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Reaction-diffusion waves coupled with membrane curvature

Naoki Tamemoto, Hiroshi Noguchi

2021Soft Matter28 citationsDOIOpen Access PDF

Abstract

The reaction-diffusion waves of proteins are known to be involved in fundamental cellular functions, such as cell migration, cell division, and vesicular transportation. In some of these phenomena, pattern formation on the membranes is induced by the coupling between membrane deformation and the reaction-diffusion system through curvature-inducing proteins that bend the biological membranes. Although the membrane shape and the dynamics of the curvature-inducing proteins affect each other in these systems, the effect of such mechanochemical feedback loops on the waves has not been studied in detail. In this study, reaction-diffusion waves coupled with membrane deformation are investigated using simulations combining a dynamically triangulated membrane model with the Brusselator model extended to include the effect of membrane curvature. It is found that the propagating wave patterns change into nonpropageting patterns and spiral wave patterns due to the mechanochemical effects. Moreover, the wave speed is positively or negatively correlated with the local membrane curvature depending on the spontaneous curvature and bending rigidity. In addition, self-oscillation of the vesicle shape occurs, associated with the reaction-diffusion waves of curvature-inducing proteins. This agrees with the experimental observation of GUVs with a reconstituted Min system, which plays a key role in the cell division of Escherichia coli. The findings of this study demonstrate the importance of mechanochemical coupling in biological phenomena.

Topics & Concepts

MembraneCurvatureMembrane curvatureVesicleCoupling (piping)BiophysicsDeformation (meteorology)ChemistryCell membraneBendingBrusselatorMechanicsElasticity of cell membranesPhysicsSpiral (railway)Chemical physicsDynamics (music)Biological cellMaterials scienceBiological membranePattern formationMembrane biophysicsMechanical waveLipid Membrane Structure and BehaviorNonlinear Dynamics and Pattern FormationSlime Mold and Myxomycetes Research
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