双层材料性质在膜蛋白功能和分布中的作用。

Thomas J McIntosh, Sidney A Simon
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引用次数: 229

摘要

脂质双分子层的结构、组成和材料(弹性)特性对水溶性蛋白和多肽与膜的相互作用、跨膜蛋白在膜平面上的分布以及特定膜通道的功能产生强烈影响。理论和实验研究表明,细胞质蛋白或细胞外肽与膜的结合受到带电脂质的存在的调节,而跨膜蛋白进入或离开膜微结构域(筏)的分选取决于几个因素,包括由胆固醇存在控制的双层材料特性。最近的研究还表明,双层材料的性质改变了膜孔的通透性,这些膜孔可能是由蛋白质通道形成的,也可能是由细胞裂解肽形成的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Roles of bilayer material properties in function and distribution of membrane proteins.

Structural, compositional, and material (elastic) properties of lipid bilayers exert strong influences on the interactions of water-soluble proteins and peptides with membranes, the distribution of transmembrane proteins in the plane of the membrane, and the function of specific membrane channels. Theoretical and experimental studies show that the binding of either cytoplasmic proteins or extracellular peptides to membranes is regulated by the presence of charged lipids and that the sorting of transmembrane proteins into or out of membrane microdomains (rafts) depends on several factors, including bilayer material properties governed by the presence of cholesterol. Recent studies have also shown that bilayer material properties modify the permeability of membrane pores, formed either by protein channels or by cell-lytic peptides.

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