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The environment topography alters the way to multicellularity in Myxococcus xanthus.

Corina H RamosEdna Rodríguez-SánchezJuan Antonio Arias Del AngelAlejandro V ArzolaMariana BenítezAna E EscalanteAlessio FranciGiovanni VolpeNatsuko Rivera-Yoshida
Published in: Science advances (2021)
The social soil-dwelling bacterium Myxococcus xanthus can form multicellular structures, known as fruiting bodies. Experiments in homogeneous environments have shown that this process is affected by the physicochemical properties of the substrate, but they have largely neglected the role of complex topographies. We experimentally demonstrate that the topography alters single-cell motility and multicellular organization in M. xanthus In topographies realized by randomly placing silica particles over agar plates, we observe that the cells' interaction with particles drastically modifies the dynamics of cellular aggregation, leading to changes in the number, size, and shape of the fruiting bodies and even to arresting their formation in certain conditions. We further explore this type of cell-particle interaction in a computational model. These results provide fundamental insights into how the environment topography influences the emergence of complex multicellular structures from single cells, which is a fundamental problem of biological, ecological, and medical relevance.
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