Much is still not understood about how gene regulatory interactions control cell fate decisions in single cells, in part due to the difficulty of directly observing gene regulatory processes in vivo. We introduce here a novel integrated setup consisting of a microfluidic chip and accompanying analysis software that enable long-term quantitative tracking of growth and gene expression in single cells. The dual-input Mother Machine (DIMM) chip enables controlled and continuous variation of external conditions, allowing direct observation of gene regulatory responses to changing conditions in single cells. The Mother Machine Analyzer (MoMA) software achieves unprecedented accuracy in segmenting and tracking cells, and streamlines high-throughpu...
BACKGROUND:Imaging single cells with fluorescent markers over multiple cell cycles is a powerful too...
Technological advances in molecular biology over the last several decades have enabled researchers t...
Gene networks and signaling pathways display complex topologies and, as a result, complex nonlinear ...
Much is still not understood about how gene regulatory interactions control cell fate decisions in s...
Much is still not understood about how gene regulatory interactions control cell fate decisions in s...
Bacteria are exposed to fluctuations in their environment and can respond to such changes by regulat...
Recent progress in reconstructing gene regulatory networks has established a framework for a quantit...
Over the past decade, interest in microfluidics has surged as applications have trended towards nove...
We present a microfluidic system that facilitates long-term measurements of single cell response to ...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Dynamic environments are commonplace in the natural world, from fluctuations in nutrient sources tha...
International audienceBy implementing an external feedback loop one can tightly control the expressi...
Gene networks and signaling pathways display complex topologies and, as a result, complex nonlinear ...
International audienceGene expression plays a central role in the orchestration of cellular processe...
Observation of single-cell behavior has become increasingly important to our understanding of comple...
BACKGROUND:Imaging single cells with fluorescent markers over multiple cell cycles is a powerful too...
Technological advances in molecular biology over the last several decades have enabled researchers t...
Gene networks and signaling pathways display complex topologies and, as a result, complex nonlinear ...
Much is still not understood about how gene regulatory interactions control cell fate decisions in s...
Much is still not understood about how gene regulatory interactions control cell fate decisions in s...
Bacteria are exposed to fluctuations in their environment and can respond to such changes by regulat...
Recent progress in reconstructing gene regulatory networks has established a framework for a quantit...
Over the past decade, interest in microfluidics has surged as applications have trended towards nove...
We present a microfluidic system that facilitates long-term measurements of single cell response to ...
Progress in synthetic biology requires the development of novel techniques for investigating long-te...
Dynamic environments are commonplace in the natural world, from fluctuations in nutrient sources tha...
International audienceBy implementing an external feedback loop one can tightly control the expressi...
Gene networks and signaling pathways display complex topologies and, as a result, complex nonlinear ...
International audienceGene expression plays a central role in the orchestration of cellular processe...
Observation of single-cell behavior has become increasingly important to our understanding of comple...
BACKGROUND:Imaging single cells with fluorescent markers over multiple cell cycles is a powerful too...
Technological advances in molecular biology over the last several decades have enabled researchers t...
Gene networks and signaling pathways display complex topologies and, as a result, complex nonlinear ...