从脂质双层中的结构深入了解甲型流感质子通道的机制。
Insight into the mechanism of the influenza A proton channel from a structure in a lipid bilayer.
机构信息
Department of Chemistry and Biochemistry, Florida State University, Tallahassee, FL 32306, USA.
出版信息
Science. 2010 Oct 22;330(6003):509-12. doi: 10.1126/science.1191750.
Abstract
The M2 protein from the influenza A virus, an acid-activated proton-selective channel, has been the subject of numerous conductance, structural, and computational studies. However, little is known at the atomic level about the heart of the functional mechanism for this tetrameric protein, a His(37)-Trp(41) cluster. We report the structure of the M2 conductance domain (residues 22 to 62) in a lipid bilayer, which displays the defining features of the native protein that have not been attainable from structures solubilized by detergents. We propose that the tetrameric His(37)-Trp(41) cluster guides protons through the channel by forming and breaking hydrogen bonds between adjacent pairs of histidines and through specific interactions of the histidines with the tryptophan gate. This mechanism explains the main observations on M2 proton conductance.
摘要
甲型流感病毒 M2 蛋白是一种酸激活的质子选择性通道,已经成为众多电导、结构和计算研究的主题。然而,对于这种四聚体蛋白的功能机制的核心——His(37)-Trp(41)簇,在原子水平上的了解甚少。我们报告了 M2 导通结构域(残基 22 到 62)在脂质双层中的结构,该结构显示了天然蛋白的特征,这些特征是通过去污剂溶解的结构所无法获得的。我们提出,四聚体 His(37)-Trp(41)簇通过形成和打破相邻对组氨酸之间的氢键,并通过组氨酸与色氨酸门的特定相互作用,引导质子通过通道。该机制解释了 M2 质子导通的主要观察结果。
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