Memory and Modularity in Cell-Fate Decision Making
Citation
Norman, Thomas M., Nathan D. Lord, Johan Paulsson, and Richard Losick. 2014. “Memory and Modularity in Cell-Fate Decision Making.” Nature 503 (7477): 481-486. doi:10.1038/nature12804. http://dx.doi.org/10.1038/nature12804.Abstract
Genetically identical cells sharing an environment can display markedly different phenotypes. It is often unclear how much of this variation derives from chance, external signals, or attempts by individual cells to exert autonomous phenotypic programs. By observing thousands of cells for hundreds of consecutive generations under constant conditions, we dissect the stochastic decision between a solitary, motile state and a chained, sessile state in Bacillus subtilis. The motile state is memoryless, exhibiting no autonomous control over the time spent in the state, whereas chaining is tightly timed. Timing enforces coordination among related cells in the multicellular state. Further, we show that the three-protein regulatory circuit governing the decision is modular, as initiation and maintenance of chaining are genetically separable functions. As stimulation of the same initiating pathway triggers biofilm formation, we argue that autonomous timing allows a trial commitment to multicellularity that external signals could extend.Other Sources
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4019345/pdf/Terms of Use
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