多肽与膜界面的疏水相互作用

Stephen H White, William C Wimley
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引用次数: 471

摘要

由于膜蛋白在水相中的不溶性和在膜相中的极端稳定性等棘手的问题,很难直接从全蛋白中获得膜蛋白结构稳定性的热力学原理。因此,这些原理必须从小肽与脂质双分子层相互作用的研究中推测出来。本文综述了这类肽与脂质双分子层界面区域的疏水相互作用。我们首先建立了一个以界面相互作用为中心的膜蛋白稳定性热力学的一般框架,并回顾了支持这种以界面为中心的观点的结构和化学证据。然后,我们描述了一个实验确定的全残基界面疏水性尺度,揭示了肽键在分配和折叠中的核心作用。最后,我们考虑了界面相互作用的复杂性和多样性,揭示了使用不同类别的肽确定的侧链疏水性之间的差异。
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Hydrophobic interactions of peptides with membrane interfaces

The thermodynamic principles underlying the structural stability of membrane proteins are difficult to obtain directly from whole proteins because of intractable problems related to insolubility in the aqueous phase and extreme stability in the membrane phase. The principles must therefore be surmised from studies of the interactions of small peptides with lipid bilayers. This review is concerned with the hydrophobic interactions of such peptides with the interfacial regions of lipid bilayers. We first develop a general framework for thinking about the thermodynamics of membrane protein stability that centers on interfacial interactions and review the structural and chemical evidence that supports this interface-centered point of view. We then describe an experimentally determined whole-residue interfacial hydrophobicity scale that reveals the central role of the peptide bond in partitioning and folding. Finally, we consider the complexity and diversity of interfacial interactions revealed by differences between side-chain hydrophobicities determined using different classes of peptides.

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