KcsA钾通道的构象动力学决定门控特性。

Conformational dynamics of the KcsA potassium channel governs gating properties.

作者信息

Baker Kent A, Tzitzilonis Christos, Kwiatkowski Witek, Choe Senyon, Riek Roland

机构信息

Structural Biology Laboratory, The Salk Institute, La Jolla, California 92037, USA.

出版信息

Nat Struct Mol Biol. 2007 Nov;14(11):1089-95. doi: 10.1038/nsmb1311. Epub 2007 Oct 7.

DOI:10.1038/nsmb1311

PMID:17922011

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3525321/

Abstract

K+ channels conduct and regulate K+ flux across the cell membrane. Several crystal structures and biophysical studies of tetrameric ion channels have revealed many of the structural details of ion selectivity and gating. A narrow pore lined with four arrays of carbonyl groups is responsible for ion selectivity, whereas a conformational change of the four inner transmembrane helices (TM2) is involved in gating. We used NMR to examine full-length KcsA, a prototypical K+ channel, in its open, closed and intermediate states. These studies reveal that at least two conformational states exist both in the selectivity filter and near the C-terminal ends of the TM2 helices. In the ion-conducting open state, we observed rapid structural exchange between two conformations of the filter, presumably of low and high K+ affinity, respectively. Such measurements of millisecond-timescale dynamics reveal the basis for simultaneous ion selection and gating.

摘要

钾离子通道传导并调节钾离子跨细胞膜的通量。对四聚体离子通道的多项晶体结构和生物物理研究揭示了离子选择性和门控的许多结构细节。由四组羰基排列形成的狭窄孔道负责离子选择性，而四个内部跨膜螺旋（TM2）的构象变化则参与门控。我们使用核磁共振（NMR）来研究原型钾离子通道KcsA在其开放、关闭和中间状态下的全长结构。这些研究表明，在选择性过滤器以及TM2螺旋的C末端附近至少存在两种构象状态。在离子传导的开放状态下，我们观察到过滤器的两种构象之间存在快速的结构交换，推测分别具有低和高钾离子亲和力。这种毫秒级时间尺度动力学的测量揭示了同时进行离子选择和门控的基础。

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