The power and challenge of lipid (a)symmetry across the membrane and cell.

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Mikhail Bogdanov
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引用次数: 0

Abstract

Membrane asymmetry means that the two sides of membrane are structurally, physically and functionally different. Membrane asymmetry is largely related to the lipid sidedness and particularly to compositional (lipid head and acyl group) and physical (lipid packing order, charge, hydration and H-bonding interactions) differences in the inner and outer leaflets of lipid bilayer. Chemically, structurally and conformationally different non-covalent bound lipid molecules are physically fluid and deformable and enable to interact dynamically to form transient arrangements with asymmetry both perpendicular and parallel to the plane of the lipid bilayer. Although biological membranes are almost universally asymmetric however the asymmetry is not absolute since only drastic difference in the number of lipids per leaflet is found and symmetric arrangements are possible. Asymmetry is thought to direct and influence many core biological functions by altering the membrane's collective biochemical, biophysical and structural properties. Asymmetric transbilayer lipid distribution is found across all lipid classes, cells and near all endomembrane compartments. Why cell membranes are (a)symmetric and adopt almost exclusively highly entropically disfavored asymmetric state?

脂质的力量和挑战(a)膜和细胞的对称性。
膜的不对称是指膜的两侧在结构上、物理上和功能上都不同。膜的不对称性主要与脂质侧性有关,特别是与脂质双分子层内外小叶的组成(脂质头和酰基)和物理(脂质堆积顺序、电荷、水合作用和氢键相互作用)差异有关。化学上、结构上和构象上不同的非共价结合脂质分子在物理上是流动的和可变形的,并且能够动态地相互作用,形成与脂质双分子层平面垂直或平行的不对称的瞬态排列。虽然生物膜几乎普遍是不对称的,但这种不对称不是绝对的,因为每个小叶的脂质数量只有巨大的差异,对称排列是可能的。不对称被认为通过改变膜的集体生化、生物物理和结构特性来指导和影响许多核心生物功能。不对称的跨双分子层脂质分布在所有脂类、细胞和所有内膜室附近。为什么细胞膜是(a)对称的,并且几乎完全采用高度熵不利的不对称状态?
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
CiteScore
7.70
自引率
0.00%
发文量
94
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