Monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software
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-throughput curation with a novel leveraged editing procedure. We demonstrate the power of the method by uncovering several novel features of an iconic gene regulatory program: the induction of Escherichia coli's lac operon in response to a switch from glucose to lactose.
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dig-wur-nl-wurpubs-6046922024-12-04 Kaiser, Matthias Jug, Florian Julou, Thomas Deshpande, Siddharth Pfohl, Thomas Silander, Olin K. Myers, Gene Van Nimwegen, Erik Article/Letter to editor Nature Communications 9 (2018) ISSN: 2041-1723 Monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software 2018 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-throughput curation with a novel leveraged editing procedure. We demonstrate the power of the method by uncovering several novel features of an iconic gene regulatory program: the induction of Escherichia coli's lac operon in response to a switch from glucose to lactose. en text/html https://research.wur.nl/en/publications/monitoring-single-cell-gene-regulation-under-dynamically-controll 10.1038/s41467-017-02505-0 https://edepot.wur.nl/581248 Life Science https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Life Science Life Science Kaiser, Matthias Jug, Florian Julou, Thomas Deshpande, Siddharth Pfohl, Thomas Silander, Olin K. Myers, Gene Van Nimwegen, Erik Monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software |
| description |
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-throughput curation with a novel leveraged editing procedure. We demonstrate the power of the method by uncovering several novel features of an iconic gene regulatory program: the induction of Escherichia coli's lac operon in response to a switch from glucose to lactose. |
| format |
Article/Letter to editor |
| topic_facet |
Life Science |
| author |
Kaiser, Matthias Jug, Florian Julou, Thomas Deshpande, Siddharth Pfohl, Thomas Silander, Olin K. Myers, Gene Van Nimwegen, Erik |
| author_facet |
Kaiser, Matthias Jug, Florian Julou, Thomas Deshpande, Siddharth Pfohl, Thomas Silander, Olin K. Myers, Gene Van Nimwegen, Erik |
| author_sort |
Kaiser, Matthias |
| title |
Monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software |
| title_short |
Monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software |
| title_full |
Monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software |
| title_fullStr |
Monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software |
| title_full_unstemmed |
Monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software |
| title_sort |
monitoring single-cell gene regulation under dynamically controllable conditions with integrated microfluidics and software |
| url |
https://research.wur.nl/en/publications/monitoring-single-cell-gene-regulation-under-dynamically-controll |
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