Issue 47, 2021

Pattern formation, localized and running pulsation on active spherical membranes

Abstract

Active force generation by an actin-myosin cortex coupled to a cell membrane allows the cell to deform, respond to the environment, and mediate cell motility and division. Several membrane-bound activator proteins move along it and couple to the membrane curvature. Besides, they can act as nucleating sites for the growth of filamentous actin. Actin polymerization can generate a local outward push on the membrane. Inward pull from the contractile actomyosin cortex can propagate along the membrane via actin filaments. We use coupled evolution of fields to perform linear stability analysis and numerical calculations. As activity overcomes the stabilizing factors such as surface tension and bending rigidity, the spherical membrane shows instability towards pattern formation, localized pulsation, and running pulsation between poles. We present our results in terms of phase diagrams and evolutions of the coupled fields. They have relevance for living cells and can be verified in experiments on artificial cell-like constructs.

Graphical abstract: Pattern formation, localized and running pulsation on active spherical membranes

Supplementary files

Article information

Article type
Paper
Submitted
24 Jun 2021
Accepted
10 Sep 2021
First published
13 Sep 2021

Soft Matter, 2021,17, 10614-10627

Pattern formation, localized and running pulsation on active spherical membranes

S. Ghosh, S. Gutti and D. Chaudhuri, Soft Matter, 2021, 17, 10614 DOI: 10.1039/D1SM00937K

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