file included in the package contains the sample and chemical information for the data that will be loaded. The following shows an example of how to load chemical information. Similar to the order in registering assay information, the user must first register chemicals, then register samples that map to chemical. -\hfill \newline -<<>>= -ch <- fread(file.path(pkg_dir, "sql", "chdat.csv")) -head(ch) - -## Register the unique chemicals -tcplRegister(what = "chid", - flds = ch[ , - unique(.SD), - .SDcols = c("casn", "chnm")]) -@ -\hfill \par -The ``chdat.csv'' file contains a map of sample to chemical information, but chemical and sample information have to be registered separately because a chemical could potentially have multiple samples. Registering chemicals only takes a chemical CAS registry number ($\mathit{casn}$) and name ($\mathit{chnm}$). In the above example only the unique chemicals were loaded. The $\mathit{casn}$ and $\mathit{chnm}$ fields have unique constraints; trying to register multiple chemicals with the same name or CAS registry number is not possible and will result in an error. With the chemicals loaded the samples can be registered by mapping the sample ID ($\mathit{spid}$) to chemical ID. Note, the user needs to load the chemical information to get the chemical IDs then merge the new chemical IDs with the sample IDs from the original file by chemical name or CASRN. -\hfill \newline -<<>>= -cmap <- tcplLoadChem() -tcplRegister(what = "spid", - flds = merge(ch[ , list(spid, casn)], - cmap[ , list(casn, chid)], - by = "casn")[ , list(spid, chid)]) -@ -\hfill \par -Optionally, the user user can subdivide the chemcial IDs into different groups or libraries. For illustration, the chemical IDs will be arbitrarily divided into two chemical libraries, with the even numbered chemical IDs in group 1 and the odd numbered chemicals IDs in group 2. -\hfill \newline -<<>>= -grp1 <- cmap[chid %% 2 == 0, unique(chid)] -grp2 <- cmap[chid %% 2 == 1, unique(chid)] -tcplRegister(what = "clib", - flds = list(clib = "group_1", chid = grp1)) -tcplRegister(what = "clib", - flds = list(clib = "group_2", chid = grp2)) -@ -\hfill \par -Chemical IDs can belong to more than one library, and will be listed as seperate entries when loading chemical library information. -\hfill \newline -<<>>= -tcplRegister(what = "clib", - flds = list(clib = "other", chid = 1:2)) -tcplLoadClib(field = "chid", val = 1:2) -@ -\hfill \par -After registering the chemical and assay information the data can be loaded into the \texttt{tcpl} database. The package includes two files from the ToxCast program, ``scdat.csv'' and ``mcdat.csv,'' with a subset of single- and multiple-concentration data, respectively. The single- and multiple-concentration processing require the same level 0 fields; more information about level 0 pre-processing in Appendix \ref{app:l0}. -\hfill \newline -<<>>= -scdat <- fread(file.path(pkg_dir, "sql", "scdat.csv")) -mcdat <- fread(file.path(pkg_dir, "sql", "mcdat.csv")) -c(unique(scdat$acsn), unique(mcdat$acsn)) -@ -\hfill \par -As discussed above, the final step before loading data is mapping the assay component source name ($\mathit{acsn}$) to the correct $\mathit{acid}$. An assay component can have multiple $\mathit{acsn}$ values, but an $\mathit{acsn}$ must be unique to one assay component. Assay components can have multiple $\mathit{acsn}$ values to minimize the amount of data manipulation required (and therefore potential errors) during the level 0 pre-processing if assay source files change or are inconsistent. The example data presented here only has one $\mathit{acsn}$ value, ``cort.'' -\hfill \newline -<<>>= -tcplRegister(what = "acsn", - flds = list(acid = 1, acsn = "cort")) -@ -\hfill \par -The data are now ready to be loaded with the \texttt{tcplWriteLvl0} function. -\hfill \newline -<>= -tcplWriteLvl0(dat = scdat, type = "sc") -tcplWriteLvl0(dat = mcdat, type = "mc") -@ -\hfill \par -The \texttt{type} argument is used throughout the package to distinguish the type of data/processing: ``sc'' indicates single-concentration; ``mc'' indicates multiple-concentration. The \texttt{tcplLoadData} function can be used to load the data from the database. -\hfill \newline -<<>>= -tcplLoadData(lvl = 0, fld = "acid", val = 1, type = "sc") -@ -\hfill \par -Notice in the loaded data the \texttt{acsn} is replaced by the correct $\mathit{acid}$ and the $\mathit{s0id}$ field is added. The ``s\#'' fields, and corresponding ``m\#'' fields in the multiple-concentration data, are the primary keys for each level of data. These primary keys link the various levels of data. All of the keys are auto-generated and will change anytime data are reloaded or processed. Note, the primary keys only change for the levels affected, e.g. if the user reprocesses level 1, the level 0 keys will remain the same. - -\clearpage -\section*{Data Processing and the tcplRun Function} -\label{sec:tcplrun} -\markboth{Data Processing and the tcplRun Function}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Data Processing and the tcplRun Function} -This section is intended help the user understand the general aspects of how the data is processed before diving into the specifics of each processing level for both screening paradigms. The details of the two screening paradigms are provided in later sections. - -All processing in the \texttt{tcpl} package occurs at the assay component or assay endpoint level. There is no capability within either screening paradigm to do any processing which combines data from multiple assay components or assay endpoints. Any combining of data must occur before or after the pipeline processing. For example, a ratio of two values could be processed through the pipeline if the user calculated the ratio during the level 0 pre-processing and uploaded a single ``component.'' - -Once data are uploaded in the database, data processing occurs through the \texttt{tcplRun} function for both single- and multiple-concentration screening. The \texttt{tcplRun} function can either take a single ID ($\mathit{acid}$ or $\mathit{aeid}$, depending on the processing type and level) or an $\mathit{asid}$. If given an $\mathit{asid}$ the \texttt{tcplRun} function will attempt to process all corresponding components/endpoints. When processing by $\mathit{acid}$ or $\mathit{aeid}$, the user must know which ID to give for each level (Table \ref{tab:proccheck}). - -The processing is sequential, and every level of processing requires successful processing at the antecedent level. Any processing changes will cause a ``delete cascade,'' removing any subsequent data affected by the processing change to ensure complete data fidelity at any given time. For example, processing level 3 data will cause the data from levels 4 through 6 to be deleted for the corresponding IDs. Changing any method assignments will also trigger a delete cascade for any corresponding data (more on method assignments below). - -The user must give a start and end level when using the \texttt{tcplRun} function. If processing more than one assay component or endpoint, the function will not stop if one component or endpoint fails. If a component or endpoint fails while processing multiple levels, the function will not attempt to processes the failed component/endpoint in subsequent levels. When finished processing, the \texttt{tcplRun} function returns a list indicating the processing success of each id. For each level processed the list will contain two elements: (1) ``l\#'' a named Boolean vector where \texttt{TRUE} indicates successful processing, and (2) ``l\#\_failed'' containing the names of any ids that failed processing where ``\#'' is the processing level. - -The processing functions print messages to the console indicating the four steps of the processing. First, data for the given assay component ID are loaded, the data are processed, data for the same ID in subsequent levels are deleted, then the processed data is written to the database. The `outfile' parameter in the \texttt{tcplRun} function gives the user the option of printing all of the output text to a file. - -The \texttt{tcplRun} function will attempt to use multiple processors on Unix-based systems (does not include Windows). Depending on the system environment, or if the user is running into memory constraints, the user may wish to use less processing power and can do so by setting the `mc.cores' parameter in the \texttt{tcplRun} function. - -\begin{table}[h!] - \centering - \caption{Processing checklist} - \noindent\makebox[\textwidth]{% - \begin{tabular}{c c c c} - Type & Level & Input ID & Method ID\\ - SC & Lvl 1 & \texttt{acid} & \texttt{aeid} \\ \hline - SC & Lvl 2 & \texttt{aeid} & \texttt{aeid} \\ \hline \hline - MC & Lvl 1 & \texttt{acid} & \texttt{N/A} \\ \hline - MC & Lvl 2 & \texttt{acid} & \texttt{acid} \\ \hline - MC & Lvl 3 & \texttt{acid} & \texttt{aeid} \\ \hline - MC & Lvl 4 & \texttt{aeid} & \texttt{N/A} \\ \hline - MC & Lvl 5 & \texttt{aeid} & \texttt{aeid} \\ \hline - MC & Lvl 6 & \texttt{aeid} & \texttt{aeid} \\ \hline - \multicolumn{4}{p{8cm}}{\footnotesize{The Input ID column indicates the ID used for each processing step; Method ID indicates the ID used for assigning methods for data processing, when necessary. SC = single-concentration; MC = multiple-concentration.}} - \end{tabular}} - \label{tab:proccheck} -\end{table} - -The processing requirements vary by screening paradigm and level. Later sections will cover the details, but in general, many of the processing steps require specific methods to accommodate different experimental designs or data processing approaches. - -Notice from Table \ref{tab:proccheck} that level 1 single-concentration processing (SC1) requires an $\mathit{acid}$ input (Table \ref{tab:proccheck}), but the methods are assigned by $\mathit{aeid}$. The same is true for MC3 processing. SC1 and MC3 are the normalization steps and convert $\mathit{acid}$ to $\mathit{aeid}$. (Only MC2 has methods assigned by $\mathit{acid}$.) The normalization process is discussed in the following section. - -To promote reproducibility, all method assignments must occur through the database. Methods cannot be passed to either the \texttt{tcplRun} function or the low-level processing functions called by \texttt{tcplRun}. - -In general, method data are stored in the ``\_methods'' and ``\_id'' tables that correspond to the data-storing tables. For example, the ``sc1'' table is accompanied by the ``sc1\_methods'' table which stores the available methods for SC1, and the ``sc1\_aeid'' table which stores the method assignments and execution order. - -The \texttt{tcpl} package provides three functions for easily modifying and loading the method assignments for the given assay components or endpoints: (1) \texttt{tcplMthdAssign} allows the user to assign methods, (2) \texttt{tcplMthdClear} clears method assignments, and (3) \texttt{tcplMthdLoad} queries the \texttt{tcpl} database and returns the method assignments. The package also includes the \texttt{tcplMthdList} function that queries the \texttt{tcpl} database and returns the list of available methods. - -The following code blocks will give some examples of how to use the method-related functions. - -\hfill \newline -<<>>= -## For illustrative purposes, assign level 2 MC methods to -## ACIDs 98, 99. First check for available methods. -mthds <- tcplMthdList(lvl = 2, type = "mc") -mthds[1:2] -## Assign some methods to ACID 97, 98 & 99 -tcplMthdAssign(lvl = 2, - id = 97:99, - mthd_id = c(3, 4, 2), - ordr = 1:3, - type = "mc") -tcplMthdLoad(lvl = 2, id = 97:99, type = "mc") -## Methods can be cleared one at a time for the given id(s) -tcplMthdClear(lvl = 2, id = 99, mthd_id = 2, type = "mc") -tcplMthdLoad(lvl = 2, id = 99, type = "mc") -## Or all methods can be cleared for the given id(s) -tcplMthdClear(lvl = 2, id = 97:98, type = "mc") -tcplMthdLoad(lvl = 2, id = 97:98, type = "mc") -@ -\hfill \par - -\clearpage -\section*{Data Normalization} -\label{sec:datanorm} -\markboth{Data Normalization}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Data Normalization} - -Data normalization occurs in both single- and multiple-concentration processing at levels 1 and 3, respectively. While the two paradigms use different methods, the normalization approach is the same for both single- and multiple-concentration processing. Data normalization does not have to occur within the package, and normalized data can be loaded into the database at level 0. However, \textbf{data must be zero-centered and will only be fit in the positive direction}. - -The \texttt{tcpl} package supports fold-change and a percent of control approaches to normalization. All data must be zero-centered so all fold-change data must be log-transformed. Normalizing to a control requires three normalization methods: (1) one to define the baseline value, (2) one to define the control value, and (3) one to calculate percent of control (``resp.pc''). Normalizing to fold-change also requires three methods: (1) one to define the baseline value, (2) one to calculate the fold-change, and (3) one to log-transform the fold-change values. Methods defining a baseline value ($\mathit{bval}$) have the ``bval'' prefix, methods defining the control value ($\mathit{pval}$) have the ``pval'' prefix, and methods that calculate or modify the final response value have the ``resp'' prefix. For example, ``resp.log2'' does a log-transformation of the response value using a base value of 2. The formluae for calculating the percent of control and fold-change response values are listed in equations \ref{eq:pc} and \ref{eq:fc}, respectively. - -The percent of control and fold-change values, respectively: -\begin{equation} -\label{eq:pc} \mathit{resp} = \frac{\mathit{cval} - \mathit{bval}}{\mathit{pval} - \mathit{bval}}100 -\end{equation} -\begin{equation} -\label{eq:fc} \mathit{resp} = \mathit{cval}/\mathit{bval} -\end{equation} - -Order matters when assigning normalization methods. The $\mathit{bval}$, and $\mathit{pval}$ if normalizing as a percent of control, need to be calculated prior to calculating the response value. Table \ref{tab:normxmpl} shows some possible normalization schemes. - -\begin{table}[h!] - \centering - \caption{Example normalization method assignments.} - \noindent\makebox[\textwidth]{% - \begin{tabular}{c|p{4cm}|p{4cm}|p{4cm}|} - \cline{2-4} - \parbox[t]{2mm}{\multirow{4}{*}{\rotatebox[origin=c]{90}{Fold-Change}}} & 1. bval.apid.nwlls.med & 1. bval.apid.lowconc.med & 1. none \\ - & 2. resp.fc & 2. resp.fc & 2. resp.log10 \\ - & 3. resp.log2 & 3. resp.log2 & 3. resp.blineshift.50.spid \\ - & 4. resp.mult.neg1 & 4. & 4. \\ \cline{2-4} - \parbox[t]{2mm}{\multirow{4}{*}{\rotatebox[origin=c]{90}{\% Control}}} & 1. bval.apid.lowconc.med & 1. bval.spid.lowconc.med & 1. none \\ - & 2. pval.apid.pwlls.med & 2. pval.apid.mwlls.med & 2. resp.multneg1 \\ - & 3. resp.pc & 3. resp.pc & 3. \\ - & 4. resp.multneg1 & 4. & 4. \\ \cline{2-4} - \end{tabular}} - \label{tab:normxmpl} -\end{table} - -If the data does not require any normalization the ``none'' method must be assigned for normalization. The ``none'' method simply copies the input data to the response field. Without assigning ``none'' the response field will not get generated and the processing will not complete. - -To reiterate, the package only models response in the positive direction. Therefore, signal in the negative direction must transformed to the positive direction during normalization. Negative direction data are inverted by multiplying the final response values by ${-1}$ (see the ``resp.mult.neg`'' methods in Table \ref{tab:normxmpl}). - -In addition to the required normalization methods, the user can add additional methods to transform the normalized values. For example, the third fold-change example in Table \ref{tab:normxmpl} includes ``resp.blineshift.50.spid,'' which corrects for baseline deviations by $\mathit{spid}$. A complete list of available methods, by processing type and level, can be listed with \texttt{tcplMthdList}. More information is available in the package documentation, and can be found by running \texttt{??tcpl::Methods}. - -As discussed in the Assay Structure section (page \pageref{subsec:assaystruc}), an assay component can have more than one assay endpoint. Creating multiple endpoints for one component enables multiple normalization approaches. Multiple normalization approaches may become necessary when the assay component detects signal in both positive and negative directions. - -\clearpage -\section*{Single-concentration Screening} -\label{sec:snglconc} -\markboth{Single-concentration Screening}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Single-concentration Screening} -This section will cover the \texttt{tcpl} process for handling single-concentration data\footnote{This section assumes a working knowledge of the concepts covered in the Data Processing and Data Normalization sections (pages \pageref{sec:tcplrun} and \pageref{sec:datanorm}, respectively).}. The goal of single-concentration processing is to identify potentially active compounds from a broad screen at a single concentration. After the data is loaded into the \texttt{tcpl} database, the single-concentration processing consists of 2 levels (Table \ref{tab:scsummary}). - -\begin{table}[h!] - \centering - \caption{Summary of the \texttt{tcpl} single-concentration pipeline} - \noindent\makebox[\textwidth]{% - \begin{tabular}{c p{10cm}} - & Description \\ \hline - Lvl 0 & Pre-processing: Vendor/dataset-specific pre-processing to organize heterogeneous raw data to the uniform format for processing by the \texttt{tcpl} package$^\dagger$ \\ \hline - Lvl 1 & Normalize: Apply assay endpoint-specific normalization listed in the ``sc1\_aeid'' table to the raw data to define response \\ \hline - Lvl 2 & Activity Call: Collapse replicates by median response, define the response cutoff based on methods in the ``sc2\_aeid'' table, and determine activity \\ \hline - \multicolumn{2}{l}{\footnotesize{$^\dagger$Level 0 pre-processing is outside the scope of this package}} - \end{tabular}} - \label{tab:scsummary} -\end{table} - -\subsection*{Level 1} -\label{subsec:sc1} -\addcontentsline{toc}{subsection}{Level 1} -Level 1 processing converts the assay component to assay endpoint(s) and defines the normalized-response value field ($\mathit{resp}$); logarithm-concentration field ($\mathit{logc}$); and optionally, the baseline value ($\mathit{bval}$) and positive control value ($\mathit{pval}$) fields. The purpose of level 1 is to normalize the raw values to either the percentage of a control or to fold-change from baseline. The normalization process is discussed in greater detail in the Data Normalization section (page \pageref{sec:datanorm}). - -Before beginning the normalization process, all wells with well quality ($\mathit{wllq}$) equal to 0 are removed. - -The first step in beginning the processing is to identify which assay endpoints stem from the assay component(s) being processed. -\hfill \newline -<<>>= -tcplLoadAeid(fld = "acid", val = 1) -@ -\hfill \par - -With the corresponding endpoints identified, the appropriate methods can be assigned. - -\hfill \newline -<<>>= -tcplMthdAssign(lvl = 1, - id = 1:2, - mthd_id = c(1, 11, 13), - ordr = 1:3, - type = "sc") -tcplMthdAssign(lvl = 1, - id = 2, - mthd_id = 16, - ordr = 4, - type = "sc") -@ -\hfill \par - -Above, methods 1, 11, and 13 were assigned for both endpoints. The method assignments instruct the processing to: (1) calculate $\mathit{bval}$ for each assay plate ID by taking the median of all data where the well type equals ``n;'' (2) calculate a fold-change over $\mathit{bval}$; (3) log-transform the fold-change values with base 2. The second method assignment (only for AEID 2) indicates to multiply all response values by $-1$. - -For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 1, type = "sc")} or \texttt{?SC1\_Methods}. With the assay endpoints and normalization methods defined, the data are ready for level 1 processing. -\hfill \newline -<<>>= -## Do level 1 processing for acid 1 -sc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "sc") -@ -\hfill \par -\textbf{Notice that level 1 processing takes an assay component ID, not an assay endpoint ID, as the input ID.} As mentioned in previously, the user must assign normalization methods by assay endpoint, then do the processing by assay component. The level 1 processing will attempt to process all endpoints in the database for a given component. If one endpoint fails for any reason (e.g., does not have appropriate methods assigned), the processing for the entire component fails. - -\subsection*{Level 2} -\label{subsec:sc2} -\addcontentsline{toc}{subsection}{Level 2} -Level 2 processing defines the baseline median absolute deviation ($\mathit{bmad}$), collapses any replicates by sample ID, and determines the activity. - -Before the data are collapsed by sample ID, the $\mathit{bmad}$ is calculated as the median absolute deviation of all wells with well type equal to ``t.'' The calculation to define $\mathit{bmad}$ is done once across the entire assay endpoint. \textbf{If additional data is added to the database for an assay component, the $\mathit{bmad}$ values for all associated assay endpoints will change.} Note, this $\mathit{bmad}$ definition is different from the $\mathit{bmad}$ definition used for multiple-concentration screening. - -To collapse the data by sample ID, the median response value is calculated at each concentration. The data are then further collapsed by taking the maximum of those median values ($\mathit{max\_med}$). - -Once the data are collapsed, such that each assay endpoint-sample pair only has one value, the activity is determined. For a sample to get an active hit-call, the $\mathit{max\_med}$ must be greater than an efficacy cutoff. The efficacy cutoff is determined by the level 2 methods. The efficacy cutoff value ($\mathit{coff}$) is defined as the maximum of all values given by the assigned level 2 methods. Failing to assign a level 2 method will result in every sample being called active. For a complete list of level 5 methods see \texttt{tcplMthdList(lvl = 2, type = "sc")} or \texttt{?SC2\_Methods}. -\hfill \newline -<<>>= -## Assign a cutoff value of log2(1.2) -tcplMthdAssign(lvl = 2, - id = 1:2, - mthd_id = 3, - type = "sc") -@ -\hfill \par -For the example data the cutoff value is $log_2(1.2)$. If the maximum median value ($\mathit{max\_med}$) is greater than or equal to the efficacy cutoff ($\mathit{coff}$), the sample ID is considered active and the hit-call ($\mathit{hitc}$) is set to 1. - -With the methods assigned, the level 2 processing can be completed. - -\hfill \newline -<<>>= -## Do level 1 processing for acid 1 -sc2_res <- tcplRun(id = 1:2, slvl = 2, elvl = 2, type = "sc") -@ -\hfill \par - -\clearpage -\section*{Multiple-concentration Screening} -\label{sec:multiconc} -\markboth{Multiple-concentration Screening}{} -\thispagestyle{plain} -\addcontentsline{toc}{section}{Multiple-concentration Screening} -This section will cover the \texttt{tcpl} process for handling multiple-concentration data\footnote{This section assumes a working knowledge of the concepts covered in the Data Processing and Data Normalization sections (pages \pageref{sec:tcplrun} and \pageref{sec:datanorm}, respectively).}. The goal of multiple-concentration processing is to estimate the activity, potency, efficacy, and other parameters for sample-assay pairs. After the data is loaded into the \texttt{tcpl} database, the multiple-concentration processing consists of six levels (Table \ref{tab:mcsummary}). - -\begin{table}[h!] - \centering - \caption{Summary of the \texttt{tcpl} multiple-concentration pipeline} - \noindent\makebox[\textwidth]{% - \begin{tabular}{c p{10cm}} - & Description \\ \hline - Lvl 0 & Pre-processing: Vendor/dataset-specific pre-processing to organize heterogeneous raw data to the uniform format for processing by the \texttt{tcpl} package$^\dagger$ \\ \hline - Lvl 1 & Index: Define the replicate and concentration indices to facilitate all subsequent processing \\ \hline - Lvl 2 & Transform: Apply assay component-specific transformations listed in the ``mc2\_acid'' table to the raw data to define the corrected data \\ \hline - Lvl 3 & Normalize: Apply assay endpoint-specific normalization listed in the ``mc3\_aeid'' table to the corrected data to define response \\ \hline - Lvl 4 & Fit: Model the concentration-response data utilizing three objective functions: (1) constant, (2) hill, and (3) gain-loss \\ \hline - Lvl 5 & Model Selection/Acitivty Call: Select the winning model, define the response cutoff based on methods in the ``mc5\_aeid'' table, and determine activity \\ \hline - Lvl 6 & Flag: Flag potential false positive and false negative findings based on methods in the ``mc6\_aeid'' table \\ \hline - \multicolumn{2}{l}{\footnotesize{$^\dagger$Level 0 pre-processing is outside the scope of this package}} - \end{tabular}} - \label{tab:mcsummary} -\end{table} - -\subsection*{Level 1} -\label{subsec:mc1} -\addcontentsline{toc}{subsection}{Level 1} -Level 1 processing defines the replicate and concentration index fields to facilitate downstream processing. Because of cost, availability, physicochemical, and technical constraints screening-level efforts utilize numerous experimental designs and test compound (sample) stock concentrations. The resulting data may contain inconsistent numbers of concentrations, concentration values, and technical replicates. To enable quick and uniform processing, level 1 processing explicitly defines concentration and replicate indices, giving integer values $1 \dots N$ to increasing concentrations and technical replicates, where $1$ represents the lowest concentration or first technical replicate. - -To assign replicate and concentration indices we assume one of two experimental designs. The first design assumes samples are plated in multiple concentrations on each assay plate, such that the concentration series all falls on a single assay plate. The second design assumes samples are plated in a single concentration on each assay plate, such that the concentration series falls across many assay plates. - -For both experimental designs, data are ordered by source file ($\mathit{srcf}$), assay plate ID ($\mathit{apid}$), column index ($\mathit{coli}$), row index ($\mathit{rowi}$), sample ID ($\mathit{spid}$), and concentration ($\mathit{conc}$). Concentration is rounded to three significant figures to correct for potential rounding errors. After ordering the data we create a temporary replicate ID, identifying an individual concentration series. For test compounds in experimental designs with the concentration series on a single plate and all control compounds, the temporary replicate ID consists of the sample ID, well type ($\mathit{wllt}$), source file, assay plate ID, and concentration. The temporary replicate ID for test compounds in experimental designs with concentration series that span multiple assay plates is defined similarly, but does not include assay plate ID. - -Once the data are ordered, and the temporary replicate ID is defined, the data are scanned from top to bottom and increment the replicate index ($\mathit{repi}$) every time a replicate ID is duplicated. Then, for each replicate, the concentration index ($\mathit{cndx}$) is defined by ranking the unique concentrations, with the lowest concentration starting at 1. - -The following demonstrates how to carry out the level 1 processing and look at the resulting data: -\hfill \newline -<<>>= -## Do level 1 processing for acid 1 -mc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "mc") -@ -\hfill \par -With the processing complete, the resulting level 1 data can be loaded to check the processing: -\hfill \newline -<<>>= -## Load the level 1 data and look at the cndx and repi values -m1dat <- tcplLoadData(lvl = 1, - fld = "acid", - val = 1, - type = "mc") -m1dat <- tcplPrepOtpt(m1dat) -setkeyv(m1dat, c("repi", "cndx")) -m1dat[chnm == "3-Phenylphenol", list(chnm, conc, cndx, repi)] -@ -\hfill \par -3-phenylphenol contains two replicates, each with six distinct concentrations. The package also contains a tool for visualizing the data at the assay plate level. -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h!] -<>= -tcplPlotPlate(dat = m1dat, apid = "09Apr2014.Plate.17") -@ -\caption{An assay plate diagram. The color indicates the raw values according to the key on the right. The bold lines on the key show the distribution of values for the plate on the scale of values across the entire assay. The text inside each well shows the well type and concentration index. For example, ``t4'' indicates a test compound at the fourth concentration. The wells with an ``X'' have a well quality of 0.} -\label{fig:l1apid} -\end{figure} -In Figure \ref{fig:l1apid} we see the results of \texttt{tcplPlotPlate}. The \texttt{tcplPlotPlate} function can be used to visualize the data at levels 1 to 3. The row and column indices are printed along the edge of the plate, with the values in each well represented by color. While the plate does not give sample ID information, the letter/number codes in the wells indicate the well type and concentration index, respectively. The plate display also shows the wells with poor quality (as defined by the well quality, $\mathit{wllq}$, field at level 0) with an ``X.'' Plotting plates in subsequent levels wells with poor quality will appear empty. The title of the plate display lists the assay component/assay endpoint and the assay plate ID ($\mathit{apid}$). - -\subsection*{Level 2} -\label{subsec:mc2} -\addcontentsline{toc}{subsection}{Level 2} -Level 2 processing removes data where the well quality ($\mathit{wllq}$) equals 0 and defines the corrected value ($\mathit{cval}$) field. Level 2 processing allows for any transformation of the raw values at the assay component level. Examples of transformation methods could range from basic logarithm transformations, to complex spacial noise reduction algorithms. Currently the \texttt{tcpl} package only consists of basic transformations, but could be expanded in future releases. Level 2 processing does not include normalization methods; normalization should occur during level 3 processing. - -For the example data used in this vignette, no transformations are necessary at level 2. To not apply any transformation methods, assign the ``none'' method: -\hfill \newline -<<>>= -tcplMthdAssign(lvl = 2, - id = 1, - mthd_id = 1, - ordr = 1, - type = "mc") -@ -\hfill \par -Every assay component needs at least one transformation method assigned to complete level 2 processing. With the method assigned, the processing can be completed. -\hfill \newline -<<>>= -## Do level 2 processing for acid 1 -mc2_res <- tcplRun(id = 1, slvl = 2, elvl = 2, type = "mc") -@ -\hfill \par -For the complete list of level 2 transformation methods currently available, see \texttt{tcplMthdList(lvl = 2, type = "mc")} or \texttt{?MC2\_Methods} for more detail. The coding methodology used to implement the methods is beyond the scope of this vignette, but, in brief, the method names in the database correspond to a function name in the list of functions returned by \texttt{mc2\_mthds()} (the \texttt{mc2\_mthds} function is not exported, and not intended for use by the user). Each of the functions in the list given by \texttt{mc2\_mthds()} only return expression objects that processing function called by \texttt{tcplRun} executes in the local function environment to avoid making additional copies of the data in memory. We encourage suggestions for new methods. - -\subsection*{Level 3} -\label{subsec:mc3} -\addcontentsline{toc}{subsection}{Level 3} -Level 3 processing converts the assay component to assay endpoint(s) and defines the normalized-response value field ($\mathit{resp}$); logarithm-concentration field ($\mathit{logc}$); and optionally, the baseline value ($\mathit{bval}$) and positive control value ($\mathit{pval}$) fields. The purpose of level 3 processing is to normalize the corrected values to either the percentage of a control or to fold-change from baseline. The normalization process is discussed in greater detail in the Data Normalization section (page \pageref{sec:datanorm}). The processing aspect of level 3 is almost completely analogous to level 2, except the user has to be careful about using assay component versus assay endpoint. - -The user first needs to check which assay endpoints stem from the the assay component queued for processing. -\hfill \newline -<<>>= -## Look at the assay endpoints for acid 1 -tcplLoadAeid(fld = "acid", val = 1) -@ -\hfill \par -With the corresponding assay endpoints listed, the normalization methods can be assigned. -<<>>= -tcplMthdAssign(lvl = 3, - id = 1:2, - mthd_id = c(17, 9, 7), - ordr = 1:3, - type = "mc") -tcplMthdAssign(lvl = 3, - id = 2, - mthd_id = 6, - ordr = 4, - type = "mc") -@ -Above, methods 17, 9, and 7 were assigned for both endpoints. The method assignments instruct the processing to: (1) calculate $\mathit{bval}$ for each assay plate ID by taking the median of all data where the well type equals ``n'' or the well type equals ``t'' and the concentration index is 1 or 2; (2) calculate a fold-change over $\mathit{bval}$; (3) log-transform the fold-change values with base 2. The second method assignment (only for AEID 2) tells the processing to multiply all response values by $-1$. - -For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 3, type = "mc")} or \texttt{?MC3\_Methods}. With the assay endpoints and normalization methods defined, the data are ready for level 3 processing. -\hfill \newline -<<>>= -## Do level 3 processing for acid 1 -mc3_res <- tcplRun(id = 1, slvl = 3, elvl = 3, type = "mc") -@ -\hfill \par -\textbf{Notice that level 3 processing takes an assay component ID, not an assay endpoint ID, as the input ID.} As mentioned in previous sections, the user must assign normalization methods by assay endpoint, then do the processing by assay component. The level 3 processing will attempt to process all endpoints in the database for a given component. If one endpoint fails for any reason (e.g., does not have appropriate methods assigned), the processing for the entire component fails. - -\subsection*{Level 4} -\label{subsec:mc4} -\addcontentsline{toc}{subsection}{Level 4} -Level 4 processing splits the data into concentration series by sample and assay endpoint, then models the activity of each concentration series. Activity is modeled only in the positive direction. More information on readouts with both directions is available in the previous section. - -The first step in level 4 processing is to remove the well types with only one concentration. To establish the noise-band for the assay endpoint, the baseline median absolute deviation ($\mathit{bmad}$) is calculated as the median absolute deviation of the response values for test compounds where the concentration index equals 1 or 2. The calculation to define $\mathit{bmad}$ is done once across the entire assay endpoint. \textbf{If additional data is added to the database for an assay component, the $\mathit{bmad}$ values for all associated assay endpoints will change.} Note, this $\mathit{bmad}$ definition is different from the $\mathit{bmad}$ definition used for single-concentration screening. - -Before the model parameters are estimated, a set of summary values are calculated for each concentration series: the minimum and maximum response; minimum and maximum log concentration; the number of concentrations, points, and replicates; the maximum mean and median with the concentration at which they occur; and the number of medians greater than $3\mathit{bmad}$. When referring to the concentration series the ``mean'' and ``median'' values are defined as the mean or median of the response values at every concentration. In other words, the maximum median is the maximum of all median values across the concentration series. - -Concentration series must have at least four concentrations to enter the fitting algorithm. By default, concentration series must additionally have at least one median value greater than $3\mathit{bmad}$ to enter the fitting algorithm. The median value above $3\mathit{bmad}$ requirement can be ignored by setting $\mathit{fit\_all}$ to 1 in the assay endpoint annotation. - -All models draw from the Student's t-distribution with four degrees of freedom. The wider tails in the t-distribution diminish the influence of outlier values, and produce more robust estimates than do the more commonly used normal distribution. The robust fitting removes the need for any outlier elimination before fitting. The fitting algorithm utilizes maximum likelihood estimates parameters for three models as defined below in equations \ref{eq:z} through \ref{eq:gnlsc6}. - -Let $t(z,\nu)$ be the Student's t-distribution with $\nu$ degrees of freedom, $y_{i}$ be the observed response at the $i^{th}$ observation, and $\mu_{i}$ be the estimated response at the $i^{th}$ observation. We calculate $z_{i}$ as -\begin{equation} -\label{eq:z} -z_{i} = \frac{y_{i} - \mu_{i}}{\exp(\sigma)}\mathrm{,} -\end{equation} -where $\sigma$ is the scale term. Then the log-likelihood is -\begin{equation} -\label{eq:ll} -\sum_{i=1}^{n} [\ln\left(t(z_{i}, 4)\right) - \sigma]\mathrm{,} -\end{equation} -where $n$ is the number of observations. - -The first model fit in the fitting algorithm is a constant model at 0, abbreviated ``cnst.'' The constant model only has one parameter, the scale term. For the constant model $\mu_{i}$ is given by -\begin{equation} -\label{eq:cnst} -\mu_{i} = 0\mathrm{.} -\end{equation} - -The second model in the fitting algorithm is a constrained Hill model (hill), where the bottom asymptote is forced to 0. Including the scale parameter, the Hill model has four parameters. Let $\mathit{tp}$ be the top asymptote, $\mathit{ga}$ be the AC$_{50}$\footnote{The AC$_{50}$ is the activity concentration at 50\%, or the concentration where the modeled activity equals 50\% of the top asymptote.} in the gain direction, $\mathit{gw}$ be the Hill coefficient in the gain direction, and $x_{i}$ be the log concentration at the $i^{th}$ observation. Then $\mu_{i}$ for the Hill model is given by -\begin{equation} -\label{eq:hill} -\mu_{i} = \frac{tp}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}}\mathrm{,} -\end{equation} -with the constraints -\begin{equation} -\label{eq:hillc1} -0 \leq \mathit{tp} \leq 1.2\mathrm{max\;resp,} -\end{equation} -\begin{equation} -\label{eq:hillc2} -\mathrm{min\;logc} - 2 \leq \mathit{ga} \leq \mathrm{max\;logc} + 0.5\mathrm{,} -\end{equation} -and -\begin{equation} -\label{eq:hillc3} -0.3 \leq \mathit{gw} \leq 8\mathit{.} -\end{equation} - -The third model in the fitting algorithm is a constrained gain-loss model (gnls), defined as a product of two Hill models, with a shared top asymptote and both bottom asymptote values equal to 0. Including the scale term, the gain-loss model has six parameters. Let $\mathit{tp}$ be the shared top asymptote, $\mathit{ga}$ be the AC$_{50}$ in the gain direction, $\mathit{gw}$ be the Hill coefficient in the gain direction, $\mathit{la}$ be the AC$_{50}$ in the loss direction, $\mathit{lw}$ be the Hill coefficient in the loss direction, and $x_{i}$ be the log concentration at the $i^{th}$ observation. Then $\mu_{i}$ for the gain-loss model is given by -\begin{equation} -\label{eq:gnls} -\mu_{i} = \mathit{tp}\left(\frac{1}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}}\right)\left(\frac{1}{1 + 10^{(x_{i} - \mathit{la})\mathit{lw}}}\right)\mathrm{,} -\end{equation} -with the constraints -\begin{equation} -\label{eq:gnlsc1} -0 \leq \mathit{tp} \leq 1.2\mathrm{max\;resp,} -\end{equation} -\begin{equation} -\label{eq:gnlsc2} -\mathrm{min\;logc} - 2 \leq \mathit{ga} \leq \mathrm{max\;logc,} -\end{equation} -\begin{equation} -\label{eq:gnlsc3} -0.3 \leq \mathit{gw} \leq 8\mathrm{,} -\end{equation} -\begin{equation} -\label{eq:gnlsc4} -\mathrm{min\;logc} - 2 \leq \mathit{la} \leq \mathrm{max\;logc} + 2\mathrm{,} -\end{equation} -\begin{equation} -\label{eq:gnlsc5} -0.3 \leq \mathit{lw} \leq 18\mathrm{,} -\end{equation} -and -\begin{equation} -\label{eq:gnlsc6} -\mathit{la}-\mathit{ga} > 0.25\mathrm{.} -\end{equation} - -Level 4 does not utilize any assay endpoint-specific methods; the user only needs to run the \texttt{tcplRun} function. \textbf{Level 4 processing and all subsequent processing is done by assay endpoint, not assay component}. The previous section showed how to find the assay endpoints for an assay component using the \texttt{tcplLoadAeid} function. The example dataset includes two assay endpoints with aeid values of 1 and 2. -\hfill \newline -<<>>= -## Do level 4 processing for aeid 1 and load the data -mc4_res <- tcplRun(id = 1:2, slvl = 4, elvl = 4, type = "mc") -@ -\hfill \par -The level 4 data include 52 variables, including the ID fields. A complete list of level 4 fields is available in Appendix \ref{app:dbstruc}. The level 4 data include the fields $\mathit{cnst}$, $\mathit{hill}$, and $\mathit{gnls}$ indicating the convergence of the model where a value of 1 means the model converged and a value of 0 means the model did not converge. N/A values indicate the fitting algorithm did not attempt to fit the model. $\mathit{cnst}$ will be N/A when the concentration series had less than 4 concentrations; $\mathit{hill}$ and $\mathit{gnls}$ will be N/A when none of the medians were greater than or equal to $3\mathit{bmad}$. Similarly, the $\mathit{hcov}$ and $\mathit{gcov}$ fields indicate the success in inverting the Hessian matrix. Where the Hessian matrix did not invert, the parameter standard deviation estimates will be N/A. NaN values in the parameter standard deviation fields indicate the covariance matrix was not positive definite. In Figure \ref{fig:l4plt} the $\mathit{hill}$ field is used to find potentially active compounds to visualize with the \texttt{tcplPlotL4ID} function. -\hfill \newline -<<>>= -## Load the level 4 data -m4dat <- tcplLoadData(lvl = 4, type = "mc") -## List the first m4ids where the hill model convered -## for AEID 1 -m4dat[hill == 1 & aeid == 1, head(m4id)] -@ -\hfill \par -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h!] -<>= -## Plot a fit for m4id 21 -tcplPlotM4ID(m4id = 686, lvl = 4) -@ -\caption{An example level 4 plot for a single concentration series. The orange dashed line shows the constant model, the red dashed line shows the Hill model, and the blue dashed line shows the gain-loss model. The gray striped box shows the baseline region, $0 \pm 3\mathit{bmad}$. The summary panel shows assay endpoint and sample information, the parameter values (val) and standard deviations (sd) for the Hill and gain-loss models, and summary values for each model.} -\label{fig:l4plt} -\end{figure} -\par -The model summary values in Figure \ref{fig:l4plt} include Akaike Information Criterion (AIC), probability, and the root mean square error (RMSE). Let $\log(\Lagr(\hat{\theta}, y))$ be the log-likelihood of the model $\hat{\theta}$ given the observed values $y$, and $K$ be the number of parameters in $\hat{\theta}$, then, -\begin{equation} -\label{eq:aic} -\mathrm{AIC} = -2\log(\Lagr(\hat{\theta}, y)) + 2K\mathrm{.} -\end{equation} -The probability, $\omega_{i}$, is defined as the weight of evidence that model $i$ is the best model, given that one of the models must be the best model. Let $\Delta_{i}$ be the difference $\mathrm{AIC}_{i} - \mathrm{AIC}_{min}$ for the $i^{th}$ model. If $R$ is the set of models, then $\omega_{i}$ is given by -\begin{equation} -\label{eq:prob} -\omega_{i} = \frac{\exp\left(-\frac{1}{2}\Delta_{i}\right)}{\sum_{i=1}^{R} \exp\left(-\frac{1}{2}\Delta_{r}\right)}\mathrm{.} -\end{equation} -The RMSE is given by -\begin{equation} -\label{eq:rmse} -\mathrm{RMSE} = \sqrt{\frac{\sum_{i=1}^{N} (y_{i} - \mu_{i})^2}{N}}\mathrm{,} -\end{equation} -where $N$ is the number of observations, and $\mu_{i}$ and $y_{i}$ are the estimated and observed values at the $i^{th}$ observation, respectively. - -\subsection*{Level 5} -\label{subsec:mc5} -\addcontentsline{toc}{subsection}{Level 5} -Level 5 processing determines the winning model and activity for the concentration series, bins all of the concentration series into categories, and calculates additional point-of-departure estimates based on the activity cutoff. - -\textbf{The model with lowest AIC value is selected as the winning model ($\mathit{modl}$)}, and is used to determine the activity or hit-call for the concentration series. If two models have equal AIC values, the simpler model (the model with fewer parameters) wins the tie. All of the parameters for the winning model are stored at level 5 with the prefix ``modl\_'' to facilitate easier queries. For a concentration series to get an active hit-call, either the Hill or gain-loss must be selected as the winning model. In addition to selecting the Hill or gain-loss model, the modeled and observed response must meet an efficacy cutoff. - -The efficacy cutoff is defined by the level 5 methods. The efficacy cutoff value ($\mathit{coff}$) is defined as the maximum of all values given by the assigned level 5 methods. Failing to assign a level 5 method will result in every concentration series being called active. For a complete list of level 5 methods see \texttt{tcplMthdList(lvl = 5)} or \texttt{?MC5\_Methods}. -\hfill \newline -<<>>= -## Assign a cutoff value of bmad*6 -tcplMthdAssign(lvl = 5, - id = 1:2, - mthd_id = 6, - type = "mc") -@ -\hfill \par -For the example data the cutoff value is $6\mathit{bmad}$. If the Hill or gain-loss model wins, and the estimated top parameter for the winning model ($\mathit{modl\_tp}$) and the maximum median value ($\mathit{max\_med}$) are both greater than or equal to the efficacy cutoff ($\mathit{coff}$), the concentration series is considered active and the hit-call ($\mathit{hitc}$) is set to 1. - -The hit-call can be 1, 0, or -1. A hit-call of 1 or 0 indicates the concentration series is active or inactive, respectively, according to the analysis; a hit-call of -1 indicates the concentration series had less than four concentrations. - -For active concentration series, two additional point-of-departure estimates are calculated for the winning model: (1) the activity concentration at baseline (ACB or $\mathit{modl\_acb}$) and (2) the activity concentration at cutoff (ACC or $\mathit{modl\_acc}$). The ACB and ACC are defined as the concentration where the estimated model value equals $3\mathit{bmad}$ and the cutoff, respectively. The point-of-departure estimates are summarized in Figure \ref{fig:podplt}. - -\hfill \newline -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h] -<>= -par(family = "mono", mar = rep(1, 4), pty = "m") -plot.new() -plot.window(xlim = c(0, 30), ylim = c(-30, 100)) -# axis(side = 2, lwd = 2, col = "gray35") -rect(xleft = par()$usr[1], - xright = par()$usr[2], - ybottom = -15, - ytop = 15, - border = NA, - col = "gray45", - density = 15, - angle = 45) -abline(h = 26, lwd = 3, lty = "dashed", col = "gray30") -tmp <- list(modl = "gnls", gnls_ga = 12, gnls_tp = 80, - gnls_gw = 0.18, gnls_lw = 0.7, gnls_la = 25) -tcplAddModel(pars = tmp, lwd = 3, col = "dodgerblue2") - -abline(v = 8.46, lwd = 3, lty = "solid", col = "firebrick") -text(x = 8.46, y = par()$usr[4]*0.9, - font = 2, labels = "ACB", cex = 2, pos = 2, srt = 90) -abline(v = 10.24, lwd = 3, lty = "solid", col = "yellow2") -text(x = 10.24, y = par()$usr[4]*0.9, - font = 2, labels = "ACC", cex = 2, pos = 2, srt = 90) -abline(v = 12, lwd = 3, lty = "solid", col = "dodgerblue2") -text(x = 12, y = par()$usr[4]*0.9, - font = 2, labels = "AC50", cex = 2, pos = 2, srt = 90) - -points(x = c(8.46, 10.24, 12), y = c(15, 26, 40), - pch = 21, cex = 2, col = "gray30", lwd = 2, - bg = c("firebrick", "yellow2", "dodgerblue2")) -@ -\caption{The point-of-departure estimates calculated by the \texttt{tcpl} package. The shaded rectangle represents the baseline region, $0 \pm 3\mathit{bmad}$. The dark stripped line represents the efficacy cutoff ($\mathit{coff}$). The vertical lines show where the point-of-departure estimates are defined: the red line shows the ACB, the yellow line shows the ACC, and the blue line shows the AC$_{50}$.} -\label{fig:podplt} -\end{figure} -\par - -All concentration series fall into a single fit category ($\mathit{fitc}$), defined by the leaves on the tree structure in Figure \ref{fig:fitc1}. Concentration series in the same category will have similar characteristics, and often look very similar. Categorizing all of the series enables faster quality control checking and easier identification of potential false results. The first split differentiates series by hit-call. Series with a hit-call of -1 go into fit category 2. The following two paragraphs will outline the logic for the active and inactive branches. -\setkeys{Gin}{width=1.2\textwidth} -\begin{sidewaysfigure}[!p] -\centering -<>= -tcplPlotFitc() -@ -\caption{The categories used to bin each fit. Each fit falls into one leaf of the tree. The leaves are indicated by bold green font. (Figure created by calling \texttt{tcplPlotFitc()}.)} -\label{fig:fitc1} -\end{sidewaysfigure} - -The first split in the active branch differentiates series by the model winner, Hill or gain-loss. For each model, the next split is defined by the efficacy of it's top parameter in relation to the cutoff. The top value is either less than $1.2\mathit{coff}$ or greater than or equal to $1.2\mathit{coff}$. Finally, series on the active branch go into leaves based on the position of the AC$_{50}$ parameter in relation to the tested concentration range. For comparison purposes, the activity concentration at 95\% (AC95) is calculated, but not stored.\footnote{The \texttt{tcplHill-} functions can be used to calculate values, concentrations, and activity concentrations for the Hill model.} Series with AC$_{50}$ values less than the minimum concentration tested ($\mathit{logc\_min}$) go into the ``$<=$'' leaves, series with AC$_{50}$ values greater than the minimum tested concentration and AC95 values less than maximum tested concentration ($\mathit{logc\_max}$) go into the ``$==$'' leaves, and series with AC95 values greater than the maximum concentration tested go into the ``$>=$'' leaves. - -The inactive branch is first divided by whether any median values were greater than or equal to $3\mathit{bmad}$. Series with no evidence of activity go into fit category 4. Similar to the active branch, series with evidence for activity are separated by the model winner. The Hill and gain-loss portions of the inactive branch follow the same logic. First, series diverge by the efficacy of their top parameter in relation to the cutoff: $\mathit{modl\_tp < 0.8\mathit{coff}}$ or $\mathit{modl\_tp \geq 0.8\mathit{coff}}$. Then the same comparison is made on the top values of the losing model. If the losing model did not converge, then the series go into the ``DNC'' category. If the losing model top value is greater than or equal to $0.8\mathit{coff}$, then the series are split based on whether the losing model top surpassed the cutoff. On the constant model branch, if neither top parameter is greater than or equal to $0.8\mathit{bmad}$, then the series goes into fit category 7. If one of the top parameters is greater than or equal to $0.8\mathit{coff}$, the series goes into fit category 9 or 10 based on whether one of the top values surpassed the cutoff. - -With the level 5 methods assigned, the data are ready for level 5 processing: -\hfill \newline -<<>>= -## Do level 5 processing for aeid 1 and load the data -mc5_res <- tcplRun(id = 1:2, slvl = 5, elvl = 5, type = "mc") -@ -\hfill \par -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h] -<>= -tcplPlotM4ID(m4id = 370, lvl = 5) -@ -\caption{An example level 5 plot for a single concentration series. The solid line and model highlighting indicate the model winner. The horizontal line shows the cutoff value. In addition to the information from the level 4 plots, the summary panel includes the cutoff ($\mathit{coff}$), hit-call ($\mathit{hitc}$), fit category ($\mathit{fitc}$) and activity probability ($\mathit{actp}$) values.} -\label{fig:l5plt1} -\end{figure} -\par -Figure \ref{fig:l5plt1} shows an example of a concentration series in fit category 37, indicating the series is active and the Hill model won with a top value less than or equal to $1.2\mathit{coff}$, and an AC$_{50}$ value within the tested concentration range. The \texttt{tcplPlotFitc} function shows the distribution of concentration series across the fit category tree (Figure \ref{fig:fitc2}). -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h] -<>= -m5dat <- tcplLoadData(lvl = 5, type = "mc") -tcplPlotFitc(fitc = m5dat$fitc) -@ -\caption{The distribution of concentration series by fit category for the example data. Both the size and color of the circles indicate the number of concentration series. The legend gives the range for number of concentration series by color.} -\label{fig:fitc2} -\end{figure} -\hfill \par -The distribution in Figure \ref{fig:fitc2} shows 24-40 concentration series fell into fit category 21. Following the logic discussed previously, fit category 21 indicates an inactive series where the Hill model was selected, the top asymptote for the Hill model was greater than $0.8\mathit{coff}$, and the gain-loss top asymptote was greater than or equal to the cutoff. The series in fit category 21 can be found easily in the level 5 data. -\hfill \newline -<<>>= -head(m5dat[fitc == 21, - list(m4id, hill_tp, gnls_tp, - max_med, coff, hitc)]) -@ -\hfill \par -The plot in Figure \ref{fig:l5plt2} shows a concentration series in fit category 21. In the example given by Figure \ref{fig:l5plt2}, the $\mathit{hill\_tp}$ and $\mathit{gnls\_tp}$ parameters are equal and greater than $\mathit{coff}$; however, the maximum median value ($\mathit{max\_med}$) is not greater than the cutoff making the series inactive. -\hfill \par -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h] -<>= -tcplPlotM4ID(m4id = 45, lvl = 5) -@ -\caption{Level 5 plot for m4id 45 showing an example series in fit category 21.} -\label{fig:l5plt2} -\end{figure} - -\subsection*{Level 6} -\label{subsec:mc6} -\addcontentsline{toc}{subsection}{Level 6} -Level 6 processing uses various methods to identify concentration series with etiologies that may suggest false positive/false negative results or explain apparent anomalies in the data. Each flag has is defined by a level 6 method that has to be assigned to each assay endpoint. Similar to level 5, an assay endpoint does not need any level 6 methods assigned to complete processing. -\hfill \newline -<<>>= -tcplMthdAssign(lvl = 6, - id = 1:2, - mthd_id = c(6:8, 10:12, 15:16), - type = "mc") -tcplMthdLoad(lvl = 6, id = 1, type = "mc") -@ -\hfill \par -The example above assigns the most common flags. Some of the available flags only apply to specific experimental designs and do not apply to all data. For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 6)} or \texttt{?MC6\_Methods}. - -The additional $\mathit{nddr}$ field in the ``mc6\_methods'' (and the output from \texttt{tcplMthdLoad()}/\texttt{tcplMthdList()} for level 6) indicates whether the method requires additional data. Methods with an $\mathit{nddr}$ value of 0 only require the modeled/summary information from levels 4 and 5. Methods with an $\mathit{nddr}$ value of 1 also require the individual response and concentration values from level 3. Methods requiring data from level 3 can greatly increase the processing time. -\hfill \newline -<<>>= -## Do level 6 processing -mc6_res <- tcplRun(id = 1:2, slvl = 6, elvl = 6, type = "mc") -m6dat <- tcplLoadData(lvl = 6, type = "mc") -@ -\hfill \par -For the two assay endpoints, \Sexpr{nrow(m6dat)} out of the \Sexpr{nrow(m5dat)} concentration series were flagged in the level 6 processing. Series not flagged in the level 6 processing do not get stored at level 6. Each series-flag combination is a separate entry in the level 6 data. Or, in other words, if a series has multiple flags it will show up on multiple rows in the output. For example, consider the following results: -\hfill \newline -<<>>= -m6dat[m4id == 46] -@ -\hfill \par -The data above lists two flags: ``Multiple points above baseline, inactive'' and ``Borderline inactive.'' Without knowing much about the flags one might assume this concentration series had some evidence of activity but was not called a hit, and could potentially be a false negative. In cases of borderline results, plotting the curve is often helpful. - -\hfill \par -\setkeys{Gin}{width=1\textwidth} -\begin{figure}[h!] -<>= -tcplPlotM4ID(m4id = 46, lvl = 6) -@ -\caption{An example level 6 plot for a single concentration series. All level 6 method ID ($\mathit{l6\_mthd\_id}$) values are concatenated in the flags section. If flags have an associated value ($\mathit{fval}$), the value will be shown in parentheses to the right of the level 6 method ID.} -\label{fig:l6plt} -\end{figure} -The evidence of true activity shown in Figure \ref{fig:l6plt} could be argued either way. Level 6 processing does not attempt to define truth in the matter of borderline compounds or data anomalies, but rather attempts to identify concentration series for closer consideration. - -\appendix -\clearpage -\section{Field Explanation/Database Structure} -\markboth{Field Explanation/Database Structure}{} -\thispagestyle{plain} -\label{app:dbstruc} - -This appendix contains reference tables that describe the structure and table fields found in the \texttt{tcpl} database. The first sections of this appendix describe the data-containing tables, followed by a section describing the additional annotation tables. - -In general, the single-concentration data and accompanying methods are found in the ``sc\#'' tables, where the number indications the processing level. Likewise, the multiple-concentration data and accompanying methods are found in the ``mc\#'' tables. Each processing level that has accompanying methods will also have a tables with the ``\_methods'' and ``\_id'' naming scheme. For example, the database contains the following tables: ``mc5'' storing the data from multiple-concentration level 5 processing, ``mc5\_methods'' storing the available level 5 methods, and ``mc5\_aeid'' storing the method assignments for level 5. Note, the table storing the method assignments for level 2 multiple-concentration processing is called ``mc2\_acid'' because MC2 methods are assigned by assay component ID. - -There are two additional tables, ``sc2\_agg'' and ``mc4\_agg,'' that link the data in tables ``sc2'' and ``mc4'' to the data in tables ``sc1'' and ``mc3,'' respectively. This is necessary because each entry in the database before SC2 and MC4 processing represents a single value; subsequent entries represent summary/modeled values that encompass many values. To know what values were used in calculating the summary/modeled values, the user must use the ``\_agg'' look-up tables. - -Each of the methods tables have fields analogous to $\mathit{mc5\_mthd\_id}$, $\mathit{mc5\_mthd}$, and $\mathit{desc}$. These fields represent the unique key for the method, the abbreviated method name (used to call the method from the corresponding \texttt{mc5\_mthds} function), and a brief description of the method, respectively. The ``mc6\_methods'' table may also includes $\mathit{nddr}$ field. More information about $\mathit{nddr}$ is available in the discussion of multiple-concentration level 6 processing (page \pageref{subsec:mc6}). - -The method assignment tables will have fields analogous to $\mathit{mc5\_mthd\_id}$ matching the method ID from the methods tables, an assay component or assay endpoint ID, and possibly an $\mathit{exec\_ordr}$ field indicating the order in which to execute the methods. - -The method and method assignment tables will not be listed in the tables below to reduce redundancy. - -Many of the tables also include the $\mathit{created\_date}$, $\mathit{modified\_date}$, and $\mathit{modified\_by}$ fields that store information helpful for tracking changes to the data. These fields will not be discussed further or included in the tables below. - -Many of the tables specific to the assay annotation are not utilized by the \texttt{tcpl} package. The full complexity of the assay annotation used by the ToxCast program is beyond the scope of this vignette and the \texttt{tcpl} package. More information about the ToxCast assay annotation can be found at: \url{}. - -\clearpage - -\subsection*{Single-concentration data-containing tables} -\label{subsec:sctabs} -\addcontentsline{toc}{subsection}{Single-concentration tables} - -\begin{table}[H] - \centering - \caption{Fields in sc0 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - s0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - spid & Sample ID \\ \hline - cpid & Chemical plate ID \\ \hline - apid & Assay plate ID \\ \hline - rowi & Assay plate row index \\ \hline - coli & Assay plate column index \\ \hline - wllt & Well type$^\dagger$\\ \hline - wllq & 1 if the well quality was good, else 0$^\ddagger$\\ \hline - conc & Concentration in micromolar \\ \hline - rval & Raw assay component value/readout from vendor \\ \hline - srcf & Filename of the source file containing the data \\ \hline - \multicolumn{2}{l}{\footnotesize{$^\dagger$Information about the different well types is available in Appendix \ref{app:l0}.}} \\[-8pt] - \end{tabular}} -\label{tab:sc0} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in sc1 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - s1id & Level 1 ID \\ \hline - s0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - aeid & Assay component endpoint ID \\ \hline - logc & Log base 10 concentration \\ \hline - bval & Baseline value \\ \hline - pval & Positive control value \\ \hline - resp & Normalized response value \\ \hline - \end{tabular}} -\label{tab:sc1} - -\end{table}\begin{table}[H] - \centering - \caption{Fields in sc2\_agg table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - aeid & Assay component endpoint ID \\ \hline - s0id & Level 0 ID \\ \hline - s1id & Level 1 ID \\ \hline - s2id & Level 2 ID \\ \hline - \end{tabular}} -\label{tab:sc2agg} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in sc2 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - s2id & Level 2 ID \\ \hline - aeid & Assay component endpoint ID \\ \hline - spid & Sample ID \\ \hline - bmad & Baseline median absolute deviation \\ \hline - max\_med & Maximum median response value \\ \hline - hitc & Hit-/activity-call, 1 if active, 0 if inactive\\ \hline - coff & Efficacy cutoff value \\ \hline - tmpi & Ignore, temporary index used for uploading purposes\\ \hline - \end{tabular}} -\label{tab:sc2} -\end{table} - -\clearpage - -\subsection*{Multiple-concentration data-containing tables} -\label{subsec:mctabs} -\addcontentsline{toc}{subsection}{Multiple-concentration tables} - -The ``mc0'' table, other than containing $\mathit{m0id}$ rather than $\mathit{s0id}$, is identical to the ``sc0'' described in the section above. - -\begin{table}[H] - \centering - \caption{Fields in mc1 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m1id & Level 1 ID \\ \hline - m0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - cndx & Concentration index \\ \hline - repi & Replicate index \\ \hline - \end{tabular}} -\label{tab:mc1} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc2 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m2id & Level 2 ID \\ \hline - m0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - m1id & Level 1 ID \\ \hline - cval & Corrected value \\ \hline - \end{tabular}} -\label{tab:mc2} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc3 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m3id & Level 3 ID \\ \hline - aeid & Assay endpoint ID \\ \hline - m0id & Level 0 ID \\ \hline - acid & Assay component ID \\ \hline - m1id & Level 1 ID \\ \hline - m2id & Level 2 ID \\ \hline - bval & Baseline value \\ \hline - pval & Positive control value \\ \hline - logc & Log base 10 concentration \\ \hline - resp & Normalized response value \\ \hline - \end{tabular}} -\label{tab:mc3} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc4\_agg table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - aeid & Assay endpoint ID \\ \hline - m0id & Level 0 ID \\ \hline - m1id & Level 1 ID \\ \hline - m2id & Level 2 ID \\ \hline - m3id & Level 3 ID \\ \hline - m4id & Level 4 ID \\ \hline - \end{tabular}} -\label{tab:mc4agg} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc4 table (Part 1).} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m4id & Level 4 ID \\ \hline - aeid & Assay endpoint ID \\ \hline - spid & Sample ID \\ \hline - bmad & Baseline median absolute deviation \\ \hline - resp\_max & Maximum response value \\ \hline - resp\_min & Minimum response value \\ \hline - max\_mean & Maximum mean response value \\ \hline - max\_mean\_conc & Log concentration at $\mathit{max\_mean}$ \\ \hline - max\_med & Maximum median response value \\ \hline - max\_med\_conc & Log concentration at $\mathit{max\_med}$ \\ \hline - logc\_max & Maximum log concentration tested \\ \hline - logc\_min & Minimum log concentration tested \\ \hline - cnst & 1 if the constant model converged, 0 if it failed to converge, N/A if series had less than four concentrations\\ \hline - hill & 1 if the Hill model converged, 0 if it failed to converge, N/A if series had less than four concentrations or if $\mathit{max\_med} < 3\mathit{bmad}$ \\ \hline - hcov & 1 if the Hill model Hessian matrix could be inverted, else 0 \\ \hline - gnls & 1 if the gain-loss model converged, 0 if it failed to converge, N/A if series had less than four concentrations or if $\mathit{max\_med} < 3\mathit{bmad}$ \\ \hline - gcov & 1 if the gain-loss model Hessian matrix could be inverted, else 0\\ \hline - cnst\_er & Scale term for the constant model \\ \hline - cnst\_aic & AIC for the constant model \\ \hline - cnst\_rmse & RMSE for the constant model \\ \hline - cnst\_prob & Probability the constant model is the true model \\ \hline - hill\_tp & Top asymptote for the Hill model \\ \hline - hill\_tp\_sd & Standard deviation for $\mathit{hill\_tp}$ \\ \hline - hill\_ga & AC$_{50}$ for the Hill model \\ \hline - hill\_ga\_sd & Standard deviation for $\mathit{hill\_ga}$ \\ \hline - \end{tabular}} -\label{tab:mc4p1} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc4 table (Part 2).} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - hill\_gw & Hill coefficient \\ \hline - hill\_gw\_sd & Standard deviation for $\mathit{hill\_gw}$ \\ \hline - hill\_er & Scale term for the Hill model \\ \hline - hill\_er\_sd & Standard deviation for $\mathit{hill\_er}$ \\ \hline - hill\_aic & AIC for the Hill model \\ \hline - hill\_rmse & RMSE for the Hill model \\ \hline - hill\_prob & Probability the Hill model is the true model \\ \hline - gnls\_tp & Top asymptote for the gain-loss model \\ \hline - gnls\_tp\_sd & Standard deviation for $\mathit{gnls\_tp}$ \\ \hline - gnls\_ga & AC$_{50}$ in the gain direction for the gain-loss model \\ \hline - gnls\_ga\_sd & Standard deviation for $\mathit{gnls\_ga}$ \\ \hline - gnls\_gw & Hill coefficient in the gain direction \\ \hline - gnls\_gw\_sd & Standard deviation for $\mathit{gnls\_gw}$ \\ \hline - gnls\_la & AC$_{50}$ in the loss direction for the gain-loss model \\ \hline - gnls\_la\_sd & Standard deviation for $\mathit{gnls\_la}$ \\ \hline - gnls\_lw & Hill coefficient in the loss direction \\ \hline - gnls\_lw\_sd & Standard deviation for $\mathit{gnls\_lw}$ \\ \hline - gnls\_er & Scale term for the gain-loss model \\ \hline - gnls\_er\_sd & Standard deviation for $\mathit{gnls\_er}$ \\ \hline - gnls\_aic & AIC for the gain-loss model \\ \hline - gnls\_rmse & RMSE for the gain-loss model \\ \hline - gnls\_prob & Probability the gain-loss model is the true model \\ \hline - nconc & Number of concentrations tested \\ \hline - npts & Number of points in the concentration series \\ \hline - nrep & Number of replicates in the concentration series \\ \hline - nmed\_gtbl & Number of median values greater than $3\mathit{bmad}$ \\ \hline - tmpi & Ignore, temporary index used for uploading purposes\\ \hline - \end{tabular}} -\label{tab:mc4p2} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc5 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m5id & Level 5 ID \\ \hline - m4id & Level 4 ID \\ \hline - aeid & Assay endpoint ID \\ \hline - modl & Winning model: ``cnst'', ``hill'', or ``gnls'' \\ \hline - hitc & Hit-/activity-call, 1 if active, 0 if inactive, -1 if cannot determine\\ \hline - fitc & Fit category \\ \hline - coff & Efficacy cutoff value \\ \hline - actp & Activity probability ($1 - \mathit{cnst\_prob}$)\\ \hline - modl\_er & Scale term for the winning model \\ \hline - modl\_tp & Top asymptote for the winning model \\ \hline - modl\_ga & Gain AC$_{50}$ for the winning model \\ \hline - modl\_gw & Gain Hill coefficient for the winning model \\ \hline - modl\_la & Loss AC$_{50}$ for the winning model \\ \hline - modl\_lw & Loss Hill coefficient for the winning model \\ \hline - modl\_prob & Probability for the winning model \\ \hline - modl\_rmse & RMSE for the winning model \\ \hline - modl\_acc & Activity concentration at cutoff for the winning model \\ \hline - modl\_acb & Activity concentration at baseline for the winning model \\ \hline - modl\_ac10 & AC10 for the winning model \\ \hline - \end{tabular}} -\label{tab:mc5} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc6 table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - m6id & Level 6 ID \\ \hline - m5id & Level 5 ID \\ \hline - m4id & Level 4 ID \\ \hline - aeid & Assay endpoint ID \\ \hline - m6\_mthd\_id & Level 6 method ID \\ \hline - flag & Text text output for the level 6 method \\ \hline - fval & Value from the flag method, if applicable \\ \hline - fval\_unit & Units for $\mathit{fval}$, if applicable \\ \hline - \end{tabular}} -\label{tab:mc6} -\end{table} - -\clearpage - -\subsection*{Auxiliary annotation tables} -\label{subsec:auxtabs} -\addcontentsline{toc}{subsection}{Auxiliary annotation tables} - -As mentioned in the introduction to this appendix, a full description of the assay annotation is beyond the scope of this vignette. The fields pertinent to the \texttt{tcpl} package are listed in the tables below. - -\begin{table}[H] - \centering - \caption{List of annotation tables.} - \noindent\makebox[\textwidth]{% - \begin{tabular}{l p{10cm}} - Table Name & Description \\ \hline - assay & Assay-level annotation \\ \hline - assay\_component & Assay component-level annotation \\ \hline - assay\_component\_endpoint & Assay endpoint-level annotation \\ \hline - assay\_component\_map & Assay component source names and their corresponding assay component ids \\ \hline - assay\_reagent* & Assay reagent information \\ \hline - assay\_reference* & Map of citations to assay \\ \hline - assay\_source & Assay source-level annotation \\ \hline - chemical & List of chemicals and associated identifiers \\ \hline - chemical\_library & Map of chemicals to different chemical libraries \\ \hline - citations* & List of citations \\ \hline - gene & Gene* identifiers and descriptions \\ \hline - intended\_target* & Intended assay target at the assay endpoint level \\ \hline - mc5\_fit\_categories & The level 5 fit categories \\ \hline - organism* & Organism identifiers and descriptions \\ \hline - sample & Sample ID information and chemical ID mapping \\ \hline - technological\_target* & Technological assay target at the assay component level \\ \hline - \multicolumn{2}{p{15cm}}{\footnotesize{* indicates tables not currently used by the \texttt{tcpl} package}} - \end{tabular}} - \label{tab:datatbllist} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - aid & Assay ID \\ \hline - asid & Assay source ID \\ \hline - assay\_name & Assay name (abbreviated ``anm'' within the package) \\ \hline - assay\_desc & Assay description \\ \hline - timepoint\_hr & Treatment duration in hours \\ \hline - assay\_footprint & Microtiter plate size$^\dagger$ \\ \hline - \multicolumn{2}{p{12cm}}{\footnotesize{$^\dagger$ discussed further in the ``Register and Upload New Data'' section (page \pageref{sec:newdata})}} - \end{tabular}} -\label{tab:assay} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay\_component.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - acid & Assay component ID \\ \hline - aid & Assay ID \\ \hline - assay\_component\_name & Assay component name (abbreviated ``acnm'' within the package) \\ \hline - assay\_component\_desc & Assay component description \\ \hline - \end{tabular}} -\label{tab:assaycomp} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay\_source.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - asid & Assay source ID \\ \hline - assay\_source\_name & Assay source name (typically an abbreviation of the assay\_source\_long\_name, abbreviated ``asnm'' within the package) \\ \hline - assay\_source\_long\_name & The full assay source name \\ \hline - assay\_source\_description & Assay source description \\ \hline - \end{tabular}} -\label{tab:assaysource} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay\_component\_endpoint.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - aeid & Assay component endpoint ID \\ \hline - acid & Assay component ID \\ \hline - assay\_component\_endpoint\_name & Assay component endpoint name (abbreviated ``aenm'' within the package) \\ \hline - assay\_component\_endpoint\_desc & Assay component endpoint description \\ \hline - export\_ready & 0 or 1, used to flag data as ``done'' \\ \hline - normalized\_data\_type & The units of the normalized data$^\dagger$ \\ \hline - burst\_assay & 0 or 1, 1 indicates the assay results should be used in calculating the burst z-score \\ \hline - fit\_all & 0 or 1, 1 indicates all results should be fit, regardless of whether the $\mathit{max\_med}$ surpasses $3\mathit{bmad}$ \\ \hline - \multicolumn{2}{p{12cm}}{\footnotesize{$^\dagger$ discussed further in the ``Register and Upload New Data'' section (page \pageref{sec:newdata})}} - \end{tabular}} -\label{tab:assaycompend} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in assay\_component\_map table.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - acid & Assay component ID \\ \hline - acsn & Assay component source name \\ \hline - \end{tabular}} -\label{tab:assaycompmap} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in chemical.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - chid & Chemical ID$^\dagger$ \\ \hline - casn & CAS Registry Number \\ \hline - chnm & Chemical name \\ \hline - \multicolumn{2}{p{10cm}}{\footnotesize{$^\dagger$ this is the DSSTox GSID within the ToxCast data, but can be any integer and will be auto-generated (if not explicitly defined) for newly registered chemicals}} - \end{tabular}} -\label{tab:chemical} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in chemical\_library.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - chid & Chemical ID \\ \hline - clib & Chemical library \\ \hline - \end{tabular}} -\label{tab:chemlib} -\end{table} - -\begin{table}[H] - \centering - \caption{Fields in mc5\_fit\_categories table.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - fitc & Fit category \\ \hline - parent\_fitc & Parent fit category \\ \hline - name & Fit category name \\ \hline - xloc & x-axis location for plotting purposes \\ \hline - yloc & y-axis location for plotting purposes \\ \hline - \end{tabular}} -\label{tab:l5fitcategories} -\end{table} - -\begin{table}[H] -\centering -\caption{Fields in sample.} -\noindent\makebox[\textwidth]{ - \begin{tabular}{l p{10cm}} - Field & Description \\ \hline - spid & Sample ID \\ \hline - chid & Chemical ID \\ \hline - stkc & Stock concentration \\ \hline - stkc\_unit & Stock concentration unit \\ \hline - tested\_conc\_unit & The concentration unit for the concentration values in the data-containing tables \\ \hline - spid\_legacy & A place-holder for previous sample ID strings - \end{tabular}} -\label{tab:sample} -\end{table} - -The stock concentration fields in the ``sample'' table allow the user to track the original concentration when the neat sample is solubilized in vehicle before any serial dilutions for testing purposes. - -\clearpage -\section{Level 0 Pre-processing} -\label{app:l0} -\markboth{Level 0 Pre-processing}{} -\thispagestyle{plain} -Level 0 pre-processing can be done on virtually any high-throughput/high-content screening application. In the ToxCast program, level 0 processing is done in R by vendor/dataset-specific scripts. The individual R scripts act as the ``laboratory notebook'' for the data, with all pre-processing decisions clearly commented and explained. - -Level 0 pre-processing has to reformat the raw data into the standard format for the pipeline, and also can make manual changes to the data. All manual changes to the data should be very well documented with justification. Common examples of manual changes include fixing a sample ID typo, or changing well quality value(s) to 0 after finding obvious problems like a plate row/column missing an assay reagent. - -Each row in the level 0 pre-processing data represents one well-assay component combination, containing 11 fields (Table \ref{tab:preproc}). The only field in level 0 pre-processing not stored at level 0 is the assay component source name ($\mathit{acsn}$). The assay component source name should be some concatenation of data from the assay source file that identifies the unique assay components. When the data are loaded into the database, the assay component source name is mapped to assay component ID through the assay\_component\_map table in the \texttt{tcpl} database. Assay components can have multiple assay component source names, but each assay component source name can only map to a single assay component. - -\begin{table}[h!] - \centering - \caption{Required fields in level 0 pre-processing.} - \noindent\makebox[\textwidth]{ - \begin{tabular}{l p{8cm} c} - Field & Description & N/A \\ \hline - acsn & Assay component source name & No \\ \hline - spid & Sample ID & No \\ \hline - cpid & Chemical plate ID & Yes \\ \hline - apid & Assay plate ID & Yes \\ \hline - rowi & Assay plate row index, as an integer & Yes \\ \hline - coli & Assay plate column index, as an integer & Yes \\ \hline - wllt & Well type & No \\ \hline - wllq & 1 if the well quality was good, else 0 & No \\ \hline - conc & Concentration in micromolar & No$^\dagger$ \\ \hline - rval & Raw assay component value/readout from vendor & Yes$^\ddagger$ \\ \hline - srcf & Filename of the source file containing the data & No \\ \hline - \multicolumn{3}{l}{\footnotesize{The N/A column indicates whether the field can be N/A in the pre-processed data.}} \\[-8pt] - \multicolumn{3}{p{10cm}}{\footnotesize{$^\dagger$Concentration can be N/A for control values only tested at a single concentration. Concentration cannot be N/A for any test compound (well type of ``t'') data.}} \\[-8pt] - \multicolumn{3}{p{10cm}}{\footnotesize{$^\ddagger$If the raw value is N/A, well type has to be 0.}} - \end{tabular}} -\label{tab:preproc} -\end{table} - -The well type field is used in the processing to differentiate controls from test compounds in numerous applications, including normalization and definition of the assay noise level. Currently, the \texttt{tcpl} package includes the eight well types in Table \ref{tab:wllt}. Package users are encouraged to suggest new well types and methods to better accommodate their data. - - \begin{table}[h!] - \centering - \caption{Well types} - \noindent\makebox[\textwidth]{ - \begin{tabular}{c p{10cm}} - Well Type & Description \\ \hline - t & Test compound \\ \hline - c & Gain-of-signal control in multiple concentrations \\ \hline - p & Gain-of-signal control in single concentration \\ \hline - n & Neutral/negative control \\ \hline - m & Loss-of-signal control in multiple concentrations \\ \hline - o & Loss-of-signal control in single concentration \\ \hline - b & Blank well \\ \hline - v & Viability control \\ \hline - \end{tabular}} -\label{tab:wllt} -\end{table} - -The final step in level 0 pre-processing is loading the data into the \texttt{tcpl} database. The \texttt{tcpl} package includes the \texttt{tcplWriteLvl0} function to load data into the database. The \texttt{tcplWriteLvl0} function maps the assay component source name to the appropriate assay component ID, checks each field for the correct class, and checks the database for the sample IDs with well type ``t.'' Each test compound sample ID must be included in the \texttt{tcpl} database before loading data. The \texttt{tcplWriteLvl0} also checks each test compound for concentration values. - -\clearpage -\section{Cytotoxicity Distribution} -\label{app:cyto} -\markboth{Cytotoxicity Distribution}{} -\thispagestyle{plain} -Recognizing the susbtantial impact of cytotoxicity in confounding high-throughput and high-content screening results, the \texttt{tcpl} package includes methodology for defining chemical-specific cytotoxicity estimates. Our observations based on ToxCast data suggest a complex, and not-yet fully understood, cellular biology that includes non-specific activation of many targets as cells approach death. For example, a chemical may induce activity in an estrogen-related assay, but if that chemical also causes activity in hundreds of other assays at or around the same concentration as cytotoxicity, should the chemical be called an estrogen agonist? The \texttt{tcplCytoPt} function provides an estimate of chemical-specific cytotoxicity points to provide some context to the ``burst'' phenomenon. - -The cytotoxicity point is simply the median AC$_{50}$ for a set of assay endpoints, either given by the user or defined within the \texttt{tcpl} database. By default, the \texttt{tcplCytoPt} function uses the assay endpoints listed in the $\mathit{burst\_assay}$ field of the ``assay\_component\_endpoint'' table, where 1 indicates to include the assay endpoint in the calculation. The ``burst'' assay endpoints can be indentified by running \texttt{tcplLoadAeid(fld = "burst\_assay", val = 1)}. - -In addition to the cytotoxicity point, \texttt{tcplCytoPt} provides two additional estimates: (1) the MAD of the AC$_{50}$ ($\mathit{modl\_ga}$) values used to calculate the cytotoxicity point, and (2) the global MAD. Note, only active assay endpoints (where the hit-call, $\mathit{hitc}$, equals $1$) are included in the calculations. Once the burst distribution (cytotoxicity point and MAD) is defined for each chemical, the global burst MAD is defined as the median of the MAD values. Not every chemcial may be tested in every ``burst'' assay, so the user can determine the minimum number of tested assays as a condition for the MAD value for a particular chemical to be included in the global MAD calculation. By default, if ``aeid'' is the vector of assay endpoints used in the calculation, \texttt{tcplCytoPt} requires the chemical to tested in at least \texttt{floor(0.8 * length(aeid))} assay endpoints to be included in the calculation. The user can specify to include all calculated MAD values (note, there must be at least two active assay endpoints to calculate the MAD) by setting `min.test' to \texttt{FALSE}. The `min.test' parameter also accepts a number, allowing the user to explicitly set the requirement. - -The global MAD gives an estimate of overall cytotoxicity window, and allows for a cytotoxicity distrubtion to be determined for chemicals with less than two active ``burst'' assay endpoints. The cytotoxicity point for chemicals with less two active ``burst'' endpoints is set to the value given to the `default.pt' parameter. By default the \texttt{tcplCytoPt} assigns `default.pt' to 3.\footnote{$10^3 = 1000$, therefore, when using micromolar units, $3$ is equivalent to $1$ millimolar. $1$ millimolar was chosen as an arbitrary high concentration (outside the testing range for ToxCast data), based on the principle all compounds are toxic if given in high enough concentration.} - - -\clearpage -\section{Build Variable Matrices} -\label{app:mats} -\markboth{Build Variable Matrices}{} -\thispagestyle{plain} -The \texttt{tcplVarMat} function creates chemical-by-assay matrices for the level 4 and level 5 data. When multiple sample-assay series exist for one chemical, a single series is selected by the \texttt{tcplSubsetChid} function. See \texttt{?tcplSubsetChid} for more information. - -\begin{enumerate} - \item ``modl\_ga'' -- The $\log_{10}\mathit{AC_{50}}$ (in the gain direction) for the winning model. - \item ``hitc'' -- The hit-call for the winning model. - \item ``m4id'' -- The m4id, listing the concentration series selected by \texttt{tcplSubsetChid}. - \item ``zscore'' -- The z-score (described below). - \item ``tested'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in either the single- or multiple-concentration format. - \item ``tested\_sc'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in the single-concentration format - \item ``tested\_mc'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in the multiple-concentration format - \item ``ac50'' -- a modified AC$_{50}$ table (in non-log units) where assay/chemical pairs that were not tested, or tested and had a hitcall of $0$ or $-1$ have the value $1e6$. - \item ``neglogac50'' -- $-\log_{10}\frac{\mathit{AC_{50}}}{1e6}$ where assay/chemical pairs that were not tested, or tested and had a hitcall of $0$ or $-1$ have the value $0$. -\end{enumerate} - -The z-score calculation is based on the output from \texttt{tcplCytoPt} (Appendix \ref{app:cyto}), and is calculated for each AC$_{50}$ value as follows: -\begin{equation} -\label{eq:zscore} -\mathit{z\-score} = -\frac{\mathit{modl\_ga} - \mathit{cyto\_pt}}{\mathit{global\_mad}}\mathrm{,} -\end{equation} -Note: the burst z-score values are multiplied by -1 to make values that are more potent relative to the burst distribution a higher positive z-score. - -In addition the the standard matrices, additional matrices can be defined by the `add.vars' parameter in the \texttt{tcplVarMat} function. The `add.vars' function will take any level 4 or level 5 field and create the respective matrix. - - -\end{document} - - - - +\documentclass{article} + +%\usepackage{hyperref} +\usepackage{url} +\usepackage{Sweave} +\usepackage{rotating} +\usepackage{enumitem} +\usepackage{color} +\usepackage{makebox} +\usepackage{float} +\usepackage{array} +\usepackage{fancyhdr} +\usepackage{multirow} +%\usepackage[usenames,dvipsnames]{color} + +\pagestyle{fancy} +\fancyhead{} +\fancyfoot{} +\renewcommand{\headrulewidth}{0pt} +\fancyhead[C]{\leftmark} +\fancyfoot[C]{\thepage} + +\renewcommand{\arraystretch}{1.5} +%\setlength{\parskip}{10pt} + +\definecolor{gray50}{gray}{0.5} + +\DefineVerbatimEnvironment{Sinput}{Verbatim} {xleftmargin=0em, + frame=single, + rulecolor=\color{gray50}, + framesep=3mm, + label=\tiny{R Input}, + samepage=true} +\DefineVerbatimEnvironment{Soutput}{Verbatim}{xleftmargin=0em, + frame=single, + rulecolor=\color{gray50}, + framesep=3mm, + label=\tiny{R Output}, + samepage=true} + +\newcommand{\Lagr}{\mathop{\mathcal{L}}} + +<>= +options(continue = " ", width = 60, warn = -1) +pdf.options(pointsize = 10) +library(tcpl) + +## This chunk copies the sqlite db to the temp directory used in installation +## to comply with CRAN policies on not writing to the installation directory +dbfile <- file.path(system.file(package = "tcpl"), "sql", "tcpldb.sqlite") +dbfile_temp <- file.path(tempdir(), "tcpldb.sqlite") +file.copy(from = dbfile, dbfile_temp) +tcplConf(db = dbfile_temp) +tcpl:::.clearSQLite(dbfile_temp) +@ + +%\VignetteIndexEntry{tcpl Overview} + +\begin{document} +\SweaveOpts{concordance=true} +\hyphenpenalty=10000 +\tolerance=10000 + +\title{The ToxCast\texttrademark{} Analysis Pipeline:\\ An R Package for Processing and Modeling Chemical Screening Data \\ \hfill \newline \large Version \Sexpr{packageVersion("tcpl")}} +\author{Dayne L. Filer, Parth Kothiya, Woodrow R. Setzer,\\ Richard S. Judson, Matthew T. Martin} +\maketitle + +\clearpage + +\tableofcontents +%\listoffigures +%\listoftables + +\clearpage +\section*{Introduction} +\label{sec:intro} +\markboth{Introduction}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Introduction} +\subsection*{Overview} +\label{subsec:overview} +\addcontentsline{toc}{subsection}{Overview} +The \texttt{tcpl} package was developed to process high-throughput and high-content screening data generated by the U.S. Environmental Protection Agency (EPA) ToxCast\texttrademark{} program.\footnote{\url{}} ToxCast is screening thousands of chemicals with hundreds of assays coming from numerous and diverse biochemical and cell-based technology platforms. The diverse data, received in heterogeneous formats from numerous vendors, are transformed to a standard computable format and loaded into the \texttt{tcpl} database by vendor-specific R scripts. Once data is loaded into the database, ToxCast utilizes the generalized processing functions provided in this package to process, normalize, model, qualify, flag, inspect, and visualize the data. While developed primarily for ToxCast, we have attempted to make the \texttt{tcpl} package generally applicable to chemical-screening community. + +The \texttt{tcpl} package includes processing functionality for two screening paradigms: (1) single-concentration screening and (2) multiple-concentration screening. Single-concentration screening consists of testing chemicals at one concentration, often for the purpose of identifying potentially active chemicals to test in the multiple-concentration format. Multiple-concentration screening consists of testing chemicals across a concentration range, such that the modeled activity can give an estimate of potency, efficacy, etc. + +Prior to the pipeline processing provided in this package, all the data must go through pre-processing (level 0). Level 0 pre-processing utilizes dataset-specific R scripts to process the heterogeneous data into a uniform format and to load the uniform data into the \texttt{tcpl} database. Level 0 pre-processing is outside the scope of this package, but can be done for virtually any high-throughput or high-content chemical screening effort, provided the resulting data includes the minimum required information. + +In addition to storing the data, the \texttt{tcpl} database stores every processing/analysis decision at the assay component or assay endpoint level to facilitate transparency and reproducibility. For the illustrative purposes of this vignette we have included a SQLite version of the \texttt{tcpl} database containing a small subset of data from the ToxCast program. Because of differences in database capabilities, not all functionality of the package will work with the SQLite version. To best utilize the package the user should work with a MySQL database and the \texttt{RMySQL} package. The package includes a SQL file to initialize the MySQL database on the user's server of choice. Additionally, the MySQL version of the ToxCast database containing all the publicly available ToxCast data is available for download at: \url{}. + +\subsection*{Package Settings} +\label{subsec:pkgsettings} +\addcontentsline{toc}{subsection}{Package Settings} +First, it is highly recommended for users to utilize the \texttt{data.table} package. The \texttt{tcpl} package utilizes the \texttt{data.table} package for all data frame-like objects. +\hfill \newline +<>= +library(data.table) +library(tcpl) +## Store the path the tcpl directory for loading data +pkg_dir <- system.file(package = "tcpl") +@ +\hfill \par +Every time the package is loaded in a new R session, a message similar to the following will print showing the default package settings: +\hfill \newline +\begin{Schunk} +\begin{Soutput} +tcpl (v1.0) loaded with the following settings: + TCPL_DB: /usr/local/lib64/R/library/tcpl/sql/xmpl.sqlite + TCPL_USER: NA + TCPL_HOST: NA + TCPL_DRVR: SQLite +Default settings stored in TCPL.conf. See ?tcplConf for +more information. +\end{Soutput} +\end{Schunk} +\hfill \par + +The package consists of five settings: (1) \texttt{\$TCPL\_DB} points to the \texttt{tcpl} database (either the SQLite file, as in the given example above, or the name of the MySQL database), (2) \texttt{\$TCPL\_USER} stores the username for accessing the database, (3) \texttt{\$TCPL\_PASS} stores the password for accessing the database, (4) \texttt{\$TCPL\_HOST} points to the MySQL server host, and (5) \texttt{\$TCPL\_DRVR} indicates which database driver to use (either ``MySQL'' or ``SQLite''). + +Refer to \texttt{?tcplConf} for more information. At any time users can check the settings using \texttt{tcplConfList()}. An example of database settings would be as follows: + +\hfill \newline +<>= +tcplConf(drvr = "MySQL", + user = "root", + pass = "", + host = "localhost", + db = "toxcastdb") +@ +\hfill \par + +Note, \texttt{tcplSetOpts} will only make changes to the parameters given. The package is always loaded with the settings stored in the TCPL.config file located within the package directory. The user can edit the file, such that the package loads with the desired settings, rather than having to call the \texttt{tcplSetOpts} function every time. The TCPL.config file has to be edited whenever the package is updated or re-installed. + +\subsection*{Assay Structure} +\label{subsec:assaystruc} +\addcontentsline{toc}{subsection}{Assay Structure} +The definition of an ``assay'' is, for the purposes of this package, broken into: +\begin{description}[labelindent=1cm] + \item[assay\_source] -- the vendor/origination of the data + \item[assay] -- the procedure to generate the component data + \item[assay\_component] -- the raw data readout(s) + \item[assay\_component\_endpoint] -- the normalized component data +\end{description} +Each assay element is represented by a separate table in the \texttt{tcpl} database. In general, we refer to an ``assay\_component\_endpoint'' as an ``assay endpoint.'' As we move down the hierarchy, each additional layer has a one-to-many relationship with the previous layer. For example, an assay component can have multiple assay endpoints, but an assay endpoint can derive only from a single assay component. + +All processing occurs by assay component or assay endpoint, depending on the processing type (single-concentration or multiple-concentration) and level. No data are stored at the assay or assay source level. The ``assay'' and ``assay\_source'' tables store annotations to help in the processing and down-stream understanding/analysis of the data. For more information about the assay annotations and the ToxCast assays please refer to \url{}. + +Throughout the package the levels of assay hierarchy are defined and referenced by their primary keys (IDs) in the \texttt{tcpl} database: $\mathit{asid}$ (assay source ID), $\mathit{aid}$ (assay ID), $\mathit{acid}$ (assay component ID), and $\mathit{aeid}$ (assay endpoint ID). In addition, the package abbreviates the fields for the assay hierarchy names. The abbreviations mirror the abbreviations for the IDs with ``nm'' in place of ``id'' in the abbreviations, e.g. assay\_component\_name is abbreviated $\mathit{acnm}$. + +\clearpage +\section*{Register and Upload New Data} +\label{sec:newdata} +\markboth{Register and Upload New Data}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Register and Upload New Data} +This section explains how to register and upload new data into the \texttt{tcpl} database using a small subset of ToxCast data showing changes intracellular cortisol hormone. The subset of data comes from an assay measuring steroidogenesis through cellular levels of mutliple steroid hormones. + +The \texttt{tcpl} package provides three functions for adding new data: (1) \texttt{tcplRegister} to register a new assay or chemical ID, (2) \texttt{tcplUpdate} to change or add additional information for existing assay or chemical IDs, and (3) \texttt{tcplWriteLvl0} for loading data. Before writing any data to the \texttt{tcpl} database, the user has to register the assay and chemical information. + +The first step in registering new assays is to register the assay source. As discussed in the previous section, the package refers to the levels of the assay hierarchy by their ID names, e.g. $\mathit{asid}$ for assay source.The following code shows how to register an assay source, then ensure the assay source was properly registered. +\hfill \newline +<<>>= +## Add a new assay source, call it CTox, +## that produced the data +tcplRegister(what = "asid", flds = list(asnm = "CTox")) +tcplLoadAsid() +@ +\hfill \par +The \texttt{tcplRegister} function takes the abbreviation for $\mathit{assay\_source\_name}$, but the function will also take the unabbreviated form. The same is true of the \texttt{tcplLoadA-} functions, which load the information for the assay annotations stored in the database. The next steps show how to register, in order, an assay, assay component, and assay endpoints. +\hfill \newline +<<>>= +tcplRegister(what = "aid", + flds = list(asid = 1, + anm = "Steroidogenesis", + assay_footprint = "96 well")) +@ +\hfill \par +When registering an assay ($\mathit{aid}$), the user must give an $\mathit{asid}$ to map the assay to the correct assay source. Registering an assay, in addition to an assay\_name ($\mathit{anm}$) and $\mathit{asid}$, requires $\mathit{assay\_footprint}$. The $\mathit{assay\_footprint}$ field is used in the assay plate visualization functions (discussed later) to define the appropriate plate size. The $\mathit{assay\_footprint}$ field can take most string values, but only the numeric value will be extracted, e.g. the text string ``hello 384'' would indicate to draw a 384-well microtitier plate. Values containing multiple numeric values in $\mathit{assay\_footprint}$ may cause errors in plotting plate diagrams. + +With the assay registered, the next step is to register an assay component. The example data presented here only contains data for one of the many steroids measured and only requires one assay component, but at this step the user could add multiple assay components to the ``Steroidogenesis'' assay. +\hfill \newline +<<>>= +tcplRegister(what = "acid", + flds = list(aid = 1, acnm = "CTox_CORT")) +tcplRegister(what = "aeid", + flds = list(acid = c(1, 1), + aenm = c("CTox_CORT_up", + "CTox_CORT_dn"), + normalized_data_type = + rep("log2_fold_induction", 2), + export_ready = c(1, 1), + burst_assay = c(0, 0), + fit_all = c(0, 0))) +@ +\hfill \par +In the example above two assay endpoints were assigned to the assay component. Multiple endpoints allow for different normalization approaches of the data, in this case to detect activity in both the positive and negative directions (up and down). Notice registering an assay endpoint also requires the $\mathit{normalized\_data\_type}$ field. The $\mathit{normalized\_data\_type}$ field gives some default values for plotting. Currently the package supports three $\mathit{normalized\_data\_type}$ values: (1) ``percent\_activity,'' (2) ``log2\_fold\_induction,'' and (3) ``log10\_fold\_induction.'' Any other values will be treated as ``percent\_activity.'' + +The other three additional fields when registering an assay endpoint do not have to be explicitly defined when working in the MySQL environment and will default to the values given above. All three fields represent Boolean values (1 or 0, 1 being \texttt{TRUE}). The $\mathit{export\_ready}$ field indicates (1) the data is done and ready for export or (0) still in progress. The $\mathit{burst\_assay}$ field is specific to multiple-concentration processing and indicates (1) the assay endpoint is included in the burst distribution calculation or (0) not (Appendix \ref{app:cyto}). The $\mathit{fit\_all}$ field is specific to multiple-concentration processing and indicates (1) the package should try to fit every concentration series, or (0) only attempt to fit concentration series that show evidence of activity (page \pageref{subsec:mc4}). + +The final piece of assay information needed is the assay component source name (abbreviated $\mathit{acsn}$), stored in the ``assay\_component\_map'' table. The assay component source name is intended to simplify level 0 pre-processing by defining unique character strings (concatenating information if necessary) from the source files that identify the specific assay components. The unique character strings ($\mathit{acsn}$) get mapped to $\mathit{acid}$. An example of how to register a new $\mathit{acsn}$ will be given later in this section. + +With the minimal assay information registered, the next step is to register the necessary chemical and sample information. The ``chdat.csv'' file included in the package contains the sample and chemical information for the data that will be loaded. The following shows an example of how to load chemical information. Similar to the order in registering assay information, the user must first register chemicals, then register samples that map to chemical. +\hfill \newline +<<>>= +ch <- fread(file.path(pkg_dir, "sql", "chdat.csv")) +head(ch) + +## Register the unique chemicals +tcplRegister(what = "chid", + flds = ch[ , + unique(.SD), + .SDcols = c("casn", "chnm")]) +@ +\hfill \par +The ``chdat.csv'' file contains a map of sample to chemical information, but chemical and sample information have to be registered separately because a chemical could potentially have multiple samples. Registering chemicals only takes a chemical CAS registry number ($\mathit{casn}$) and name ($\mathit{chnm}$). In the above example only the unique chemicals were loaded. The $\mathit{casn}$ and $\mathit{chnm}$ fields have unique constraints; trying to register multiple chemicals with the same name or CAS registry number is not possible and will result in an error. With the chemicals loaded the samples can be registered by mapping the sample ID ($\mathit{spid}$) to chemical ID. Note, the user needs to load the chemical information to get the chemical IDs then merge the new chemical IDs with the sample IDs from the original file by chemical name or CASRN. +\hfill \newline +<<>>= +cmap <- tcplLoadChem() +tcplRegister(what = "spid", + flds = merge(ch[ , list(spid, casn)], + cmap[ , list(casn, chid)], + by = "casn")[ , list(spid, chid)]) +@ +\hfill \par +Optionally, the user user can subdivide the chemcial IDs into different groups or libraries. For illustration, the chemical IDs will be arbitrarily divided into two chemical libraries, with the even numbered chemical IDs in group 1 and the odd numbered chemicals IDs in group 2. +\hfill \newline +<<>>= +grp1 <- cmap[chid %% 2 == 0, unique(chid)] +grp2 <- cmap[chid %% 2 == 1, unique(chid)] +tcplRegister(what = "clib", + flds = list(clib = "group_1", chid = grp1)) +tcplRegister(what = "clib", + flds = list(clib = "group_2", chid = grp2)) +@ +\hfill \par +Chemical IDs can belong to more than one library, and will be listed as seperate entries when loading chemical library information. +\hfill \newline +<<>>= +tcplRegister(what = "clib", + flds = list(clib = "other", chid = 1:2)) +tcplLoadClib(field = "chid", val = 1:2) +@ +\hfill \par +After registering the chemical and assay information the data can be loaded into the \texttt{tcpl} database. The package includes two files from the ToxCast program, ``scdat.csv'' and ``mcdat.csv,'' with a subset of single- and multiple-concentration data, respectively. The single- and multiple-concentration processing require the same level 0 fields; more information about level 0 pre-processing in Appendix \ref{app:l0}. +\hfill \newline +<<>>= +scdat <- fread(file.path(pkg_dir, "sql", "scdat.csv")) +mcdat <- fread(file.path(pkg_dir, "sql", "mcdat.csv")) +c(unique(scdat$acsn), unique(mcdat$acsn)) +@ +\hfill \par +As discussed above, the final step before loading data is mapping the assay component source name ($\mathit{acsn}$) to the correct $\mathit{acid}$. An assay component can have multiple $\mathit{acsn}$ values, but an $\mathit{acsn}$ must be unique to one assay component. Assay components can have multiple $\mathit{acsn}$ values to minimize the amount of data manipulation required (and therefore potential errors) during the level 0 pre-processing if assay source files change or are inconsistent. The example data presented here only has one $\mathit{acsn}$ value, ``cort.'' +\hfill \newline +<<>>= +tcplRegister(what = "acsn", + flds = list(acid = 1, acsn = "cort")) +@ +\hfill \par +The data are now ready to be loaded with the \texttt{tcplWriteLvl0} function. +\hfill \newline +<>= +tcplWriteLvl0(dat = scdat, type = "sc") +tcplWriteLvl0(dat = mcdat, type = "mc") +@ +\hfill \par +The \texttt{type} argument is used throughout the package to distinguish the type of data/processing: ``sc'' indicates single-concentration; ``mc'' indicates multiple-concentration. The \texttt{tcplLoadData} function can be used to load the data from the database. +\hfill \newline +<<>>= +tcplLoadData(lvl = 0, fld = "acid", val = 1, type = "sc") +@ +\hfill \par +Notice in the loaded data the \texttt{acsn} is replaced by the correct $\mathit{acid}$ and the $\mathit{s0id}$ field is added. The ``s\#'' fields, and corresponding ``m\#'' fields in the multiple-concentration data, are the primary keys for each level of data. These primary keys link the various levels of data. All of the keys are auto-generated and will change anytime data are reloaded or processed. Note, the primary keys only change for the levels affected, e.g. if the user reprocesses level 1, the level 0 keys will remain the same. + +\clearpage +\section*{Data Processing and the tcplRun Function} +\label{sec:tcplrun} +\markboth{Data Processing and the tcplRun Function}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Data Processing and the tcplRun Function} +This section is intended help the user understand the general aspects of how the data is processed before diving into the specifics of each processing level for both screening paradigms. The details of the two screening paradigms are provided in later sections. + +All processing in the \texttt{tcpl} package occurs at the assay component or assay endpoint level. There is no capability within either screening paradigm to do any processing which combines data from multiple assay components or assay endpoints. Any combining of data must occur before or after the pipeline processing. For example, a ratio of two values could be processed through the pipeline if the user calculated the ratio during the level 0 pre-processing and uploaded a single ``component.'' + +Once data are uploaded in the database, data processing occurs through the \texttt{tcplRun} function for both single- and multiple-concentration screening. The \texttt{tcplRun} function can either take a single ID ($\mathit{acid}$ or $\mathit{aeid}$, depending on the processing type and level) or an $\mathit{asid}$. If given an $\mathit{asid}$ the \texttt{tcplRun} function will attempt to process all corresponding components/endpoints. When processing by $\mathit{acid}$ or $\mathit{aeid}$, the user must know which ID to give for each level (Table \ref{tab:proccheck}). + +The processing is sequential, and every level of processing requires successful processing at the antecedent level. Any processing changes will cause a ``delete cascade,'' removing any subsequent data affected by the processing change to ensure complete data fidelity at any given time. For example, processing level 3 data will cause the data from levels 4 through 6 to be deleted for the corresponding IDs. Changing any method assignments will also trigger a delete cascade for any corresponding data (more on method assignments below). + +The user must give a start and end level when using the \texttt{tcplRun} function. If processing more than one assay component or endpoint, the function will not stop if one component or endpoint fails. If a component or endpoint fails while processing multiple levels, the function will not attempt to processes the failed component/endpoint in subsequent levels. When finished processing, the \texttt{tcplRun} function returns a list indicating the processing success of each id. For each level processed the list will contain two elements: (1) ``l\#'' a named Boolean vector where \texttt{TRUE} indicates successful processing, and (2) ``l\#\_failed'' containing the names of any ids that failed processing where ``\#'' is the processing level. + +The processing functions print messages to the console indicating the four steps of the processing. First, data for the given assay component ID are loaded, the data are processed, data for the same ID in subsequent levels are deleted, then the processed data is written to the database. The `outfile' parameter in the \texttt{tcplRun} function gives the user the option of printing all of the output text to a file. + +The \texttt{tcplRun} function will attempt to use multiple processors on Unix-based systems (does not include Windows). Depending on the system environment, or if the user is running into memory constraints, the user may wish to use less processing power and can do so by setting the `mc.cores' parameter in the \texttt{tcplRun} function. + +\begin{table}[h!] + \centering + \caption{Processing checklist} + \noindent\makebox[\textwidth]{% + \begin{tabular}{c c c c} + Type & Level & Input ID & Method ID\\ + SC & Lvl 1 & \texttt{acid} & \texttt{aeid} \\ \hline + SC & Lvl 2 & \texttt{aeid} & \texttt{aeid} \\ \hline \hline + MC & Lvl 1 & \texttt{acid} & \texttt{N/A} \\ \hline + MC & Lvl 2 & \texttt{acid} & \texttt{acid} \\ \hline + MC & Lvl 3 & \texttt{acid} & \texttt{aeid} \\ \hline + MC & Lvl 4 & \texttt{aeid} & \texttt{N/A} \\ \hline + MC & Lvl 5 & \texttt{aeid} & \texttt{aeid} \\ \hline + MC & Lvl 6 & \texttt{aeid} & \texttt{aeid} \\ \hline + \multicolumn{4}{p{8cm}}{\footnotesize{The Input ID column indicates the ID used for each processing step; Method ID indicates the ID used for assigning methods for data processing, when necessary. SC = single-concentration; MC = multiple-concentration.}} + \end{tabular}} + \label{tab:proccheck} +\end{table} + +The processing requirements vary by screening paradigm and level. Later sections will cover the details, but in general, many of the processing steps require specific methods to accommodate different experimental designs or data processing approaches. + +Notice from Table \ref{tab:proccheck} that level 1 single-concentration processing (SC1) requires an $\mathit{acid}$ input (Table \ref{tab:proccheck}), but the methods are assigned by $\mathit{aeid}$. The same is true for MC3 processing. SC1 and MC3 are the normalization steps and convert $\mathit{acid}$ to $\mathit{aeid}$. (Only MC2 has methods assigned by $\mathit{acid}$.) The normalization process is discussed in the following section. + +To promote reproducibility, all method assignments must occur through the database. Methods cannot be passed to either the \texttt{tcplRun} function or the low-level processing functions called by \texttt{tcplRun}. + +In general, method data are stored in the ``\_methods'' and ``\_id'' tables that correspond to the data-storing tables. For example, the ``sc1'' table is accompanied by the ``sc1\_methods'' table which stores the available methods for SC1, and the ``sc1\_aeid'' table which stores the method assignments and execution order. + +The \texttt{tcpl} package provides three functions for easily modifying and loading the method assignments for the given assay components or endpoints: (1) \texttt{tcplMthdAssign} allows the user to assign methods, (2) \texttt{tcplMthdClear} clears method assignments, and (3) \texttt{tcplMthdLoad} queries the \texttt{tcpl} database and returns the method assignments. The package also includes the \texttt{tcplMthdList} function that queries the \texttt{tcpl} database and returns the list of available methods. + +The following code blocks will give some examples of how to use the method-related functions. + +\hfill \newline +<<>>= +## For illustrative purposes, assign level 2 MC methods to +## ACIDs 98, 99. First check for available methods. +mthds <- tcplMthdList(lvl = 2, type = "mc") +mthds[1:2] +## Assign some methods to ACID 97, 98 & 99 +tcplMthdAssign(lvl = 2, + id = 97:99, + mthd_id = c(3, 4, 2), + ordr = 1:3, + type = "mc") +tcplMthdLoad(lvl = 2, id = 97:99, type = "mc") +## Methods can be cleared one at a time for the given id(s) +tcplMthdClear(lvl = 2, id = 99, mthd_id = 2, type = "mc") +tcplMthdLoad(lvl = 2, id = 99, type = "mc") +## Or all methods can be cleared for the given id(s) +tcplMthdClear(lvl = 2, id = 97:98, type = "mc") +tcplMthdLoad(lvl = 2, id = 97:98, type = "mc") +@ +\hfill \par + +\clearpage +\section*{Data Normalization} +\label{sec:datanorm} +\markboth{Data Normalization}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Data Normalization} + +Data normalization occurs in both single- and multiple-concentration processing at levels 1 and 3, respectively. While the two paradigms use different methods, the normalization approach is the same for both single- and multiple-concentration processing. Data normalization does not have to occur within the package, and normalized data can be loaded into the database at level 0. However, \textbf{data must be zero-centered and will only be fit in the positive direction}. + +The \texttt{tcpl} package supports fold-change and a percent of control approaches to normalization. All data must be zero-centered so all fold-change data must be log-transformed. Normalizing to a control requires three normalization methods: (1) one to define the baseline value, (2) one to define the control value, and (3) one to calculate percent of control (``resp.pc''). Normalizing to fold-change also requires three methods: (1) one to define the baseline value, (2) one to calculate the fold-change, and (3) one to log-transform the fold-change values. Methods defining a baseline value ($\mathit{bval}$) have the ``bval'' prefix, methods defining the control value ($\mathit{pval}$) have the ``pval'' prefix, and methods that calculate or modify the final response value have the ``resp'' prefix. For example, ``resp.log2'' does a log-transformation of the response value using a base value of 2. The formluae for calculating the percent of control and fold-change response values are listed in equations \ref{eq:pc} and \ref{eq:fc}, respectively. + +The percent of control and fold-change values, respectively: +\begin{equation} +\label{eq:pc} \mathit{resp} = \frac{\mathit{cval} - \mathit{bval}}{\mathit{pval} - \mathit{bval}}100 +\end{equation} +\begin{equation} +\label{eq:fc} \mathit{resp} = \mathit{cval}/\mathit{bval} +\end{equation} + +Order matters when assigning normalization methods. The $\mathit{bval}$, and $\mathit{pval}$ if normalizing as a percent of control, need to be calculated prior to calculating the response value. Table \ref{tab:normxmpl} shows some possible normalization schemes. + +\begin{table}[h!] + \centering + \caption{Example normalization method assignments.} + \noindent\makebox[\textwidth]{% + \begin{tabular}{c|p{4cm}|p{4cm}|p{4cm}|} + \cline{2-4} + \parbox[t]{2mm}{\multirow{4}{*}{\rotatebox[origin=c]{90}{Fold-Change}}} & 1. bval.apid.nwlls.med & 1. bval.apid.lowconc.med & 1. none \\ + & 2. resp.fc & 2. resp.fc & 2. resp.log10 \\ + & 3. resp.log2 & 3. resp.log2 & 3. resp.blineshift.50.spid \\ + & 4. resp.mult.neg1 & 4. & 4. \\ \cline{2-4} + \parbox[t]{2mm}{\multirow{4}{*}{\rotatebox[origin=c]{90}{\% Control}}} & 1. bval.apid.lowconc.med & 1. bval.spid.lowconc.med & 1. none \\ + & 2. pval.apid.pwlls.med & 2. pval.apid.mwlls.med & 2. resp.multneg1 \\ + & 3. resp.pc & 3. resp.pc & 3. \\ + & 4. resp.multneg1 & 4. & 4. \\ \cline{2-4} + \end{tabular}} + \label{tab:normxmpl} +\end{table} + +If the data does not require any normalization the ``none'' method must be assigned for normalization. The ``none'' method simply copies the input data to the response field. Without assigning ``none'' the response field will not get generated and the processing will not complete. + +To reiterate, the package only models response in the positive direction. Therefore, signal in the negative direction must transformed to the positive direction during normalization. Negative direction data are inverted by multiplying the final response values by ${-1}$ (see the ``resp.mult.neg`'' methods in Table \ref{tab:normxmpl}). + +In addition to the required normalization methods, the user can add additional methods to transform the normalized values. For example, the third fold-change example in Table \ref{tab:normxmpl} includes ``resp.blineshift.50.spid,'' which corrects for baseline deviations by $\mathit{spid}$. A complete list of available methods, by processing type and level, can be listed with \texttt{tcplMthdList}. More information is available in the package documentation, and can be found by running \texttt{??tcpl::Methods}. + +As discussed in the Assay Structure section (page \pageref{subsec:assaystruc}), an assay component can have more than one assay endpoint. Creating multiple endpoints for one component enables multiple normalization approaches. Multiple normalization approaches may become necessary when the assay component detects signal in both positive and negative directions. + +\clearpage +\section*{Single-concentration Screening} +\label{sec:snglconc} +\markboth{Single-concentration Screening}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Single-concentration Screening} +This section will cover the \texttt{tcpl} process for handling single-concentration data\footnote{This section assumes a working knowledge of the concepts covered in the Data Processing and Data Normalization sections (pages \pageref{sec:tcplrun} and \pageref{sec:datanorm}, respectively).}. The goal of single-concentration processing is to identify potentially active compounds from a broad screen at a single concentration. After the data is loaded into the \texttt{tcpl} database, the single-concentration processing consists of 2 levels (Table \ref{tab:scsummary}). + +\begin{table}[h!] + \centering + \caption{Summary of the \texttt{tcpl} single-concentration pipeline} + \noindent\makebox[\textwidth]{% + \begin{tabular}{c p{10cm}} + & Description \\ \hline + Lvl 0 & Pre-processing: Vendor/dataset-specific pre-processing to organize heterogeneous raw data to the uniform format for processing by the \texttt{tcpl} package$^\dagger$ \\ \hline + Lvl 1 & Normalize: Apply assay endpoint-specific normalization listed in the ``sc1\_aeid'' table to the raw data to define response \\ \hline + Lvl 2 & Activity Call: Collapse replicates by median response, define the response cutoff based on methods in the ``sc2\_aeid'' table, and determine activity \\ \hline + \multicolumn{2}{l}{\footnotesize{$^\dagger$Level 0 pre-processing is outside the scope of this package}} + \end{tabular}} + \label{tab:scsummary} +\end{table} + +\subsection*{Level 1} +\label{subsec:sc1} +\addcontentsline{toc}{subsection}{Level 1} +Level 1 processing converts the assay component to assay endpoint(s) and defines the normalized-response value field ($\mathit{resp}$); logarithm-concentration field ($\mathit{logc}$); and optionally, the baseline value ($\mathit{bval}$) and positive control value ($\mathit{pval}$) fields. The purpose of level 1 is to normalize the raw values to either the percentage of a control or to fold-change from baseline. The normalization process is discussed in greater detail in the Data Normalization section (page \pageref{sec:datanorm}). + +Before beginning the normalization process, all wells with well quality ($\mathit{wllq}$) equal to 0 are removed. + +The first step in beginning the processing is to identify which assay endpoints stem from the assay component(s) being processed. +\hfill \newline +<<>>= +tcplLoadAeid(fld = "acid", val = 1) +@ +\hfill \par + +With the corresponding endpoints identified, the appropriate methods can be assigned. + +\hfill \newline +<<>>= +tcplMthdAssign(lvl = 1, + id = 1:2, + mthd_id = c(1, 11, 13), + ordr = 1:3, + type = "sc") +tcplMthdAssign(lvl = 1, + id = 2, + mthd_id = 16, + ordr = 4, + type = "sc") +@ +\hfill \par + +Above, methods 1, 11, and 13 were assigned for both endpoints. The method assignments instruct the processing to: (1) calculate $\mathit{bval}$ for each assay plate ID by taking the median of all data where the well type equals ``n;'' (2) calculate a fold-change over $\mathit{bval}$; (3) log-transform the fold-change values with base 2. The second method assignment (only for AEID 2) indicates to multiply all response values by $-1$. + +For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 1, type = "sc")} or \texttt{?SC1\_Methods}. With the assay endpoints and normalization methods defined, the data are ready for level 1 processing. +\hfill \newline +<<>>= +## Do level 1 processing for acid 1 +sc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "sc") +@ +\hfill \par +\textbf{Notice that level 1 processing takes an assay component ID, not an assay endpoint ID, as the input ID.} As mentioned in previously, the user must assign normalization methods by assay endpoint, then do the processing by assay component. The level 1 processing will attempt to process all endpoints in the database for a given component. If one endpoint fails for any reason (e.g., does not have appropriate methods assigned), the processing for the entire component fails. + +\subsection*{Level 2} +\label{subsec:sc2} +\addcontentsline{toc}{subsection}{Level 2} +Level 2 processing defines the baseline median absolute deviation ($\mathit{bmad}$), collapses any replicates by sample ID, and determines the activity. + +Before the data are collapsed by sample ID, the $\mathit{bmad}$ is calculated as the median absolute deviation of all wells with well type equal to ``t.'' The calculation to define $\mathit{bmad}$ is done once across the entire assay endpoint. \textbf{If additional data is added to the database for an assay component, the $\mathit{bmad}$ values for all associated assay endpoints will change.} Note, this $\mathit{bmad}$ definition is different from the $\mathit{bmad}$ definition used for multiple-concentration screening. + +To collapse the data by sample ID, the median response value is calculated at each concentration. The data are then further collapsed by taking the maximum of those median values ($\mathit{max\_med}$). + +Once the data are collapsed, such that each assay endpoint-sample pair only has one value, the activity is determined. For a sample to get an active hit-call, the $\mathit{max\_med}$ must be greater than an efficacy cutoff. The efficacy cutoff is determined by the level 2 methods. The efficacy cutoff value ($\mathit{coff}$) is defined as the maximum of all values given by the assigned level 2 methods. Failing to assign a level 2 method will result in every sample being called active. For a complete list of level 5 methods see \texttt{tcplMthdList(lvl = 2, type = "sc")} or \texttt{?SC2\_Methods}. +\hfill \newline +<<>>= +## Assign a cutoff value of log2(1.2) +tcplMthdAssign(lvl = 2, + id = 1:2, + mthd_id = 3, + type = "sc") +@ +\hfill \par +For the example data the cutoff value is $log_2(1.2)$. If the maximum median value ($\mathit{max\_med}$) is greater than or equal to the efficacy cutoff ($\mathit{coff}$), the sample ID is considered active and the hit-call ($\mathit{hitc}$) is set to 1. + +With the methods assigned, the level 2 processing can be completed. + +\hfill \newline +<<>>= +## Do level 1 processing for acid 1 +sc2_res <- tcplRun(id = 1:2, slvl = 2, elvl = 2, type = "sc") +@ +\hfill \par + +\clearpage +\section*{Multiple-concentration Screening} +\label{sec:multiconc} +\markboth{Multiple-concentration Screening}{} +\thispagestyle{plain} +\addcontentsline{toc}{section}{Multiple-concentration Screening} +This section will cover the \texttt{tcpl} process for handling multiple-concentration data\footnote{This section assumes a working knowledge of the concepts covered in the Data Processing and Data Normalization sections (pages \pageref{sec:tcplrun} and \pageref{sec:datanorm}, respectively).}. The goal of multiple-concentration processing is to estimate the activity, potency, efficacy, and other parameters for sample-assay pairs. After the data is loaded into the \texttt{tcpl} database, the multiple-concentration processing consists of six levels (Table \ref{tab:mcsummary}). + +\begin{table}[h!] + \centering + \caption{Summary of the \texttt{tcpl} multiple-concentration pipeline} + \noindent\makebox[\textwidth]{% + \begin{tabular}{c p{10cm}} + & Description \\ \hline + Lvl 0 & Pre-processing: Vendor/dataset-specific pre-processing to organize heterogeneous raw data to the uniform format for processing by the \texttt{tcpl} package$^\dagger$ \\ \hline + Lvl 1 & Index: Define the replicate and concentration indices to facilitate all subsequent processing \\ \hline + Lvl 2 & Transform: Apply assay component-specific transformations listed in the ``mc2\_acid'' table to the raw data to define the corrected data \\ \hline + Lvl 3 & Normalize: Apply assay endpoint-specific normalization listed in the ``mc3\_aeid'' table to the corrected data to define response \\ \hline + Lvl 4 & Fit: Model the concentration-response data utilizing three objective functions: (1) constant, (2) hill, and (3) gain-loss \\ \hline + Lvl 5 & Model Selection/Acitivty Call: Select the winning model, define the response cutoff based on methods in the ``mc5\_aeid'' table, and determine activity \\ \hline + Lvl 6 & Flag: Flag potential false positive and false negative findings based on methods in the ``mc6\_aeid'' table \\ \hline + \multicolumn{2}{l}{\footnotesize{$^\dagger$Level 0 pre-processing is outside the scope of this package}} + \end{tabular}} + \label{tab:mcsummary} +\end{table} + +\subsection*{Level 1} +\label{subsec:mc1} +\addcontentsline{toc}{subsection}{Level 1} +Level 1 processing defines the replicate and concentration index fields to facilitate downstream processing. Because of cost, availability, physicochemical, and technical constraints screening-level efforts utilize numerous experimental designs and test compound (sample) stock concentrations. The resulting data may contain inconsistent numbers of concentrations, concentration values, and technical replicates. To enable quick and uniform processing, level 1 processing explicitly defines concentration and replicate indices, giving integer values $1 \dots N$ to increasing concentrations and technical replicates, where $1$ represents the lowest concentration or first technical replicate. + +To assign replicate and concentration indices we assume one of two experimental designs. The first design assumes samples are plated in multiple concentrations on each assay plate, such that the concentration series all falls on a single assay plate. The second design assumes samples are plated in a single concentration on each assay plate, such that the concentration series falls across many assay plates. + +For both experimental designs, data are ordered by source file ($\mathit{srcf}$), assay plate ID ($\mathit{apid}$), column index ($\mathit{coli}$), row index ($\mathit{rowi}$), sample ID ($\mathit{spid}$), and concentration ($\mathit{conc}$). Concentration is rounded to three significant figures to correct for potential rounding errors. After ordering the data we create a temporary replicate ID, identifying an individual concentration series. For test compounds in experimental designs with the concentration series on a single plate and all control compounds, the temporary replicate ID consists of the sample ID, well type ($\mathit{wllt}$), source file, assay plate ID, and concentration. The temporary replicate ID for test compounds in experimental designs with concentration series that span multiple assay plates is defined similarly, but does not include assay plate ID. + +Once the data are ordered, and the temporary replicate ID is defined, the data are scanned from top to bottom and increment the replicate index ($\mathit{repi}$) every time a replicate ID is duplicated. Then, for each replicate, the concentration index ($\mathit{cndx}$) is defined by ranking the unique concentrations, with the lowest concentration starting at 1. + +The following demonstrates how to carry out the level 1 processing and look at the resulting data: +\hfill \newline +<<>>= +## Do level 1 processing for acid 1 +mc1_res <- tcplRun(id = 1, slvl = 1, elvl = 1, type = "mc") +@ +\hfill \par +With the processing complete, the resulting level 1 data can be loaded to check the processing: +\hfill \newline +<<>>= +## Load the level 1 data and look at the cndx and repi values +m1dat <- tcplLoadData(lvl = 1, + fld = "acid", + val = 1, + type = "mc") +m1dat <- tcplPrepOtpt(m1dat) +setkeyv(m1dat, c("repi", "cndx")) +m1dat[chnm == "3-Phenylphenol", list(chnm, conc, cndx, repi)] +@ +\hfill \par +3-phenylphenol contains two replicates, each with six distinct concentrations. The package also contains a tool for visualizing the data at the assay plate level. +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h!] +<>= +tcplPlotPlate(dat = m1dat, apid = "09Apr2014.Plate.17") +@ +\caption{An assay plate diagram. The color indicates the raw values according to the key on the right. The bold lines on the key show the distribution of values for the plate on the scale of values across the entire assay. The text inside each well shows the well type and concentration index. For example, ``t4'' indicates a test compound at the fourth concentration. The wells with an ``X'' have a well quality of 0.} +\label{fig:l1apid} +\end{figure} +In Figure \ref{fig:l1apid} we see the results of \texttt{tcplPlotPlate}. The \texttt{tcplPlotPlate} function can be used to visualize the data at levels 1 to 3. The row and column indices are printed along the edge of the plate, with the values in each well represented by color. While the plate does not give sample ID information, the letter/number codes in the wells indicate the well type and concentration index, respectively. The plate display also shows the wells with poor quality (as defined by the well quality, $\mathit{wllq}$, field at level 0) with an ``X.'' Plotting plates in subsequent levels wells with poor quality will appear empty. The title of the plate display lists the assay component/assay endpoint and the assay plate ID ($\mathit{apid}$). + +\subsection*{Level 2} +\label{subsec:mc2} +\addcontentsline{toc}{subsection}{Level 2} +Level 2 processing removes data where the well quality ($\mathit{wllq}$) equals 0 and defines the corrected value ($\mathit{cval}$) field. Level 2 processing allows for any transformation of the raw values at the assay component level. Examples of transformation methods could range from basic logarithm transformations, to complex spacial noise reduction algorithms. Currently the \texttt{tcpl} package only consists of basic transformations, but could be expanded in future releases. Level 2 processing does not include normalization methods; normalization should occur during level 3 processing. + +For the example data used in this vignette, no transformations are necessary at level 2. To not apply any transformation methods, assign the ``none'' method: +\hfill \newline +<<>>= +tcplMthdAssign(lvl = 2, + id = 1, + mthd_id = 1, + ordr = 1, + type = "mc") +@ +\hfill \par +Every assay component needs at least one transformation method assigned to complete level 2 processing. With the method assigned, the processing can be completed. +\hfill \newline +<<>>= +## Do level 2 processing for acid 1 +mc2_res <- tcplRun(id = 1, slvl = 2, elvl = 2, type = "mc") +@ +\hfill \par +For the complete list of level 2 transformation methods currently available, see \texttt{tcplMthdList(lvl = 2, type = "mc")} or \texttt{?MC2\_Methods} for more detail. The coding methodology used to implement the methods is beyond the scope of this vignette, but, in brief, the method names in the database correspond to a function name in the list of functions returned by \texttt{mc2\_mthds()} (the \texttt{mc2\_mthds} function is not exported, and not intended for use by the user). Each of the functions in the list given by \texttt{mc2\_mthds()} only return expression objects that processing function called by \texttt{tcplRun} executes in the local function environment to avoid making additional copies of the data in memory. We encourage suggestions for new methods. + +\subsection*{Level 3} +\label{subsec:mc3} +\addcontentsline{toc}{subsection}{Level 3} +Level 3 processing converts the assay component to assay endpoint(s) and defines the normalized-response value field ($\mathit{resp}$); logarithm-concentration field ($\mathit{logc}$); and optionally, the baseline value ($\mathit{bval}$) and positive control value ($\mathit{pval}$) fields. The purpose of level 3 processing is to normalize the corrected values to either the percentage of a control or to fold-change from baseline. The normalization process is discussed in greater detail in the Data Normalization section (page \pageref{sec:datanorm}). The processing aspect of level 3 is almost completely analogous to level 2, except the user has to be careful about using assay component versus assay endpoint. + +The user first needs to check which assay endpoints stem from the the assay component queued for processing. +\hfill \newline +<<>>= +## Look at the assay endpoints for acid 1 +tcplLoadAeid(fld = "acid", val = 1) +@ +\hfill \par +With the corresponding assay endpoints listed, the normalization methods can be assigned. +<<>>= +tcplMthdAssign(lvl = 3, + id = 1:2, + mthd_id = c(17, 9, 7), + ordr = 1:3, + type = "mc") +tcplMthdAssign(lvl = 3, + id = 2, + mthd_id = 6, + ordr = 4, + type = "mc") +@ +Above, methods 17, 9, and 7 were assigned for both endpoints. The method assignments instruct the processing to: (1) calculate $\mathit{bval}$ for each assay plate ID by taking the median of all data where the well type equals ``n'' or the well type equals ``t'' and the concentration index is 1 or 2; (2) calculate a fold-change over $\mathit{bval}$; (3) log-transform the fold-change values with base 2. The second method assignment (only for AEID 2) tells the processing to multiply all response values by $-1$. + +For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 3, type = "mc")} or \texttt{?MC3\_Methods}. With the assay endpoints and normalization methods defined, the data are ready for level 3 processing. +\hfill \newline +<<>>= +## Do level 3 processing for acid 1 +mc3_res <- tcplRun(id = 1, slvl = 3, elvl = 3, type = "mc") +@ +\hfill \par +\textbf{Notice that level 3 processing takes an assay component ID, not an assay endpoint ID, as the input ID.} As mentioned in previous sections, the user must assign normalization methods by assay endpoint, then do the processing by assay component. The level 3 processing will attempt to process all endpoints in the database for a given component. If one endpoint fails for any reason (e.g., does not have appropriate methods assigned), the processing for the entire component fails. + +\subsection*{Level 4} +\label{subsec:mc4} +\addcontentsline{toc}{subsection}{Level 4} +Level 4 processing splits the data into concentration series by sample and assay endpoint, then models the activity of each concentration series. Activity is modeled only in the positive direction. More information on readouts with both directions is available in the previous section. + +The first step in level 4 processing is to remove the well types with only one concentration. To establish the noise-band for the assay endpoint, the baseline median absolute deviation ($\mathit{bmad}$) is calculated as the median absolute deviation of the response values for test compounds where the concentration index equals 1 or 2. The calculation to define $\mathit{bmad}$ is done once across the entire assay endpoint. \textbf{If additional data is added to the database for an assay component, the $\mathit{bmad}$ values for all associated assay endpoints will change.} Note, this $\mathit{bmad}$ definition is different from the $\mathit{bmad}$ definition used for single-concentration screening. + +Before the model parameters are estimated, a set of summary values are calculated for each concentration series: the minimum and maximum response; minimum and maximum log concentration; the number of concentrations, points, and replicates; the maximum mean and median with the concentration at which they occur; and the number of medians greater than $3\mathit{bmad}$. When referring to the concentration series the ``mean'' and ``median'' values are defined as the mean or median of the response values at every concentration. In other words, the maximum median is the maximum of all median values across the concentration series. + +Concentration series must have at least four concentrations to enter the fitting algorithm. By default, concentration series must additionally have at least one median value greater than $3\mathit{bmad}$ to enter the fitting algorithm. The median value above $3\mathit{bmad}$ requirement can be ignored by setting $\mathit{fit\_all}$ to 1 in the assay endpoint annotation. + +All models draw from the Student's t-distribution with four degrees of freedom. The wider tails in the t-distribution diminish the influence of outlier values, and produce more robust estimates than do the more commonly used normal distribution. The robust fitting removes the need for any outlier elimination before fitting. The fitting algorithm utilizes maximum likelihood estimates parameters for three models as defined below in equations \ref{eq:z} through \ref{eq:gnlsc6}. + +Let $t(z,\nu)$ be the Student's t-distribution with $\nu$ degrees of freedom, $y_{i}$ be the observed response at the $i^{th}$ observation, and $\mu_{i}$ be the estimated response at the $i^{th}$ observation. We calculate $z_{i}$ as +\begin{equation} +\label{eq:z} +z_{i} = \frac{y_{i} - \mu_{i}}{\exp(\sigma)}\mathrm{,} +\end{equation} +where $\sigma$ is the scale term. Then the log-likelihood is +\begin{equation} +\label{eq:ll} +\sum_{i=1}^{n} [\ln\left(t(z_{i}, 4)\right) - \sigma]\mathrm{,} +\end{equation} +where $n$ is the number of observations. + +The first model fit in the fitting algorithm is a constant model at 0, abbreviated ``cnst.'' The constant model only has one parameter, the scale term. For the constant model $\mu_{i}$ is given by +\begin{equation} +\label{eq:cnst} +\mu_{i} = 0\mathrm{.} +\end{equation} + +The second model in the fitting algorithm is a constrained Hill model (hill), where the bottom asymptote is forced to 0. Including the scale parameter, the Hill model has four parameters. Let $\mathit{tp}$ be the top asymptote, $\mathit{ga}$ be the AC$_{50}$\footnote{The AC$_{50}$ is the activity concentration at 50\%, or the concentration where the modeled activity equals 50\% of the top asymptote.} in the gain direction, $\mathit{gw}$ be the Hill coefficient in the gain direction, and $x_{i}$ be the log concentration at the $i^{th}$ observation. Then $\mu_{i}$ for the Hill model is given by +\begin{equation} +\label{eq:hill} +\mu_{i} = \frac{tp}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}}\mathrm{,} +\end{equation} +with the constraints +\begin{equation} +\label{eq:hillc1} +0 \leq \mathit{tp} \leq 1.2\mathrm{max\;resp,} +\end{equation} +\begin{equation} +\label{eq:hillc2} +\mathrm{min\;logc} - 2 \leq \mathit{ga} \leq \mathrm{max\;logc} + 0.5\mathrm{,} +\end{equation} +and +\begin{equation} +\label{eq:hillc3} +0.3 \leq \mathit{gw} \leq 8\mathit{.} +\end{equation} + +The third model in the fitting algorithm is a constrained gain-loss model (gnls), defined as a product of two Hill models, with a shared top asymptote and both bottom asymptote values equal to 0. Including the scale term, the gain-loss model has six parameters. Let $\mathit{tp}$ be the shared top asymptote, $\mathit{ga}$ be the AC$_{50}$ in the gain direction, $\mathit{gw}$ be the Hill coefficient in the gain direction, $\mathit{la}$ be the AC$_{50}$ in the loss direction, $\mathit{lw}$ be the Hill coefficient in the loss direction, and $x_{i}$ be the log concentration at the $i^{th}$ observation. Then $\mu_{i}$ for the gain-loss model is given by +\begin{equation} +\label{eq:gnls} +\mu_{i} = \mathit{tp}\left(\frac{1}{1 + 10^{(\mathit{ga} - x_{i})\mathit{gw}}}\right)\left(\frac{1}{1 + 10^{(x_{i} - \mathit{la})\mathit{lw}}}\right)\mathrm{,} +\end{equation} +with the constraints +\begin{equation} +\label{eq:gnlsc1} +0 \leq \mathit{tp} \leq 1.2\mathrm{max\;resp,} +\end{equation} +\begin{equation} +\label{eq:gnlsc2} +\mathrm{min\;logc} - 2 \leq \mathit{ga} \leq \mathrm{max\;logc,} +\end{equation} +\begin{equation} +\label{eq:gnlsc3} +0.3 \leq \mathit{gw} \leq 8\mathrm{,} +\end{equation} +\begin{equation} +\label{eq:gnlsc4} +\mathrm{min\;logc} - 2 \leq \mathit{la} \leq \mathrm{max\;logc} + 2\mathrm{,} +\end{equation} +\begin{equation} +\label{eq:gnlsc5} +0.3 \leq \mathit{lw} \leq 18\mathrm{,} +\end{equation} +and +\begin{equation} +\label{eq:gnlsc6} +\mathit{la}-\mathit{ga} > 0.25\mathrm{.} +\end{equation} + +Level 4 does not utilize any assay endpoint-specific methods; the user only needs to run the \texttt{tcplRun} function. \textbf{Level 4 processing and all subsequent processing is done by assay endpoint, not assay component}. The previous section showed how to find the assay endpoints for an assay component using the \texttt{tcplLoadAeid} function. The example dataset includes two assay endpoints with aeid values of 1 and 2. +\hfill \newline +<<>>= +## Do level 4 processing for aeid 1 and load the data +mc4_res <- tcplRun(id = 1:2, slvl = 4, elvl = 4, type = "mc") +@ +\hfill \par +The level 4 data include 52 variables, including the ID fields. A complete list of level 4 fields is available in Appendix \ref{app:dbstruc}. The level 4 data include the fields $\mathit{cnst}$, $\mathit{hill}$, and $\mathit{gnls}$ indicating the convergence of the model where a value of 1 means the model converged and a value of 0 means the model did not converge. N/A values indicate the fitting algorithm did not attempt to fit the model. $\mathit{cnst}$ will be N/A when the concentration series had less than 4 concentrations; $\mathit{hill}$ and $\mathit{gnls}$ will be N/A when none of the medians were greater than or equal to $3\mathit{bmad}$. Similarly, the $\mathit{hcov}$ and $\mathit{gcov}$ fields indicate the success in inverting the Hessian matrix. Where the Hessian matrix did not invert, the parameter standard deviation estimates will be N/A. NaN values in the parameter standard deviation fields indicate the covariance matrix was not positive definite. In Figure \ref{fig:l4plt} the $\mathit{hill}$ field is used to find potentially active compounds to visualize with the \texttt{tcplPlotL4ID} function. +\hfill \newline +<<>>= +## Load the level 4 data +m4dat <- tcplLoadData(lvl = 4, type = "mc") +## List the first m4ids where the hill model convered +## for AEID 1 +m4dat[hill == 1 & aeid == 1, head(m4id)] +@ +\hfill \par +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h!] +<>= +## Plot a fit for m4id 21 +tcplPlotM4ID(m4id = 686, lvl = 4) +@ +\caption{An example level 4 plot for a single concentration series. The orange dashed line shows the constant model, the red dashed line shows the Hill model, and the blue dashed line shows the gain-loss model. The gray striped box shows the baseline region, $0 \pm 3\mathit{bmad}$. The summary panel shows assay endpoint and sample information, the parameter values (val) and standard deviations (sd) for the Hill and gain-loss models, and summary values for each model.} +\label{fig:l4plt} +\end{figure} +\par +The model summary values in Figure \ref{fig:l4plt} include Akaike Information Criterion (AIC), probability, and the root mean square error (RMSE). Let $\log(\Lagr(\hat{\theta}, y))$ be the log-likelihood of the model $\hat{\theta}$ given the observed values $y$, and $K$ be the number of parameters in $\hat{\theta}$, then, +\begin{equation} +\label{eq:aic} +\mathrm{AIC} = -2\log(\Lagr(\hat{\theta}, y)) + 2K\mathrm{.} +\end{equation} +The probability, $\omega_{i}$, is defined as the weight of evidence that model $i$ is the best model, given that one of the models must be the best model. Let $\Delta_{i}$ be the difference $\mathrm{AIC}_{i} - \mathrm{AIC}_{min}$ for the $i^{th}$ model. If $R$ is the set of models, then $\omega_{i}$ is given by +\begin{equation} +\label{eq:prob} +\omega_{i} = \frac{\exp\left(-\frac{1}{2}\Delta_{i}\right)}{\sum_{i=1}^{R} \exp\left(-\frac{1}{2}\Delta_{r}\right)}\mathrm{.} +\end{equation} +The RMSE is given by +\begin{equation} +\label{eq:rmse} +\mathrm{RMSE} = \sqrt{\frac{\sum_{i=1}^{N} (y_{i} - \mu_{i})^2}{N}}\mathrm{,} +\end{equation} +where $N$ is the number of observations, and $\mu_{i}$ and $y_{i}$ are the estimated and observed values at the $i^{th}$ observation, respectively. + +\subsection*{Level 5} +\label{subsec:mc5} +\addcontentsline{toc}{subsection}{Level 5} +Level 5 processing determines the winning model and activity for the concentration series, bins all of the concentration series into categories, and calculates additional point-of-departure estimates based on the activity cutoff. + +\textbf{The model with lowest AIC value is selected as the winning model ($\mathit{modl}$)}, and is used to determine the activity or hit-call for the concentration series. If two models have equal AIC values, the simpler model (the model with fewer parameters) wins the tie. All of the parameters for the winning model are stored at level 5 with the prefix ``modl\_'' to facilitate easier queries. For a concentration series to get an active hit-call, either the Hill or gain-loss must be selected as the winning model. In addition to selecting the Hill or gain-loss model, the modeled and observed response must meet an efficacy cutoff. + +The efficacy cutoff is defined by the level 5 methods. The efficacy cutoff value ($\mathit{coff}$) is defined as the maximum of all values given by the assigned level 5 methods. Failing to assign a level 5 method will result in every concentration series being called active. For a complete list of level 5 methods see \texttt{tcplMthdList(lvl = 5)} or \texttt{?MC5\_Methods}. +\hfill \newline +<<>>= +## Assign a cutoff value of bmad*6 +tcplMthdAssign(lvl = 5, + id = 1:2, + mthd_id = 6, + type = "mc") +@ +\hfill \par +For the example data the cutoff value is $6\mathit{bmad}$. If the Hill or gain-loss model wins, and the estimated top parameter for the winning model ($\mathit{modl\_tp}$) and the maximum median value ($\mathit{max\_med}$) are both greater than or equal to the efficacy cutoff ($\mathit{coff}$), the concentration series is considered active and the hit-call ($\mathit{hitc}$) is set to 1. + +The hit-call can be 1, 0, or -1. A hit-call of 1 or 0 indicates the concentration series is active or inactive, respectively, according to the analysis; a hit-call of -1 indicates the concentration series had less than four concentrations. + +For active concentration series, two additional point-of-departure estimates are calculated for the winning model: (1) the activity concentration at baseline (ACB or $\mathit{modl\_acb}$) and (2) the activity concentration at cutoff (ACC or $\mathit{modl\_acc}$). The ACB and ACC are defined as the concentration where the estimated model value equals $3\mathit{bmad}$ and the cutoff, respectively. The point-of-departure estimates are summarized in Figure \ref{fig:podplt}. + +\hfill \newline +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h] +<>= +par(family = "mono", mar = rep(1, 4), pty = "m") +plot.new() +plot.window(xlim = c(0, 30), ylim = c(-30, 100)) +# axis(side = 2, lwd = 2, col = "gray35") +rect(xleft = par()$usr[1], + xright = par()$usr[2], + ybottom = -15, + ytop = 15, + border = NA, + col = "gray45", + density = 15, + angle = 45) +abline(h = 26, lwd = 3, lty = "dashed", col = "gray30") +tmp <- list(modl = "gnls", gnls_ga = 12, gnls_tp = 80, + gnls_gw = 0.18, gnls_lw = 0.7, gnls_la = 25) +tcplAddModel(pars = tmp, lwd = 3, col = "dodgerblue2") + +abline(v = 8.46, lwd = 3, lty = "solid", col = "firebrick") +text(x = 8.46, y = par()$usr[4]*0.9, + font = 2, labels = "ACB", cex = 2, pos = 2, srt = 90) +abline(v = 10.24, lwd = 3, lty = "solid", col = "yellow2") +text(x = 10.24, y = par()$usr[4]*0.9, + font = 2, labels = "ACC", cex = 2, pos = 2, srt = 90) +abline(v = 12, lwd = 3, lty = "solid", col = "dodgerblue2") +text(x = 12, y = par()$usr[4]*0.9, + font = 2, labels = "AC50", cex = 2, pos = 2, srt = 90) + +points(x = c(8.46, 10.24, 12), y = c(15, 26, 40), + pch = 21, cex = 2, col = "gray30", lwd = 2, + bg = c("firebrick", "yellow2", "dodgerblue2")) +@ +\caption{The point-of-departure estimates calculated by the \texttt{tcpl} package. The shaded rectangle represents the baseline region, $0 \pm 3\mathit{bmad}$. The dark stripped line represents the efficacy cutoff ($\mathit{coff}$). The vertical lines show where the point-of-departure estimates are defined: the red line shows the ACB, the yellow line shows the ACC, and the blue line shows the AC$_{50}$.} +\label{fig:podplt} +\end{figure} +\par + +All concentration series fall into a single fit category ($\mathit{fitc}$), defined by the leaves on the tree structure in Figure \ref{fig:fitc1}. Concentration series in the same category will have similar characteristics, and often look very similar. Categorizing all of the series enables faster quality control checking and easier identification of potential false results. The first split differentiates series by hit-call. Series with a hit-call of -1 go into fit category 2. The following two paragraphs will outline the logic for the active and inactive branches. +\setkeys{Gin}{width=1.2\textwidth} +\begin{sidewaysfigure}[!p] +\centering +<>= +tcplPlotFitc() +@ +\caption{The categories used to bin each fit. Each fit falls into one leaf of the tree. The leaves are indicated by bold green font. (Figure created by calling \texttt{tcplPlotFitc()}.)} +\label{fig:fitc1} +\end{sidewaysfigure} + +The first split in the active branch differentiates series by the model winner, Hill or gain-loss. For each model, the next split is defined by the efficacy of it's top parameter in relation to the cutoff. The top value is either less than $1.2\mathit{coff}$ or greater than or equal to $1.2\mathit{coff}$. Finally, series on the active branch go into leaves based on the position of the AC$_{50}$ parameter in relation to the tested concentration range. For comparison purposes, the activity concentration at 95\% (AC95) is calculated, but not stored.\footnote{The \texttt{tcplHill-} functions can be used to calculate values, concentrations, and activity concentrations for the Hill model.} Series with AC$_{50}$ values less than the minimum concentration tested ($\mathit{logc\_min}$) go into the ``$<=$'' leaves, series with AC$_{50}$ values greater than the minimum tested concentration and AC95 values less than maximum tested concentration ($\mathit{logc\_max}$) go into the ``$==$'' leaves, and series with AC95 values greater than the maximum concentration tested go into the ``$>=$'' leaves. + +The inactive branch is first divided by whether any median values were greater than or equal to $3\mathit{bmad}$. Series with no evidence of activity go into fit category 4. Similar to the active branch, series with evidence for activity are separated by the model winner. The Hill and gain-loss portions of the inactive branch follow the same logic. First, series diverge by the efficacy of their top parameter in relation to the cutoff: $\mathit{modl\_tp < 0.8\mathit{coff}}$ or $\mathit{modl\_tp \geq 0.8\mathit{coff}}$. Then the same comparison is made on the top values of the losing model. If the losing model did not converge, then the series go into the ``DNC'' category. If the losing model top value is greater than or equal to $0.8\mathit{coff}$, then the series are split based on whether the losing model top surpassed the cutoff. On the constant model branch, if neither top parameter is greater than or equal to $0.8\mathit{bmad}$, then the series goes into fit category 7. If one of the top parameters is greater than or equal to $0.8\mathit{coff}$, the series goes into fit category 9 or 10 based on whether one of the top values surpassed the cutoff. + +With the level 5 methods assigned, the data are ready for level 5 processing: +\hfill \newline +<<>>= +## Do level 5 processing for aeid 1 and load the data +mc5_res <- tcplRun(id = 1:2, slvl = 5, elvl = 5, type = "mc") +@ +\hfill \par +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h] +<>= +tcplPlotM4ID(m4id = 370, lvl = 5) +@ +\caption{An example level 5 plot for a single concentration series. The solid line and model highlighting indicate the model winner. The horizontal line shows the cutoff value. In addition to the information from the level 4 plots, the summary panel includes the cutoff ($\mathit{coff}$), hit-call ($\mathit{hitc}$), fit category ($\mathit{fitc}$) and activity probability ($\mathit{actp}$) values.} +\label{fig:l5plt1} +\end{figure} +\par +Figure \ref{fig:l5plt1} shows an example of a concentration series in fit category 37, indicating the series is active and the Hill model won with a top value less than or equal to $1.2\mathit{coff}$, and an AC$_{50}$ value within the tested concentration range. The \texttt{tcplPlotFitc} function shows the distribution of concentration series across the fit category tree (Figure \ref{fig:fitc2}). +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h] +<>= +m5dat <- tcplLoadData(lvl = 5, type = "mc") +tcplPlotFitc(fitc = m5dat$fitc) +@ +\caption{The distribution of concentration series by fit category for the example data. Both the size and color of the circles indicate the number of concentration series. The legend gives the range for number of concentration series by color.} +\label{fig:fitc2} +\end{figure} +\hfill \par +The distribution in Figure \ref{fig:fitc2} shows 24-40 concentration series fell into fit category 21. Following the logic discussed previously, fit category 21 indicates an inactive series where the Hill model was selected, the top asymptote for the Hill model was greater than $0.8\mathit{coff}$, and the gain-loss top asymptote was greater than or equal to the cutoff. The series in fit category 21 can be found easily in the level 5 data. +\hfill \newline +<<>>= +head(m5dat[fitc == 21, + list(m4id, hill_tp, gnls_tp, + max_med, coff, hitc)]) +@ +\hfill \par +The plot in Figure \ref{fig:l5plt2} shows a concentration series in fit category 21. In the example given by Figure \ref{fig:l5plt2}, the $\mathit{hill\_tp}$ and $\mathit{gnls\_tp}$ parameters are equal and greater than $\mathit{coff}$; however, the maximum median value ($\mathit{max\_med}$) is not greater than the cutoff making the series inactive. +\hfill \par +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h] +<>= +tcplPlotM4ID(m4id = 45, lvl = 5) +@ +\caption{Level 5 plot for m4id 45 showing an example series in fit category 21.} +\label{fig:l5plt2} +\end{figure} + +\subsection*{Level 6} +\label{subsec:mc6} +\addcontentsline{toc}{subsection}{Level 6} +Level 6 processing uses various methods to identify concentration series with etiologies that may suggest false positive/false negative results or explain apparent anomalies in the data. Each flag has is defined by a level 6 method that has to be assigned to each assay endpoint. Similar to level 5, an assay endpoint does not need any level 6 methods assigned to complete processing. +\hfill \newline +<<>>= +tcplMthdAssign(lvl = 6, + id = 1:2, + mthd_id = c(6:8, 10:12, 15:16), + type = "mc") +tcplMthdLoad(lvl = 6, id = 1, type = "mc") +@ +\hfill \par +The example above assigns the most common flags. Some of the available flags only apply to specific experimental designs and do not apply to all data. For a complete list of normalization methods see \texttt{tcplMthdList(lvl = 6)} or \texttt{?MC6\_Methods}. + +The additional $\mathit{nddr}$ field in the ``mc6\_methods'' (and the output from \texttt{tcplMthdLoad()}/\texttt{tcplMthdList()} for level 6) indicates whether the method requires additional data. Methods with an $\mathit{nddr}$ value of 0 only require the modeled/summary information from levels 4 and 5. Methods with an $\mathit{nddr}$ value of 1 also require the individual response and concentration values from level 3. Methods requiring data from level 3 can greatly increase the processing time. +\hfill \newline +<<>>= +## Do level 6 processing +mc6_res <- tcplRun(id = 1:2, slvl = 6, elvl = 6, type = "mc") +m6dat <- tcplLoadData(lvl = 6, type = "mc") +@ +\hfill \par +For the two assay endpoints, \Sexpr{nrow(m6dat)} out of the \Sexpr{nrow(m5dat)} concentration series were flagged in the level 6 processing. Series not flagged in the level 6 processing do not get stored at level 6. Each series-flag combination is a separate entry in the level 6 data. Or, in other words, if a series has multiple flags it will show up on multiple rows in the output. For example, consider the following results: +\hfill \newline +<<>>= +m6dat[m4id == 46] +@ +\hfill \par +The data above lists two flags: ``Multiple points above baseline, inactive'' and ``Borderline inactive.'' Without knowing much about the flags one might assume this concentration series had some evidence of activity but was not called a hit, and could potentially be a false negative. In cases of borderline results, plotting the curve is often helpful. + +\hfill \par +\setkeys{Gin}{width=1\textwidth} +\begin{figure}[h!] +<>= +tcplPlotM4ID(m4id = 46, lvl = 6) +@ +\caption{An example level 6 plot for a single concentration series. All level 6 method ID ($\mathit{l6\_mthd\_id}$) values are concatenated in the flags section. If flags have an associated value ($\mathit{fval}$), the value will be shown in parentheses to the right of the level 6 method ID.} +\label{fig:l6plt} +\end{figure} +The evidence of true activity shown in Figure \ref{fig:l6plt} could be argued either way. Level 6 processing does not attempt to define truth in the matter of borderline compounds or data anomalies, but rather attempts to identify concentration series for closer consideration. + +\appendix +\clearpage +\section{Field Explanation/Database Structure} +\markboth{Field Explanation/Database Structure}{} +\thispagestyle{plain} +\label{app:dbstruc} + +This appendix contains reference tables that describe the structure and table fields found in the \texttt{tcpl} database. The first sections of this appendix describe the data-containing tables, followed by a section describing the additional annotation tables. + +In general, the single-concentration data and accompanying methods are found in the ``sc\#'' tables, where the number indications the processing level. Likewise, the multiple-concentration data and accompanying methods are found in the ``mc\#'' tables. Each processing level that has accompanying methods will also have a tables with the ``\_methods'' and ``\_id'' naming scheme. For example, the database contains the following tables: ``mc5'' storing the data from multiple-concentration level 5 processing, ``mc5\_methods'' storing the available level 5 methods, and ``mc5\_aeid'' storing the method assignments for level 5. Note, the table storing the method assignments for level 2 multiple-concentration processing is called ``mc2\_acid'' because MC2 methods are assigned by assay component ID. + +There are two additional tables, ``sc2\_agg'' and ``mc4\_agg,'' that link the data in tables ``sc2'' and ``mc4'' to the data in tables ``sc1'' and ``mc3,'' respectively. This is necessary because each entry in the database before SC2 and MC4 processing represents a single value; subsequent entries represent summary/modeled values that encompass many values. To know what values were used in calculating the summary/modeled values, the user must use the ``\_agg'' look-up tables. + +Each of the methods tables have fields analogous to $\mathit{mc5\_mthd\_id}$, $\mathit{mc5\_mthd}$, and $\mathit{desc}$. These fields represent the unique key for the method, the abbreviated method name (used to call the method from the corresponding \texttt{mc5\_mthds} function), and a brief description of the method, respectively. The ``mc6\_methods'' table may also includes $\mathit{nddr}$ field. More information about $\mathit{nddr}$ is available in the discussion of multiple-concentration level 6 processing (page \pageref{subsec:mc6}). + +The method assignment tables will have fields analogous to $\mathit{mc5\_mthd\_id}$ matching the method ID from the methods tables, an assay component or assay endpoint ID, and possibly an $\mathit{exec\_ordr}$ field indicating the order in which to execute the methods. + +The method and method assignment tables will not be listed in the tables below to reduce redundancy. + +Many of the tables also include the $\mathit{created\_date}$, $\mathit{modified\_date}$, and $\mathit{modified\_by}$ fields that store information helpful for tracking changes to the data. These fields will not be discussed further or included in the tables below. + +Many of the tables specific to the assay annotation are not utilized by the \texttt{tcpl} package. The full complexity of the assay annotation used by the ToxCast program is beyond the scope of this vignette and the \texttt{tcpl} package. More information about the ToxCast assay annotation can be found at: \url{}. + +\clearpage + +\subsection*{Single-concentration data-containing tables} +\label{subsec:sctabs} +\addcontentsline{toc}{subsection}{Single-concentration tables} + +\begin{table}[H] + \centering + \caption{Fields in sc0 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + s0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + spid & Sample ID \\ \hline + cpid & Chemical plate ID \\ \hline + apid & Assay plate ID \\ \hline + rowi & Assay plate row index \\ \hline + coli & Assay plate column index \\ \hline + wllt & Well type$^\dagger$\\ \hline + wllq & 1 if the well quality was good, else 0$^\ddagger$\\ \hline + conc & Concentration in micromolar \\ \hline + rval & Raw assay component value/readout from vendor \\ \hline + srcf & Filename of the source file containing the data \\ \hline + \multicolumn{2}{l}{\footnotesize{$^\dagger$Information about the different well types is available in Appendix \ref{app:l0}.}} \\[-8pt] + \end{tabular}} +\label{tab:sc0} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in sc1 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + s1id & Level 1 ID \\ \hline + s0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + aeid & Assay component endpoint ID \\ \hline + logc & Log base 10 concentration \\ \hline + bval & Baseline value \\ \hline + pval & Positive control value \\ \hline + resp & Normalized response value \\ \hline + \end{tabular}} +\label{tab:sc1} + +\end{table}\begin{table}[H] + \centering + \caption{Fields in sc2\_agg table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + aeid & Assay component endpoint ID \\ \hline + s0id & Level 0 ID \\ \hline + s1id & Level 1 ID \\ \hline + s2id & Level 2 ID \\ \hline + \end{tabular}} +\label{tab:sc2agg} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in sc2 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + s2id & Level 2 ID \\ \hline + aeid & Assay component endpoint ID \\ \hline + spid & Sample ID \\ \hline + bmad & Baseline median absolute deviation \\ \hline + max\_med & Maximum median response value \\ \hline + hitc & Hit-/activity-call, 1 if active, 0 if inactive\\ \hline + coff & Efficacy cutoff value \\ \hline + tmpi & Ignore, temporary index used for uploading purposes\\ \hline + \end{tabular}} +\label{tab:sc2} +\end{table} + +\clearpage + +\subsection*{Multiple-concentration data-containing tables} +\label{subsec:mctabs} +\addcontentsline{toc}{subsection}{Multiple-concentration tables} + +The ``mc0'' table, other than containing $\mathit{m0id}$ rather than $\mathit{s0id}$, is identical to the ``sc0'' described in the section above. + +\begin{table}[H] + \centering + \caption{Fields in mc1 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m1id & Level 1 ID \\ \hline + m0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + cndx & Concentration index \\ \hline + repi & Replicate index \\ \hline + \end{tabular}} +\label{tab:mc1} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc2 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m2id & Level 2 ID \\ \hline + m0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + m1id & Level 1 ID \\ \hline + cval & Corrected value \\ \hline + \end{tabular}} +\label{tab:mc2} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc3 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m3id & Level 3 ID \\ \hline + aeid & Assay endpoint ID \\ \hline + m0id & Level 0 ID \\ \hline + acid & Assay component ID \\ \hline + m1id & Level 1 ID \\ \hline + m2id & Level 2 ID \\ \hline + bval & Baseline value \\ \hline + pval & Positive control value \\ \hline + logc & Log base 10 concentration \\ \hline + resp & Normalized response value \\ \hline + \end{tabular}} +\label{tab:mc3} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc4\_agg table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + aeid & Assay endpoint ID \\ \hline + m0id & Level 0 ID \\ \hline + m1id & Level 1 ID \\ \hline + m2id & Level 2 ID \\ \hline + m3id & Level 3 ID \\ \hline + m4id & Level 4 ID \\ \hline + \end{tabular}} +\label{tab:mc4agg} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc4 table (Part 1).} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m4id & Level 4 ID \\ \hline + aeid & Assay endpoint ID \\ \hline + spid & Sample ID \\ \hline + bmad & Baseline median absolute deviation \\ \hline + resp\_max & Maximum response value \\ \hline + resp\_min & Minimum response value \\ \hline + max\_mean & Maximum mean response value \\ \hline + max\_mean\_conc & Log concentration at $\mathit{max\_mean}$ \\ \hline + max\_med & Maximum median response value \\ \hline + max\_med\_conc & Log concentration at $\mathit{max\_med}$ \\ \hline + logc\_max & Maximum log concentration tested \\ \hline + logc\_min & Minimum log concentration tested \\ \hline + cnst & 1 if the constant model converged, 0 if it failed to converge, N/A if series had less than four concentrations\\ \hline + hill & 1 if the Hill model converged, 0 if it failed to converge, N/A if series had less than four concentrations or if $\mathit{max\_med} < 3\mathit{bmad}$ \\ \hline + hcov & 1 if the Hill model Hessian matrix could be inverted, else 0 \\ \hline + gnls & 1 if the gain-loss model converged, 0 if it failed to converge, N/A if series had less than four concentrations or if $\mathit{max\_med} < 3\mathit{bmad}$ \\ \hline + gcov & 1 if the gain-loss model Hessian matrix could be inverted, else 0\\ \hline + cnst\_er & Scale term for the constant model \\ \hline + cnst\_aic & AIC for the constant model \\ \hline + cnst\_rmse & RMSE for the constant model \\ \hline + cnst\_prob & Probability the constant model is the true model \\ \hline + hill\_tp & Top asymptote for the Hill model \\ \hline + hill\_tp\_sd & Standard deviation for $\mathit{hill\_tp}$ \\ \hline + hill\_ga & AC$_{50}$ for the Hill model \\ \hline + hill\_ga\_sd & Standard deviation for $\mathit{hill\_ga}$ \\ \hline + \end{tabular}} +\label{tab:mc4p1} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc4 table (Part 2).} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + hill\_gw & Hill coefficient \\ \hline + hill\_gw\_sd & Standard deviation for $\mathit{hill\_gw}$ \\ \hline + hill\_er & Scale term for the Hill model \\ \hline + hill\_er\_sd & Standard deviation for $\mathit{hill\_er}$ \\ \hline + hill\_aic & AIC for the Hill model \\ \hline + hill\_rmse & RMSE for the Hill model \\ \hline + hill\_prob & Probability the Hill model is the true model \\ \hline + gnls\_tp & Top asymptote for the gain-loss model \\ \hline + gnls\_tp\_sd & Standard deviation for $\mathit{gnls\_tp}$ \\ \hline + gnls\_ga & AC$_{50}$ in the gain direction for the gain-loss model \\ \hline + gnls\_ga\_sd & Standard deviation for $\mathit{gnls\_ga}$ \\ \hline + gnls\_gw & Hill coefficient in the gain direction \\ \hline + gnls\_gw\_sd & Standard deviation for $\mathit{gnls\_gw}$ \\ \hline + gnls\_la & AC$_{50}$ in the loss direction for the gain-loss model \\ \hline + gnls\_la\_sd & Standard deviation for $\mathit{gnls\_la}$ \\ \hline + gnls\_lw & Hill coefficient in the loss direction \\ \hline + gnls\_lw\_sd & Standard deviation for $\mathit{gnls\_lw}$ \\ \hline + gnls\_er & Scale term for the gain-loss model \\ \hline + gnls\_er\_sd & Standard deviation for $\mathit{gnls\_er}$ \\ \hline + gnls\_aic & AIC for the gain-loss model \\ \hline + gnls\_rmse & RMSE for the gain-loss model \\ \hline + gnls\_prob & Probability the gain-loss model is the true model \\ \hline + nconc & Number of concentrations tested \\ \hline + npts & Number of points in the concentration series \\ \hline + nrep & Number of replicates in the concentration series \\ \hline + nmed\_gtbl & Number of median values greater than $3\mathit{bmad}$ \\ \hline + tmpi & Ignore, temporary index used for uploading purposes\\ \hline + \end{tabular}} +\label{tab:mc4p2} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc5 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m5id & Level 5 ID \\ \hline + m4id & Level 4 ID \\ \hline + aeid & Assay endpoint ID \\ \hline + modl & Winning model: ``cnst'', ``hill'', or ``gnls'' \\ \hline + hitc & Hit-/activity-call, 1 if active, 0 if inactive, -1 if cannot determine\\ \hline + fitc & Fit category \\ \hline + coff & Efficacy cutoff value \\ \hline + actp & Activity probability ($1 - \mathit{cnst\_prob}$)\\ \hline + modl\_er & Scale term for the winning model \\ \hline + modl\_tp & Top asymptote for the winning model \\ \hline + modl\_ga & Gain AC$_{50}$ for the winning model \\ \hline + modl\_gw & Gain Hill coefficient for the winning model \\ \hline + modl\_la & Loss AC$_{50}$ for the winning model \\ \hline + modl\_lw & Loss Hill coefficient for the winning model \\ \hline + modl\_prob & Probability for the winning model \\ \hline + modl\_rmse & RMSE for the winning model \\ \hline + modl\_acc & Activity concentration at cutoff for the winning model \\ \hline + modl\_acb & Activity concentration at baseline for the winning model \\ \hline + modl\_ac10 & AC10 for the winning model \\ \hline + \end{tabular}} +\label{tab:mc5} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc6 table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + m6id & Level 6 ID \\ \hline + m5id & Level 5 ID \\ \hline + m4id & Level 4 ID \\ \hline + aeid & Assay endpoint ID \\ \hline + m6\_mthd\_id & Level 6 method ID \\ \hline + flag & Text text output for the level 6 method \\ \hline + fval & Value from the flag method, if applicable \\ \hline + fval\_unit & Units for $\mathit{fval}$, if applicable \\ \hline + \end{tabular}} +\label{tab:mc6} +\end{table} + +\clearpage + +\subsection*{Auxiliary annotation tables} +\label{subsec:auxtabs} +\addcontentsline{toc}{subsection}{Auxiliary annotation tables} + +As mentioned in the introduction to this appendix, a full description of the assay annotation is beyond the scope of this vignette. The fields pertinent to the \texttt{tcpl} package are listed in the tables below. + +\begin{table}[H] + \centering + \caption{List of annotation tables.} + \noindent\makebox[\textwidth]{% + \begin{tabular}{l p{10cm}} + Table Name & Description \\ \hline + assay & Assay-level annotation \\ \hline + assay\_component & Assay component-level annotation \\ \hline + assay\_component\_endpoint & Assay endpoint-level annotation \\ \hline + assay\_component\_map & Assay component source names and their corresponding assay component ids \\ \hline + assay\_reagent* & Assay reagent information \\ \hline + assay\_reference* & Map of citations to assay \\ \hline + assay\_source & Assay source-level annotation \\ \hline + chemical & List of chemicals and associated identifiers \\ \hline + chemical\_library & Map of chemicals to different chemical libraries \\ \hline + citations* & List of citations \\ \hline + gene & Gene* identifiers and descriptions \\ \hline + intended\_target* & Intended assay target at the assay endpoint level \\ \hline + mc5\_fit\_categories & The level 5 fit categories \\ \hline + organism* & Organism identifiers and descriptions \\ \hline + sample & Sample ID information and chemical ID mapping \\ \hline + technological\_target* & Technological assay target at the assay component level \\ \hline + \multicolumn{2}{p{15cm}}{\footnotesize{* indicates tables not currently used by the \texttt{tcpl} package}} + \end{tabular}} + \label{tab:datatbllist} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + aid & Assay ID \\ \hline + asid & Assay source ID \\ \hline + assay\_name & Assay name (abbreviated ``anm'' within the package) \\ \hline + assay\_desc & Assay description \\ \hline + timepoint\_hr & Treatment duration in hours \\ \hline + assay\_footprint & Microtiter plate size$^\dagger$ \\ \hline + \multicolumn{2}{p{12cm}}{\footnotesize{$^\dagger$ discussed further in the ``Register and Upload New Data'' section (page \pageref{sec:newdata})}} + \end{tabular}} +\label{tab:assay} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay\_component.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + acid & Assay component ID \\ \hline + aid & Assay ID \\ \hline + assay\_component\_name & Assay component name (abbreviated ``acnm'' within the package) \\ \hline + assay\_component\_desc & Assay component description \\ \hline + \end{tabular}} +\label{tab:assaycomp} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay\_source.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + asid & Assay source ID \\ \hline + assay\_source\_name & Assay source name (typically an abbreviation of the assay\_source\_long\_name, abbreviated ``asnm'' within the package) \\ \hline + assay\_source\_long\_name & The full assay source name \\ \hline + assay\_source\_description & Assay source description \\ \hline + \end{tabular}} +\label{tab:assaysource} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay\_component\_endpoint.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + aeid & Assay component endpoint ID \\ \hline + acid & Assay component ID \\ \hline + assay\_component\_endpoint\_name & Assay component endpoint name (abbreviated ``aenm'' within the package) \\ \hline + assay\_component\_endpoint\_desc & Assay component endpoint description \\ \hline + export\_ready & 0 or 1, used to flag data as ``done'' \\ \hline + normalized\_data\_type & The units of the normalized data$^\dagger$ \\ \hline + burst\_assay & 0 or 1, 1 indicates the assay results should be used in calculating the burst z-score \\ \hline + fit\_all & 0 or 1, 1 indicates all results should be fit, regardless of whether the $\mathit{max\_med}$ surpasses $3\mathit{bmad}$ \\ \hline + \multicolumn{2}{p{12cm}}{\footnotesize{$^\dagger$ discussed further in the ``Register and Upload New Data'' section (page \pageref{sec:newdata})}} + \end{tabular}} +\label{tab:assaycompend} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in assay\_component\_map table.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + acid & Assay component ID \\ \hline + acsn & Assay component source name \\ \hline + \end{tabular}} +\label{tab:assaycompmap} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in chemical.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + chid & Chemical ID$^\dagger$ \\ \hline + casn & CAS Registry Number \\ \hline + chnm & Chemical name \\ \hline + \multicolumn{2}{p{10cm}}{\footnotesize{$^\dagger$ this is the DSSTox GSID within the ToxCast data, but can be any integer and will be auto-generated (if not explicitly defined) for newly registered chemicals}} + \end{tabular}} +\label{tab:chemical} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in chemical\_library.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + chid & Chemical ID \\ \hline + clib & Chemical library \\ \hline + \end{tabular}} +\label{tab:chemlib} +\end{table} + +\begin{table}[H] + \centering + \caption{Fields in mc5\_fit\_categories table.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + fitc & Fit category \\ \hline + parent\_fitc & Parent fit category \\ \hline + name & Fit category name \\ \hline + xloc & x-axis location for plotting purposes \\ \hline + yloc & y-axis location for plotting purposes \\ \hline + \end{tabular}} +\label{tab:l5fitcategories} +\end{table} + +\begin{table}[H] +\centering +\caption{Fields in sample.} +\noindent\makebox[\textwidth]{ + \begin{tabular}{l p{10cm}} + Field & Description \\ \hline + spid & Sample ID \\ \hline + chid & Chemical ID \\ \hline + stkc & Stock concentration \\ \hline + stkc\_unit & Stock concentration unit \\ \hline + tested\_conc\_unit & The concentration unit for the concentration values in the data-containing tables \\ \hline + spid\_legacy & A place-holder for previous sample ID strings + \end{tabular}} +\label{tab:sample} +\end{table} + +The stock concentration fields in the ``sample'' table allow the user to track the original concentration when the neat sample is solubilized in vehicle before any serial dilutions for testing purposes. + +\clearpage +\section{Level 0 Pre-processing} +\label{app:l0} +\markboth{Level 0 Pre-processing}{} +\thispagestyle{plain} +Level 0 pre-processing can be done on virtually any high-throughput/high-content screening application. In the ToxCast program, level 0 processing is done in R by vendor/dataset-specific scripts. The individual R scripts act as the ``laboratory notebook'' for the data, with all pre-processing decisions clearly commented and explained. + +Level 0 pre-processing has to reformat the raw data into the standard format for the pipeline, and also can make manual changes to the data. All manual changes to the data should be very well documented with justification. Common examples of manual changes include fixing a sample ID typo, or changing well quality value(s) to 0 after finding obvious problems like a plate row/column missing an assay reagent. + +Each row in the level 0 pre-processing data represents one well-assay component combination, containing 11 fields (Table \ref{tab:preproc}). The only field in level 0 pre-processing not stored at level 0 is the assay component source name ($\mathit{acsn}$). The assay component source name should be some concatenation of data from the assay source file that identifies the unique assay components. When the data are loaded into the database, the assay component source name is mapped to assay component ID through the assay\_component\_map table in the \texttt{tcpl} database. Assay components can have multiple assay component source names, but each assay component source name can only map to a single assay component. + +\begin{table}[h!] + \centering + \caption{Required fields in level 0 pre-processing.} + \noindent\makebox[\textwidth]{ + \begin{tabular}{l p{8cm} c} + Field & Description & N/A \\ \hline + acsn & Assay component source name & No \\ \hline + spid & Sample ID & No \\ \hline + cpid & Chemical plate ID & Yes \\ \hline + apid & Assay plate ID & Yes \\ \hline + rowi & Assay plate row index, as an integer & Yes \\ \hline + coli & Assay plate column index, as an integer & Yes \\ \hline + wllt & Well type & No \\ \hline + wllq & 1 if the well quality was good, else 0 & No \\ \hline + conc & Concentration in micromolar & No$^\dagger$ \\ \hline + rval & Raw assay component value/readout from vendor & Yes$^\ddagger$ \\ \hline + srcf & Filename of the source file containing the data & No \\ \hline + \multicolumn{3}{l}{\footnotesize{The N/A column indicates whether the field can be N/A in the pre-processed data.}} \\[-8pt] + \multicolumn{3}{p{10cm}}{\footnotesize{$^\dagger$Concentration can be N/A for control values only tested at a single concentration. Concentration cannot be N/A for any test compound (well type of ``t'') data.}} \\[-8pt] + \multicolumn{3}{p{10cm}}{\footnotesize{$^\ddagger$If the raw value is N/A, well type has to be 0.}} + \end{tabular}} +\label{tab:preproc} +\end{table} + +The well type field is used in the processing to differentiate controls from test compounds in numerous applications, including normalization and definition of the assay noise level. Currently, the \texttt{tcpl} package includes the eight well types in Table \ref{tab:wllt}. Package users are encouraged to suggest new well types and methods to better accommodate their data. + + \begin{table}[h!] + \centering + \caption{Well types} + \noindent\makebox[\textwidth]{ + \begin{tabular}{c p{10cm}} + Well Type & Description \\ \hline + t & Test compound \\ \hline + c & Gain-of-signal control in multiple concentrations \\ \hline + p & Gain-of-signal control in single concentration \\ \hline + n & Neutral/negative control \\ \hline + m & Loss-of-signal control in multiple concentrations \\ \hline + o & Loss-of-signal control in single concentration \\ \hline + b & Blank well \\ \hline + v & Viability control \\ \hline + \end{tabular}} +\label{tab:wllt} +\end{table} + +The final step in level 0 pre-processing is loading the data into the \texttt{tcpl} database. The \texttt{tcpl} package includes the \texttt{tcplWriteLvl0} function to load data into the database. The \texttt{tcplWriteLvl0} function maps the assay component source name to the appropriate assay component ID, checks each field for the correct class, and checks the database for the sample IDs with well type ``t.'' Each test compound sample ID must be included in the \texttt{tcpl} database before loading data. The \texttt{tcplWriteLvl0} also checks each test compound for concentration values. + +\clearpage +\section{Cytotoxicity Distribution} +\label{app:cyto} +\markboth{Cytotoxicity Distribution}{} +\thispagestyle{plain} +Recognizing the susbtantial impact of cytotoxicity in confounding high-throughput and high-content screening results, the \texttt{tcpl} package includes methodology for defining chemical-specific cytotoxicity estimates. Our observations based on ToxCast data suggest a complex, and not-yet fully understood, cellular biology that includes non-specific activation of many targets as cells approach death. For example, a chemical may induce activity in an estrogen-related assay, but if that chemical also causes activity in hundreds of other assays at or around the same concentration as cytotoxicity, should the chemical be called an estrogen agonist? The \texttt{tcplCytoPt} function provides an estimate of chemical-specific cytotoxicity points to provide some context to the ``burst'' phenomenon. + +The cytotoxicity point is simply the median AC$_{50}$ for a set of assay endpoints, either given by the user or defined within the \texttt{tcpl} database. By default, the \texttt{tcplCytoPt} function uses the assay endpoints listed in the $\mathit{burst\_assay}$ field of the ``assay\_component\_endpoint'' table, where 1 indicates to include the assay endpoint in the calculation. The ``burst'' assay endpoints can be indentified by running \texttt{tcplLoadAeid(fld = "burst\_assay", val = 1)}. + +In addition to the cytotoxicity point, \texttt{tcplCytoPt} provides two additional estimates: (1) the MAD of the AC$_{50}$ ($\mathit{modl\_ga}$) values used to calculate the cytotoxicity point, and (2) the global MAD. Note, only active assay endpoints (where the hit-call, $\mathit{hitc}$, equals $1$) are included in the calculations. Once the burst distribution (cytotoxicity point and MAD) is defined for each chemical, the global burst MAD is defined as the median of the MAD values. Not every chemcial may be tested in every ``burst'' assay, so the user can determine the minimum number of tested assays as a condition for the MAD value for a particular chemical to be included in the global MAD calculation. By default, if ``aeid'' is the vector of assay endpoints used in the calculation, \texttt{tcplCytoPt} requires the chemical to tested in at least \texttt{floor(0.8 * length(aeid))} assay endpoints to be included in the calculation. The user can specify to include all calculated MAD values (note, there must be at least two active assay endpoints to calculate the MAD) by setting `min.test' to \texttt{FALSE}. The `min.test' parameter also accepts a number, allowing the user to explicitly set the requirement. + +The global MAD gives an estimate of overall cytotoxicity window, and allows for a cytotoxicity distrubtion to be determined for chemicals with less than two active ``burst'' assay endpoints. The cytotoxicity point for chemicals with less two active ``burst'' endpoints is set to the value given to the `default.pt' parameter. By default the \texttt{tcplCytoPt} assigns `default.pt' to 3.\footnote{$10^3 = 1000$, therefore, when using micromolar units, $3$ is equivalent to $1$ millimolar. $1$ millimolar was chosen as an arbitrary high concentration (outside the testing range for ToxCast data), based on the principle all compounds are toxic if given in high enough concentration.} + + +\clearpage +\section{Build Variable Matrices} +\label{app:mats} +\markboth{Build Variable Matrices}{} +\thispagestyle{plain} +The \texttt{tcplVarMat} function creates chemical-by-assay matrices for the level 4 and level 5 data. When multiple sample-assay series exist for one chemical, a single series is selected by the \texttt{tcplSubsetChid} function. See \texttt{?tcplSubsetChid} for more information. + +\begin{enumerate} + \item ``modl\_ga'' -- The $\log_{10}\mathit{AC_{50}}$ (in the gain direction) for the winning model. + \item ``hitc'' -- The hit-call for the winning model. + \item ``m4id'' -- The m4id, listing the concentration series selected by \texttt{tcplSubsetChid}. + \item ``zscore'' -- The z-score (described below). + \item ``tested'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in either the single- or multiple-concentration format. + \item ``tested\_sc'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in the single-concentration format + \item ``tested\_mc'' -- $1$ or $0$, $1$ indicating the chemical/assay pair was tested in the multiple-concentration format + \item ``ac50'' -- a modified AC$_{50}$ table (in non-log units) where assay/chemical pairs that were not tested, or tested and had a hitcall of $0$ or $-1$ have the value $1e6$. + \item ``neglogac50'' -- $-\log_{10}\frac{\mathit{AC_{50}}}{1e6}$ where assay/chemical pairs that were not tested, or tested and had a hitcall of $0$ or $-1$ have the value $0$. +\end{enumerate} + +The z-score calculation is based on the output from \texttt{tcplCytoPt} (Appendix \ref{app:cyto}), and is calculated for each AC$_{50}$ value as follows: +\begin{equation} +\label{eq:zscore} +\mathit{z\-score} = -\frac{\mathit{modl\_ga} - \mathit{cyto\_pt}}{\mathit{global\_mad}}\mathrm{,} +\end{equation} +Note: the burst z-score values are multiplied by -1 to make values that are more potent relative to the burst distribution a higher positive z-score. + +In addition the the standard matrices, additional matrices can be defined by the `add.vars' parameter in the \texttt{tcplVarMat} function. The `add.vars' function will take any level 4 or level 5 field and create the respective matrix. + + +\end{document} + + + +