Preprint Highlight: Evolution of selfish multicellularity collective organisation of individual spatio-temporal regulatory strategies
Significance Statement
In origins-of-life studies, how interactions between unicellular individuals give rise to multicellular organisms is an open question. Presumably, the evolution of cell adhesion enables responses to emergent selection pressures, driving cell collective formation, and migration.
This study implements a multiscale computational model of unicellular individuals possessing regulatory gene networks and evolvable adhesion proteins, or not, within changing environments. In an initial environment that is resource limited, cells with evolvable adhesions divide first and migrate as a cluster later, exploiting cooperativity to move toward resource-abundant locations as a collective while maximizing lineage propagation.
This link between the evolution of resource competition dynamics and cellular adhesion interactions provides insight into how unicellular ancestors might have made the progression to multicellular collectives.
This preprint has been assigned the following badges: Open Data, Open Software, New Hypothesis, Cross-Species.
Read the preprint on bioRxiv (Vroomans and Colizzi, 2022): https://doi.org/10.1101/2022.04.08.487695.
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FOOTNOTES
Cite this Preprint Highlight: DOI:10.1091/mbc.P22-07-1004
MBoC's Preprint Highlights are commentaries written by Early-Career Editors on recent preprints of interest. They do not constitute peer review or imply publication of the original preprint by MBoC. For more information, visit https://www.molbiolcell.org/curation-tools.
