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Origin of yield stress and mechanical plasticity in model biological tissues

Anh Q. Nguyen, Junxiang Huang and Dapeng Bi ()
Additional contact information
Anh Q. Nguyen: Northeastern University
Junxiang Huang: Northeastern University
Dapeng Bi: Northeastern University

Nature Communications, 2025, vol. 16, issue 1, 1-12

Abstract: Abstract During development and under normal physiological conditions, biological tissues are continuously subjected to substantial mechanical stresses. In response to large deformations, cells in a tissue must undergo multicellular rearrangements to maintain integrity and robustness. However, how these events are connected in time and space remains unknown. Here, using theoretical modeling, we study the mechanical plasticity of cell monolayers under large deformations. Our results suggest that the jamming-unjamming (solid-fluid) transition can vary significantly depending on the degree of deformation, implying that tissues are highly unconventional materials. We elucidate the origins of this behavior. We also demonstrate how large deformations are accommodated through a series of cellular rearrangements, similar to avalanches in non-living materials. We find that these ‘tissue avalanches’ are governed by stress redistribution and the spatial distribution of “soft” or vulnerable spots, which are more prone to undergo rearrangements. Finally, we propose a simple and experimentally accessible framework to infer tissue-level stress and predict avalanches based on static images.

Date: 2025
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DOI: 10.1038/s41467-025-58526-7

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