Our understanding of dynamic cellular processes has been greatly enhanced by rapid advances in quantitative fluorescence microscopy. Imaging single cells has emphasized the prevalence of phenomena that can be difficult to infer from population measurements, such as all-or-none cellular decisions, cell-to-cell variability, and oscillations. Examination of these phenomena requires segmenting and tracking individual cells over long periods of time. However, accurate segmentation and tracking of cells is difficult and is often the rate-limiting step in an experimental pipeline. Here, we present an algorithm that accomplishes fully automated segmentation and tracking of budding yeast cells within growing colonies. The algorithm incorporates prio...
Cell growth experiments with a microfluidic device produce large scale time-lapse image data, which ...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
The budding yeast Saccharomyces cerevisiae is an excellent model organism to dissect the maintenance...
<div><p>Our understanding of dynamic cellular processes has been greatly enhanced by rapid advances ...
Our understanding of dynamic cellular processes has been greatly enhanced by rapid advances in quant...
Live cell time-lapse microscopy, a widely-used technique to study gene expression and protein dynami...
Live cell time-lapse microscopy, a widely-used technique to study gene expression and protein dynami...
Quantification of protein abundance and subcellular localization dynamics from fluorescence microsco...
The tracking of cell populations in time-lapse microscopy images enables high-throughput spatiotempo...
Quantification of protein abundance and subcellular localization dynamics from fluorescence microsco...
Quantification of protein abundance and subcellular localization dynamics from fluorescence microsco...
The identification of cell borders ('segmentation') in microscopy images constitutes a bottleneck fo...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
Cell growth experiments with a microfluidic device produce large scale time-lapse image data, which ...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
The budding yeast Saccharomyces cerevisiae is an excellent model organism to dissect the maintenance...
<div><p>Our understanding of dynamic cellular processes has been greatly enhanced by rapid advances ...
Our understanding of dynamic cellular processes has been greatly enhanced by rapid advances in quant...
Live cell time-lapse microscopy, a widely-used technique to study gene expression and protein dynami...
Live cell time-lapse microscopy, a widely-used technique to study gene expression and protein dynami...
Quantification of protein abundance and subcellular localization dynamics from fluorescence microsco...
The tracking of cell populations in time-lapse microscopy images enables high-throughput spatiotempo...
Quantification of protein abundance and subcellular localization dynamics from fluorescence microsco...
Quantification of protein abundance and subcellular localization dynamics from fluorescence microsco...
The identification of cell borders ('segmentation') in microscopy images constitutes a bottleneck fo...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
Cell growth experiments with a microfluidic device produce large scale time-lapse image data, which ...
Time lapse microscopy images are an important support in quantitative biology. Gene circuit dynamics...
The budding yeast Saccharomyces cerevisiae is an excellent model organism to dissect the maintenance...