脂质双层膜的热波动通过亚微米长度尺度下的层间摩擦而弛豫。

Thermal undulations of lipid bilayers relax by intermonolayer friction at submicrometer length scales.

作者信息

Shkulipa S A, den Otter W K, Briels W J

机构信息

Computational Biophysics, Faculty of Science and Technology, University of Twente, Enschede, The Netherlands.

出版信息

Phys Rev Lett. 2006 May 5;96(17):178302. doi: 10.1103/PhysRevLett.96.178302. Epub 2006 May 3.

DOI:10.1103/PhysRevLett.96.178302

PMID:16712341

Abstract

The time correlation functions of the thermal undulations of a lipid membrane have been studied by molecular dynamics simulations of a coarse-grained bilayer model. We observe a double-exponential decay, with relaxation rates in good agreement with the theory by Seifert and Langer, [Europhys. Lett. 23, 71 (1993)]. Intermonolayer friction resulting from local velocity differences between the two monolayers is shown to be the dominant dissipative mechanism for fluctuations with wave lengths below approximately -0.1 microm.

摘要

通过粗粒化双层模型的分子动力学模拟，研究了脂质膜热涨落的时间关联函数。我们观察到双指数衰减，其弛豫率与Seifert和Langer的理论[《欧洲物理快报》23, 71 (1993)]吻合良好。结果表明，两层之间局部速度差异引起的层间摩擦是波长低于约0.1微米涨落的主要耗散机制。

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脂质双层膜的热波动通过亚微米长度尺度下的层间摩擦而弛豫。

Thermal undulations of lipid bilayers relax by intermonolayer friction at submicrometer length scales.

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