通过对非线性丝状伪足起始的反应-扩散-弹性描述将肌动蛋白网络与细胞膜相连。

Linking actin networks and cell membrane via a reaction-diffusion-elastic description of nonlinear filopodia initiation.

作者信息

Ben Isaac Eyal, Manor Uri, Kachar Bechara, Yochelis Arik, Gov Nir S

机构信息

Department of Chemical Physics, Weizmann Institute of Science, Rehovot 76100, Israel.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2013 Aug;88(2):022718. doi: 10.1103/PhysRevE.88.022718. Epub 2013 Aug 29.

DOI:10.1103/PhysRevE.88.022718

PMID:24032875

Abstract

Reaction-diffusion models have been used to describe pattern formation on the cellular scale, and traditionally do not include feedback between cellular shape changes and biochemical reactions. We introduce here a distinct reaction-diffusion-elasticity approach: The reaction-diffusion part describes bistability between two actin orientations, coupled to the elastic energy of the cell membrane deformations. This coupling supports spatially localized patterns, even when such solutions do not exist in the uncoupled self-inhibited reaction-diffusion system. We apply this concept to describe the nonlinear (threshold driven) initiation mechanism of actin-based cellular protrusions and provide support by several experimental observations.

摘要

反应扩散模型已被用于描述细胞尺度上的图案形成，并且传统上不包括细胞形状变化与生化反应之间的反馈。我们在此引入一种独特的反应扩散弹性方法：反应扩散部分描述了两种肌动蛋白取向之间的双稳态，并与细胞膜变形的弹性能量相耦合。这种耦合支持空间局部化图案，即使在未耦合的自抑制反应扩散系统中不存在此类解时也是如此。我们应用这一概念来描述基于肌动蛋白的细胞突起的非线性（阈值驱动）起始机制，并通过若干实验观察提供支持。

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通过对非线性丝状伪足起始的反应-扩散-弹性描述将肌动蛋白网络与细胞膜相连。

Linking actin networks and cell membrane via a reaction-diffusion-elastic description of nonlinear filopodia initiation.

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