4. Tracking

Single-particle tracking (SPT)

There are a few different techniques to interrogate the dynamic organization of molecules in cells. One is fluorescence recovery after photobleaching (FRAP), based on an ensemble measurement of fluorescent molecules. Fluorescence correlation spectroscopy (FCS) is an alternative and detects molecules while they pass through the confocal volume of a microscope. The capabilities of FCS can be extended for example by varying the size of the confocal volume or performing measurements at different positions.

Conceptionally different, single-particle tracking (SPT) directly follows labeled particles while recording their movement. The resulting trajectory of a particle in its native cellular environment then allows extracting for example the diffusion characteristics or confinement status (i.e. if the particle is trapped or immobilized). A particle here can be anything that can be tracked, a bead, a virus or even a single molecule.

sptPALM is a variant of PALM imaging using photo-activatable/convertible proteins. sptPALM makes good use of the fact that activated molecules stay one for a few frames before they bleach. In a live cell environment, this time can be used to follow the molecule and obtain information about its diffusional state. The example on right shows a short PALM sequence (mEos3) that after localization could then be used for tracking. See the S/N ratio compared with STORM shown here.

The first steps of a possible analysis procedure are described below.

Connecting the dots (scripts can be found here.

1. Following image acquisition, the localization and filtering are performed as described here_
2. Open the script tracking_Crocker_Grier.mand load the csv localization file

This script allows examining the dataset, perform the tracking on a selected region and export the trajectories to interact with other software.

3. The first box shows a scatter and density plot together with the STD sum of the image stack inspect the dataset. As you can see, for a dense dataset the scatter plot is less informative, but the density plot makes it much easier to see interesting areas within the image.
   
   
4. Select a region of interest to perform the tracking. This cell renders the dataset with a large pixel size (result similar to density plot, but faster) to identify regions with potential interest.
5. Select a region of interest to perform the tracking. This cell renders the dataset with a large pixel size (result similar to density plot, but faster) to identify regions with potential interest.