Phototaxis in Cyanobacteria: From Mutants to Models of Collective Behavior

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Abstract

Cyanobacteria rely on photosynthesis, and thus have evolved complex responses to light. These include phototaxis, the ability of cells to sense light direction and move towards or away from it. Analysis of mutants has demonstrated that phototaxis requires the coordination of multiple photoreceptors and signal transduction networks. The output of these networks is relayed to type IV pili (T4P) that attach to and exert forces on surfaces or other neighboring cells to drive "twitching" or "gliding" motility. This, along with the extrusion of polysaccharides or "slime" by cells, facilitates the emergence of group behavior. We evaluate recent models that describe the emergence of collective colony-scale behavior from the responses of individual, interacting cells. We highlight the advantages of "active matter" approaches in the study of bacterial communities, discussing key differences between emergent behavior in cyanobacterial phototaxis and similar behavior in chemotaxis or quorum sensing.

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Menon, S. N., Varuni, P., Bunbury, F., Bhaya, D., & Menon, G. I. (2021). Phototaxis in Cyanobacteria: From Mutants to Models of Collective Behavior. MBio, 12(6). https://doi.org/10.1128/mBio.02398-21

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