组氨酸,甲型流感病毒氢离子通道的核心:迈向对电导和质子选择性的理解
Histidines, heart of the hydrogen ion channel from influenza A virus: toward an understanding of conductance and proton selectivity.
作者信息
Hu Jun, Fu Riqiang, Nishimura Katsuyuki, Zhang Li, Zhou Huan-Xiang, Busath David D, Vijayvergiya Viksita, Cross Timothy A
机构信息
Department of Chemistry and Biochemistry, Florida State University, Tallahassee, FL 32310, USA.
出版信息
Proc Natl Acad Sci U S A. 2006 May 2;103(18):6865-70. doi: 10.1073/pnas.0601944103. Epub 2006 Apr 21.
Abstract
The heart of the H+ conductance mechanism in the homotetrameric M2 H+ channel from influenza A is a set of four histidine side chains. Here, we show that protonation of the third of these imidazoles coincides with acid activation of this transmembrane channel and that, at physiological pH, the channel is closed by two imidazole-imidazolium dimers, each sharing a low-barrier hydrogen bond. This unique construct succeeds in distributing a pair of charges over four rings and many atoms in a low dielectric environment to minimize charge repulsion. These dimers form with identical pKas of 8.2 +/- 0.2, suggesting cooperative H+ binding and clearly illustrating high H+ affinity for this channel. The protonation behavior of the histidine side chains has been characterized by using solid-state NMR spectroscopy on the M2 transmembrane domain in fully hydrated lipid bilayers where the tetrameric backbone structure is known. Furthermore, electrophysiological measurements of multichannel and single-channel experiments confirm that these protein constructs are functional.
摘要
甲型流感病毒同源四聚体M2 H⁺通道中H⁺传导机制的核心是一组四个组氨酸侧链。在此,我们表明这些咪唑中的第三个的质子化与该跨膜通道的酸激活相吻合,并且在生理pH值下,该通道被两个咪唑 - 咪唑鎓二聚体关闭,每个二聚体共享一个低势垒氢键。这种独特的结构成功地在低介电环境中通过四个环和许多原子分布一对电荷,以最小化电荷排斥。这些二聚体以8.2±0.2的相同pKa形成,表明H⁺结合具有协同性,并清楚地说明了该通道对H⁺具有高亲和力。已通过在已知四聚体主链结构的完全水合脂质双层中的M2跨膜结构域上使用固态核磁共振光谱来表征组氨酸侧链的质子化行为。此外,多通道和单通道实验的电生理测量证实这些蛋白质构建体具有功能。
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