The extraction of fluorescence time course data is a major bottleneck in high-throughput live-cell microscopy. Here we present an extendible framework based on the open-source image analysis software ImageJ, which aims in particular at analyzing the expression of fluorescent reporters through cell divisions. The ability to track individual cell lineages is essential for the analysis of gene regulatory factors involved in the control of cell fate and identity decisions. In our approach, cell nuclei are identified using Hoechst, and a characteristic drop in Hoechst fluorescence helps to detect dividing cells. We first compare the efficiency and accuracy of different segmentation methods and then present a statistical scoring algorithm for cel...
Current chemical biology methods for studying spatiotemporal correlation between biochemical network...
Live cell time-lapse microscopy, a widely-used technique to study gene expression and protein dynami...
We present a new, robust, computational procedure for tracking fluorescent markers in time-lapse mic...
The extraction of fluorescence time course data is a major bottleneck in high-throughput live-cell m...
The extraction of fluorescence time course data is a major bottleneck in high-throughput live-cell m...
The comprehensive reconstruction of cell lineages in complex multicellular organisms is a central go...
The analysis of time lapse data becomes a more and more important tool in (stem) cell biology, as th...
With phenotypic heterogeneity in whole cell populations widely recognised, the demand for quantitati...
International audienceFluorescence time-lapse imaging has become a powerful tool to investigate comp...
Fluorescence and bioluminescence time-lapse imaging allows to investigate a vast range of cellular p...
Live-cell imaging experiments have opened an exciting window into the behavior of living systems. Wh...
Motivation: Complete, accurate and reproducible analysis of intracellular foci from fluorescence mic...
BackgroundAnalysis of single cells in their native environment is a powerful method to address key q...
Background: High-throughput live-cell imaging is a powerful tool to study dynamic cellular processes...
Abstract — Automated visual-tracking of cell populations in vitro using phase contrast time-lapse mi...
Current chemical biology methods for studying spatiotemporal correlation between biochemical network...
Live cell time-lapse microscopy, a widely-used technique to study gene expression and protein dynami...
We present a new, robust, computational procedure for tracking fluorescent markers in time-lapse mic...
The extraction of fluorescence time course data is a major bottleneck in high-throughput live-cell m...
The extraction of fluorescence time course data is a major bottleneck in high-throughput live-cell m...
The comprehensive reconstruction of cell lineages in complex multicellular organisms is a central go...
The analysis of time lapse data becomes a more and more important tool in (stem) cell biology, as th...
With phenotypic heterogeneity in whole cell populations widely recognised, the demand for quantitati...
International audienceFluorescence time-lapse imaging has become a powerful tool to investigate comp...
Fluorescence and bioluminescence time-lapse imaging allows to investigate a vast range of cellular p...
Live-cell imaging experiments have opened an exciting window into the behavior of living systems. Wh...
Motivation: Complete, accurate and reproducible analysis of intracellular foci from fluorescence mic...
BackgroundAnalysis of single cells in their native environment is a powerful method to address key q...
Background: High-throughput live-cell imaging is a powerful tool to study dynamic cellular processes...
Abstract — Automated visual-tracking of cell populations in vitro using phase contrast time-lapse mi...
Current chemical biology methods for studying spatiotemporal correlation between biochemical network...
Live cell time-lapse microscopy, a widely-used technique to study gene expression and protein dynami...
We present a new, robust, computational procedure for tracking fluorescent markers in time-lapse mic...