膜磷脂热致相行为的量热学和分子力学研究

Ching-hsien Huang, Shusen Li
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引用次数: 188

摘要

本文综述了近年来利用分子力学模拟和高分辨率差示扫描量热相结合的方法研究磷脂双分子层主要相变行为的研究结果。在对脂质双分子层所表现出的相变现象进行简要概述之后,我们首先回顾了各种磷脂(包括磷脂酰胆碱、磷脂酰乙醇胺和磷脂酰甘油)的几种结构参数是如何定义和确定的。具体来说,这些结构参数是通过基于计算机的分子力学计算获得的,饱和脂质包裹在凝胶态双层中。然后,我们继续呈现由饱和磷脂组成的脂质双分子层在过量的水中经历凝胶到液晶相变时获得的量热数据。随后给出了脂质双分子层凝胶-液晶相变温度(Tm)与构成脂质双分子层的脂质分子结构参数之间的一般方程。从这些方程中,生成了饱和磷脂酰胆碱和饱和磷脂酰乙醇胺400多种分子种的预测Tm值的两个表。我们进一步回顾了大量sn-1饱和/sn-2不饱和磷脂的结构和链熔化行为。给出了两张Tm图,从中可以同时观察到1 - 5个顺式碳-碳双键的数目和位置对Tm的影响。最后,在这篇综述的最后一部分,简单的分子模型被用来解释由不饱和脂质组成的脂质双层所表现出的特征Tm趋势,这些脂质双层具有不同数量和位置的顺式碳-碳双键,如Tm图所示。
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Calorimetric and molecular mechanics studies of the thermotropic phase behavior of membrane phospholipids

In this review, we summarize the results of recent studies on the main phase transition behavior of phospholipid bilayers using the combined approaches of molecular mechanics simulations and high-resolution differential scanning calorimetry. Following a brief overview of the phase transition phenomenon exhibited by the lipid bilayer, we begin with the review by showing how several structural parameters underlying various phospholipids including phosphatidylcholine, phosphatidylethanolamine, and phosphatidylglycerol are defined and determined. Specifically, these structural parameters are obtained with saturated lipids packed in the gel-state bilayer using computer-based molecular mechanics calculations. Then we proceed to present the calorimetric data obtained with the lipid bilayer composed of saturated phospholipids as it undergoes the gel-to-liquid-crystalline phase transition in excess water. The general equations that can correlate the gel-to-liquid-crystalline phase transition temperature (Tm) of the lipid bilayer with the structural parameters of the lipid molecule constituting the lipid bilayer are subsequently presented. From these equations, two tables of predicated Tm values for well over 400 molecular species of saturated phosphatidylcholine and saturated phosphatidylethanolamine are generated. We further review the structure and chain-melting behavior of a large number of sn-1 saturated/sn-2 unsaturated phospholipids. Two Tm-diagrams are shown, from which the effects of the number and the position of one to five cis carbon–carbon double bonds on Tm can be viewed simultaneously. Finally, in the last part of this review, simple molecular models that have been invoked to interpret the characteristic Tm trends exhibited by lipid bilayers composed of unsaturated lipids with different numbers and positions of cis carbon–carbon double bonds as seen in the Tm-diagram are presented.

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