netZooR is a network biology package implemented in R.
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Updated
Jun 26, 2024 - R
netZooR is a network biology package implemented in R.
🎯 Human transcription factor target genes from 6 databases in convenient R format.
BITFAM is a Bayesian approach and platform to infer transcription factor activities within individual cells using single cell RNA-sequencing data. Please see Gao S et al., Genome Research (2021) https://genome.cshlp.org/content/31/7/1296 for details.
🐛 How to use CENTIPEDE to determine if a transcription factor is bound.
Parse TF motifs from public databases, read into R, and scan using 'rtfbs'.
Read HOMER motif analysis output in R.
7C: Computational Chromosome Conformation Capture by Correlation of ChIP-seq at CTCF motifs
A “data light” TF-network mapping algorithm using only gene expression and genome sequence data.
Analysis of Single Molecule Footprinting (SMF) data for the analysis of DNA methylation, chromatin accessibility and TF binding. The repository contains all primary code to reproduce the main analyses for the publication "Single molecule footprinting identifies context-dependent regulation of enhancers by DNA methylation" (Kreibich et al., 2023)
An R package to access, manage and visualize regulome (microRNA/transcription factors)-gene correlations in cancer
Code and resources related to the olfactory regeneration project
This is the fork of the Bioconductor-mirror repository. Package Homepage: http://bioconductor.org/packages/devel/bioc/html/chipenrich.html Bug Reports: https://support.bioconductor.org/p/new/post/?tag_val=chipenrich.
Identification of enriched motif pairs from chromatin interaction data
geneXtendeR analysis on 547 ENCODE ChIP-seq datasets for both proximal and distal transcription factor (TF) binding peaks for all cell types
miRinGO: Prediction of GO terms indirectly targeted by human microRNAs
An R package to access, manage and visualize regulome (microRNA/transcription factors)-gene correlations in cancer
ForkedTF is an R-library that introduces Forked-PMW (FPMW) and Forked-Sequence Logos (F-Logos) to provide a more comprehensive depiction of the sequence affinity of a Transcription factor (TF) of interest, including its DNA sequence and DNA methylation level, along with a segregated list of partner TFs.
CMTCN: A web tool for investigating cancer-specific microRNA and transcription factor co-regulatory networks
Scripts for reproducing the poster: Co-regulation of RKIP and autophagy genes by VEZF1 and ERCC6 in prostate cancer
A research compendium: Transcriptional regulation of autophagy during adipocyte differentiation
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