Author: Chen, Yuping; Ferrell, James E
Title: C. elegans colony formation as a condensation phenomenon. Cord-id: ufyjt04u Document date: 2021_8_16
ID: ufyjt04u
Snippet: Phase separation at the molecular scale affects many biological processes. The theoretical requirements for phase separation are fairly minimal, and there is growing evidence that analogous phenomena occur at other scales in biology. Here we examine colony formation in the nematode C. elegans as a possible example of phase separation by a population of organisms. The population density of worms determines whether a colony will form in a thresholded fashion, and a simple two-compartment ordinary
Document: Phase separation at the molecular scale affects many biological processes. The theoretical requirements for phase separation are fairly minimal, and there is growing evidence that analogous phenomena occur at other scales in biology. Here we examine colony formation in the nematode C. elegans as a possible example of phase separation by a population of organisms. The population density of worms determines whether a colony will form in a thresholded fashion, and a simple two-compartment ordinary differential equation model correctly predicts the threshold. Furthermore, small, round colonies sometimes fuse to form larger, round colonies, and a phenomenon akin to Ostwald ripening - a coarsening process seen in many systems that undergo phase separation - also occurs. These findings support the emerging view that the principles of microscopic phase separation can also apply to collective behaviors of living organisms.
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