Abstract

Using a multi-phase field model, we examine how particle deformability, which is a proxy for cell stiffness, affects motility induced phase separation (MIPS). We show that purely repulsive deformable, i.e., squishy, cells phase separate more effectively than their rigid counterparts. This can be understood as due to the fact that deformability increases the effective duration of collisions. In addition, the dense regions become increasingly disordered as deformability increases. Our results contextualize the applicability of MIPS to biological systems and have implications for how cells in biological systems may self-organize.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Microbial biofilms are shaped by the constant dialogue between biological and physical forces in the extracellular matrix.
Lan Li Wong ... Atul N Parikh
Environmental Microbiology | VOL. 25
Lan Li Wong, et. al.Lan Li Wong ... Atul N Parikh
23 Dec 2022
Biased motility-induced phase separation: from chemotaxis to traffic jams
Eric Bertin ... Alexandre Solon
Journal of Statistical Mechanics: Theory and Experiment | VOL. 2024
Eric Bertin, et. al.Eric Bertin ... Alexandre Solon
30 Apr 2024
Motility-induced clustering and meso-scale turbulence in active polar fluids
Vasco M Worlitzer ... Markus Bär
New journal of physics | VOL. 23
Vasco M Worlitzer, et. al.Vasco M Worlitzer ... Markus Bär
01 Mar 2021
Systematic extension of the Cahn-Hilliard model for motility-induced phase separation.
Lisa Rapp ... Fabian Bergmann
The European Physical Journal B - Condensed Matter | VOL. 42
Lisa Rapp, et. al.Lisa Rapp ... Fabian Bergmann
01 May 2019
View more papers

More From: Soft matter

Paper Title
Journal
Date
Author
Drop impact on wet granular beds: effects of water-content on cratering.
Wei Zhang ... Ken Yamamoto
Soft matter | VOL. -
Wei Zhang, et. al.Wei Zhang ... Ken Yamamoto
27 Jun 2024
Structured bubbling in vibrated gas-fluidized beds of binary granular particles: experiments and simulations.
Jagan Mohan Sanghishetty ... Christopher M Boyce
Soft matter | VOL. -
Jagan Mohan Sanghishetty, et. al.Jagan Mohan Sanghishetty ... Christopher M Boyce
21 Jun 2024
Swimmers at interfaces enhance interfacial transport.
Jiayi Deng ... Kathleen J Stebe
Soft matter | VOL. -
Jiayi Deng, et. al.Jiayi Deng ... Kathleen J Stebe
21 Jun 2024
Influence of bacterial swimming and hydrodynamics on attachment of phages.
Christoph Lohrmann ... Sujit Sankar Datta
Soft matter | VOL. 20
Christoph Lohrmann, et. al.Christoph Lohrmann ... Sujit Sankar Datta
20 Jun 2024
View more papers