Influence of Ionic Strength on Adsorption of Polypeptides on Lipid Membranes: Theoretical Analysis

R. J. Molotkovsky, T. R. Galimzyanov, Yu. A. Ermakov
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引用次数: 1

Abstract

Theoretical analysis of the effect of the ionic strength of a solution on the surface (zeta) potential of liposomes formed by an anionic phospholipid (cardiolipin) with adsorbed polycations has been carried out. The experimental data were previously measured by the electrokinetic method in the presence of polylysine molecules of different molecular weights and a supporting electrolyte, KCl, at concentrations of 10, 40, and 100 mM. To approximate the experimental dependences of the potential on the amount of polylysine in the suspension, we used a theoretical model with parameters, among which the most physically significant are the thickness of the polymer layer, the adsorption constant, and the fraction of the surface of lipid membranes occupied by the polypeptide at the saturation. The found values of the model parameters demonstrate the effect of the length of the polypeptide molecules on the structure of the polymer layer varying from homogeneous to clustered distribution over the surface. A noticeable decrease in the efficiency of adsorption with an increase in the ionic strength of the solution is explained by the conformational rearrangements of the macromolecules on the surface and a decrease in the area of the surface available for their adsorption upon the saturation.

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离子强度对多肽在脂质膜上吸附影响的理论分析
离子强度对阴离子磷脂(心磷脂)吸附多阳离子形成的脂质体表面电位(zeta)的影响进行了理论分析。实验数据之前是在不同分子量的聚赖氨酸分子和支持电解质KCl存在的情况下,在10、40和100 mM浓度下通过电动力学方法测量的。为了近似实验中电位与悬液中聚赖氨酸含量的依赖关系,我们使用了一个带参数的理论模型,其中最具物理意义的是聚合物层的厚度、吸附常数、以及饱和时多肽占据的脂质膜表面的比例。模型参数的发现值表明多肽分子的长度对聚合物层结构的影响从均匀分布到聚集分布在表面。随着溶液离子强度的增加,吸附效率明显下降,这可以用表面大分子的构象重排和饱和时可用于吸附它们的表面面积的减少来解释。
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来源期刊
CiteScore
1.40
自引率
0.00%
发文量
28
期刊介绍: Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology   is an international peer reviewed journal that publishes original articles on physical, chemical, and molecular mechanisms that underlie basic properties of biological membranes and mediate membrane-related cellular functions. The primary topics of the journal are membrane structure, mechanisms of membrane transport, bioenergetics and photobiology, intracellular signaling as well as membrane aspects of cell biology, immunology, and medicine. The journal is multidisciplinary and gives preference to those articles that employ a variety of experimental approaches, basically in biophysics but also in biochemistry, cytology, and molecular biology. The journal publishes articles that strive for unveiling membrane and cellular functions through innovative theoretical models and computer simulations.
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