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混合酸性/两性离子磷脂双层的分子动力学模拟。

Molecular dynamics simulations of mixed acidic/zwitterionic phospholipid bilayers.

机构信息

Computational Biology Unit, Bergen Center for Computational Science, University of Bergen, Bergen, Norway.

出版信息

Biophys J. 2010 Aug 4;99(3):825-33. doi: 10.1016/j.bpj.2010.04.064.

DOI:10.1016/j.bpj.2010.04.064
PMID:20682260
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2913202/
Abstract

Anionic lipids are key components in the cell membranes. Many cell-regulatory and signaling mechanisms depend upon a complicated interplay between them and membrane-bound proteins. Phospholipid bilayers are commonly used as model systems in experimental or theoretical studies to gain insight into the structure and dynamics of biological membranes. We report here 200-ns-long MD simulations of pure (DMPC and DMPG) and mixed equimolar (DMPC/DMPG, DMPC/DMPS, and DMPC/DMPA) bilayers that each contain 256 lipids. The intra- and intermolecular interaction patterns in pure and mixed bilayers are analyzed and compared. The effect of monovalent ions (Na+) on the formation of salt-bridges is investigated. In particular, the number of Na(+)-mediated clusters in the presence of DMPS is higher than with DMPG and DMPA. We observe a preferential clustering of DMPS (and to some extent DMPA) lipids together rather than with DMPC molecules, which can explain the phase separation observed experimentally for DMPC/DMPS and DMPC/DMPA bilayers.

摘要

阴离子脂质是细胞膜的关键组成部分。许多细胞调节和信号转导机制依赖于它们与膜结合蛋白之间复杂的相互作用。磷脂双层通常被用作实验或理论研究中的模型系统,以深入了解生物膜的结构和动力学。我们在此报告了长达 200 纳秒的 MD 模拟,涉及纯(DMPC 和 DMPG)和混合等摩尔(DMPC/DMPG、DMPC/DMPS 和 DMPC/DMPA)双层,每个双层包含 256 个脂质。分析和比较了纯双层和混合双层中分子内和分子间的相互作用模式。研究了单价离子(Na+)对盐桥形成的影响。特别是,在存在 DMPS 的情况下,Na+介导的簇的数量高于 DMPG 和 DMPA。我们观察到 DMPS(在某种程度上还有 DMPA)脂质优先聚集在一起,而不是与 DMPC 分子聚集在一起,这可以解释实验中观察到的 DMPC/DMPS 和 DMPC/DMPA 双层的相分离。

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