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Peter Yunker - Assistant Professor
Summary Sentence: Join the School of Physics as they present their Soft Condensed Matter & Physics of Living Systems Seminar featuring guest speaker Oskar Hallatschek.
Full Summary: No summary paragraph submitted.
Oskar HallatschekOskar Hallatschek, Professor, University of California, Berkeley
Abstract:
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 single-cell forces combine to generate population-level patterns.
I present a synthesis of theory and microbial experiments that show that contacted forces generated by microbial populations can become very large due to a self-driven jamming mechanism. These forces feed back on the physiology of the cells and can strongly perturb the mechanical integrity of the environment, thereby promoting microbial invasion. Finally, I highlight that the cooperative nature of microbial force generation induces a screening effect that reduces the selection against slower growing mutant types. These results underscore that, in crowded microbial populations, collective phenomena often have a mechanical basis.
Oskar Hallatschek's University of California, Berkeley Profile
