阳离子膜肽和蛋白质的结构与动力学:固态 NMR 的研究进展。
Structure and dynamics of cationic membrane peptides and proteins: insights from solid-state NMR.
机构信息
Department of Chemistry, Iowa State University, Ames, Iowa 50011, USA.
出版信息
Protein Sci. 2011 Apr;20(4):641-55. doi: 10.1002/pro.600. Epub 2011 Mar 7.
Abstract
Many membrane peptides and protein domains contain functionally important cationic Arg and Lys residues, whose insertion into the hydrophobic interior of the lipid bilayer encounters significant energy barriers. To understand how these cationic molecules overcome the free energy barrier to insert into the lipid membrane, we have used solid-state NMR spectroscopy to determine the membrane-bound topology of these peptides. A versatile array of solid-state NMR experiments now readily yields the conformation, dynamics, orientation, depth of insertion, and site-specific protein-lipid interactions of these molecules. We summarize key findings of several Arg-rich membrane peptides, including β-sheet antimicrobial peptides, unstructured cell-penetrating peptides, and the voltage-sensing helix of voltage-gated potassium channels. Our results indicate the central role of guanidinium-phosphate and guanidinium-water interactions in dictating the structural topology of these cationic molecules in the lipid membrane, which in turn account for the mechanisms of this functionally diverse class of membrane peptides.
摘要
许多膜肽和蛋白结构域都含有功能重要的碱性精氨酸和赖氨酸残基,这些残基插入脂质双层的疏水环境时会遇到很大的能量障碍。为了了解这些阳离子分子如何克服插入脂质膜的自由能障碍,我们使用固态 NMR 光谱学来确定这些肽的膜结合拓扑结构。现在,多种固态 NMR 实验可以方便地确定这些分子的构象、动态、取向、插入深度和特定的蛋白-脂质相互作用。我们总结了几种富含精氨酸的膜肽的关键发现,包括β-折叠抗菌肽、无规卷曲的细胞穿透肽和电压门控钾通道的电压感应螺旋。我们的结果表明,胍基-磷酸和胍基-水相互作用在决定这些阳离子分子在脂质膜中的结构拓扑结构方面起着核心作用,这反过来又解释了这类功能多样化的膜肽的作用机制。
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