Lateral forces acting between particles in liquid films or lipid membranes

Advances in Biophysics Pub Date : 1997-01-01 DOI:10.1016/S0065-227X(97)89629-3

Peter A. Kralchevsky

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引用次数: 12

Abstract

To investigate the mechanism of formation of 2D arrays of protein macromolecules in liquid films we carried out model experiments with μm-sized latex particles. The direct observations revealed that the process of ordering is triggered by attractive lateral capillary forces due to the overlap of the menisci formed around the particles. Two types of lateral capillary forces, flotation and immersion, can be distinguished, and a theory of these interactions is developed. Similar forces are operative between inclusions (proteins) incorporated in lipid membranes. We develop an appropriate model of a lipid bilayer, which is described as an elastic layer (the hydrocarbon chain region) sandwiched between two Gibbs dividing surfaces (the two headgroup regions). The range of the interaction between two cylindrical inclusions turns out to be of the order of several inclusion radii. The results, which are in qualitative agreement with the experimental observations, can be applied to the interpretation of membrane processes and mechanisms such as protein aggregation in lipid membranes.

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作用于液体膜或脂质膜中的颗粒之间的侧向力

为了研究蛋白质大分子在液体膜中二维阵列的形成机制，我们用μm大小的乳胶颗粒进行了模型实验。直接观察表明，排序过程是由粒子周围形成的半月板重叠引起的有吸引力的横向毛细力触发的。两种类型的横向毛细管力，浮选和浸没，可以区分，并提出了这些相互作用的理论。在脂质膜中的内含物(蛋白质)之间也存在类似的作用力。我们开发了一个合适的脂质双分子层模型，它被描述为夹在两个吉布斯划分表面(两个头基区域)之间的弹性层(碳氢链区域)。两个圆柱形包裹体之间相互作用的范围是几个包裹体半径的数量级。该结果与实验观察结果在定性上一致，可用于解释膜过程和机制，如脂质膜中的蛋白质聚集。

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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Advances in Biophysics

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