Entropy-driven cell decision-making predicts ‘fluid-to-solid’ transition in multicellular systems

Arnab Barua; Simon Syga; Pietro Mascheroni; Nikos I. Kavallaris; Michael Meyer-Hermann; Andreas Deutsch; Haralampos Hatzikirou

doi:https://doi.org/10.1088/1367-2630/abcb2e

doi.org/10.1088/1367-2630/abcb2e

Entropy-driven cell decision-making predicts ‘fluid-to-solid’ transition in multicellular systems

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..., Haralampos Hatzikirou

21

New Journal of Physics3.30

Volume: 22, Issue: 12, Pages: 123034 - 123034

Published: Dec 1, 2020

Abstract

Cellular decision making allows cells to assume functionally different phenotypes in response to microenvironmental cues, with or without genetic change. It is an open question, how individual cell decisions influence the dynamics at the tissue level. Here, we study spatio-temporal pattern formation in a population of cells exhibiting phenotypic plasticity, which is a paradigm of cell decision making. We focus on the migration/resting and the...

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Paper Details

Title

Entropy-driven cell decision-making predicts ‘fluid-to-solid’ transition in multicellular systems

DOI

doi.org/10.1088/1367-2630/abcb2e

Published Date

Dec 1, 2020

Journal

New Journal of Physics

Volume

22

Issue

12

Pages

123034 - 123034

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