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Article Dans Une Revue Nature Physics Année : 2016

Self-Driven Jamming in Growing Microbial Populations

Résumé

In natural settings, microbes tend to grow in dense populations where they need to push against their surroundings to accommodate space for new cells. The associated contact forces play a critical role in a variety of population-level processes, including biofilm formation, the colonization of porous media, and the invasion of biological tissues. Although mechanical forces have been characterized at the single-cell level, it remains elusive how collective pushing forces result from the combination of single-cell forces. Here, we reveal a collective mechanism of confinement, which we call self-driven jamming, that promotes the build-up of large mechanical pressures in microbial populations. Microfluidic experiments on budding yeast populations in space-limited environments show that self-driven jamming arises from the gradual formation and sudden collapse of force chains driven by microbial proliferation, extending the framework of driven granular matter. The resulting contact pressures can become large enough to slow down cell growth, to delay the cell cycle in the G1 phase, and to strain or even destroy the micro-environment through crack propagation. Our results suggest that self-driven jamming and build-up of large mechanical pressures is a natural tendency of microbes growing in confined spaces, contributing to microbial pathogenesis and biofouling.
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Dates et versions

hal-02273763 , version 1 (29-08-2019)

Identifiants

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Morgan Delarue, Jörn Hartung, Carl Schreck, Pawel Gniewek, Lucy Hu, et al.. Self-Driven Jamming in Growing Microbial Populations. Nature Physics, 2016, 12 (8), pp.762-766. ⟨10.1038/nphys3741⟩. ⟨hal-02273763⟩
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