Remodeling of the Plasma Membrane by Surface-Bound Protein Monomers and Oligomers: The Critical Role of Intrinsically Disordered Regions.

IF 2.3 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Membrane Biology Pub Date : 2022-12-01 DOI:10.1007/s00232-022-00256-8

Mussie K Araya, Yong Zhou, Alemayehu A Gorfe

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引用次数: 5

Abstract

The plasma membrane (PM) of cells is a dynamic structure whose morphology and composition is in constant flux. PM morphologic changes are particularly relevant for the assembly and disassembly of signaling platforms involving surface-bound signaling proteins, as well as for many other mechanochemical processes that occur at the PM surface. Surface-bound membrane proteins (SBMP) require efficient association with the PM for their function, which is often achieved by the coordinated interactions of intrinsically disordered regions (IDRs) and globular domains with membrane lipids. This review focuses on the role of IDR-containing SBMPs in remodeling the composition and curvature of the PM. The ability of IDR-bearing SBMPs to remodel the Gaussian and mean curvature energies of the PM is intimately linked to their ability to sort subsets of phospholipids into nanoclusters. We therefore discuss how IDRs of many SBMPs encode lipid-binding specificity or facilitate cluster formation, both of which increase their membrane remodeling capacity, and how SBMP oligomers alter membrane shape by monolayer surface area expansion and molecular crowding.

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表面结合蛋白单体和低聚物对质膜的重塑:内在无序区域的关键作用。

细胞的质膜是一个动态结构，其形态和组成是不断变化的。PM的形态变化与涉及表面结合的信号蛋白的信号平台的组装和拆卸以及发生在PM表面的许多其他机械化学过程特别相关。表面结合膜蛋白(SBMP)需要与PM有效结合才能发挥其功能，这通常是通过内在无序区(IDRs)和球状结构域与膜脂的协调相互作用来实现的。本文综述了含idr的SBMPs在重塑PM的组成和曲率中的作用。承载idr的SBMPs重塑PM的高斯和平均曲率能量的能力与它们将磷脂亚群分类成纳米簇的能力密切相关。因此，我们讨论了许多SBMP的idr如何编码脂质结合特异性或促进簇形成，这两者都增加了它们的膜重塑能力，以及SBMP低聚物如何通过单层表面积扩张和分子拥挤改变膜形状。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Membrane Biology 生物-生化与分子生物学

CiteScore

4.80

自引率

4.20%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Membrane Biology is dedicated to publishing high-quality science related to membrane biology, biochemistry and biophysics. In particular, we welcome work that uses modern experimental or computational methods including but not limited to those with microscopy, diffraction, NMR, computer simulations, or biochemistry aimed at membrane associated or membrane embedded proteins or model membrane systems. These methods might be applied to study topics like membrane protein structure and function, membrane mediated or controlled signaling mechanisms, cell-cell communication via gap junctions, the behavior of proteins and lipids based on monolayer or bilayer systems, or genetic and regulatory mechanisms controlling membrane function. Research articles, short communications and reviews are all welcome. We also encourage authors to consider publishing ''negative'' results where experiments or simulations were well performed, but resulted in unusual or unexpected outcomes without obvious explanations. While we welcome connections to clinical studies, submissions that are primarily clinical in nature or that fail to make connections to the basic science issues of membrane structure, chemistry and function, are not appropriate for the journal. In a similar way, studies that are primarily descriptive and narratives of assays in a clinical or population study are best published in other journals. If you are not certain, it is entirely appropriate to write to us to inquire if your study is a good fit for the journal.