Membrane-protein interactions in cell signaling and membrane trafficking.

Wonhwa Cho, Robert V Stahelin
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引用次数: 569

Abstract

Research in the past decade has revealed that many cytosolic proteins are recruited to different cellular membranes to form protein-protein and lipid-protein interactions during cell signaling and membrane trafficking. Membrane recruitment of these peripheral proteins is mediated by a growing number of modular membrane-targeting domains, including C1, C2, PH, FYVE, PX, ENTH, ANTH, BAR, FERM, and tubby domains, that recognize specific lipid molecules in the membranes. Structural studies of these membrane-targeting domains demonstrate how they specifically recognize their cognate lipid ligands. However, the mechanisms by which these domains and their host proteins are recruited to and interact with various cell membranes are only beginning to unravel with recent computational studies, in vitro membrane binding studies using model membranes, and cellular translocation studies using fluorescent protein-tagged proteins. This review summarizes the recent progress in our understanding of how the kinetics and energetics of membrane-protein interactions are regulated during the cellular membrane targeting and activation of peripheral proteins.

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细胞信号传导和膜运输中的膜-蛋白相互作用。
过去十年的研究表明,在细胞信号传导和细胞膜运输过程中,许多细胞质蛋白被招募到不同的细胞膜上形成蛋白-蛋白和脂质-蛋白相互作用。这些外周蛋白的膜募集是由越来越多的模块化膜靶向结构域介导的,包括C1、C2、PH、FYVE、PX、ENTH、ANTH、BAR、FERM和tubby结构域,这些结构域识别膜中的特定脂质分子。这些膜靶向结构域的结构研究证明了它们如何特异性识别其同源脂质配体。然而,这些结构域及其宿主蛋白被募集到各种细胞膜并与之相互作用的机制,在最近的计算研究、使用模型膜的体外膜结合研究和使用荧光蛋白标记蛋白的细胞易位研究中才刚刚开始揭示。本文综述了外周蛋白在细胞膜靶向和激活过程中如何调节膜-蛋白相互作用的动力学和能量学方面的最新进展。
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