慢速和快速门控模式之间的构象转换：EAG钾通道中电压感受器移动性的变构调节。

Conformational switch between slow and fast gating modes: allosteric regulation of voltage sensor mobility in the EAG K+ channel.

作者信息

Schönherr Roland, Mannuzzu Lidia M, Isacoff Ehud Y, Heinemann Stefan H

机构信息

Research Unit Molecular and Cellular Biophysics, Medical Faculty of the Friedrich Schiller University Jena, Jena, Germany.

出版信息

Neuron. 2002 Aug 29;35(5):935-49. doi: 10.1016/s0896-6273(02)00869-3.

DOI:10.1016/s0896-6273(02)00869-3

PMID:12372287

Abstract

Voltage-gated EAG K+ channels switch between fast and slow gating modes in a Mg2+-dependent manner by an unknown mechanism. We analyzed molecular motions in and around the voltage-sensing S4 in bEAG1. Using accessibility and perturbation analyses, we found that activation increases both the charge occupancy and volume of S4 side chains in the gating canal. Fluorescence measurements suggest that mode switching is due to a motion of the S2/S3 side of the gating canal. We propose that when S4 is in the resting state and its thin end is in the gating canal, a conformational rearrangement of S2/S3 narrows the canal around S4, forming the Mg2+ binding site. Binding of Mg2+ is proposed to stabilize this conformation and to slow opening of the gate by impeding S4's voltage-sensing outward motion.

摘要

电压门控EAG钾通道通过未知机制以Mg2+依赖的方式在快速和慢速门控模式之间切换。我们分析了bEAG1中电压感应S4及其周围的分子运动。通过可及性和微扰分析，我们发现激活增加了门控通道中S4侧链的电荷占有率和体积。荧光测量表明，模式切换是由于门控通道S2/S3侧的运动。我们提出，当S4处于静息状态且其细端位于门控通道中时，S2/S3的构象重排会使S4周围的通道变窄，形成Mg2+结合位点。Mg2+的结合被认为可以稳定这种构象，并通过阻碍S4的电压感应向外运动来减缓门控通道的开放。

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慢速和快速门控模式之间的构象转换：EAG钾通道中电压感受器移动性的变构调节。

Conformational switch between slow and fast gating modes: allosteric regulation of voltage sensor mobility in the EAG K+ channel.

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