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慢门控过程中CLC-0氯离子通道C端的大幅移动。

Large movement in the C terminus of CLC-0 chloride channel during slow gating.

作者信息

Bykova Ekaterina A, Zhang Xiao-Dong, Chen Tsung-Yu, Zheng Jie

机构信息

Department of Physiology and Membrane Biology, University of California, Davis, California 95616, USA.

出版信息

Nat Struct Mol Biol. 2006 Dec;13(12):1115-9. doi: 10.1038/nsmb1176. Epub 2006 Nov 19.

Abstract

Chloride channels and transporters of the CLC gene family are expressed in virtually all cell types and are crucial in the regulation of membrane potential, chloride homeostasis and intravesicular pH. There are two gating processes that open CLC channels-fast and slow. The fast gating process in CLC channels has recently been linked to a small movement of a glutamate side chain. However, the molecular mechanism underlying the slow gating process is still elusive. Using spectroscopic microscopy, we observed a large backbone movement in the C terminus of the CLC-0 chloride channel that was functionally linked to slow gating. We further showed that the C-terminal movement had a time course similar to slow gating. In addition, a mutation known to lock the slow gate open prevented movement of the C terminus. When combined with recent structural information on the CLC C terminus, our findings provide a structural model for understanding the conformational changes linked to slow gating in CLC transport proteins.

摘要

CLC基因家族的氯离子通道和转运体几乎在所有细胞类型中均有表达,在调节膜电位、氯离子稳态和囊泡内pH值方面起着关键作用。有两种门控过程可打开CLC通道——快速门控和慢速门控。CLC通道中的快速门控过程最近被认为与谷氨酸侧链的微小移动有关。然而,慢速门控过程背后的分子机制仍然难以捉摸。利用光谱显微镜,我们观察到CLC-0氯离子通道C端存在一个大的主链移动,该移动在功能上与慢速门控相关。我们进一步表明,C端移动的时间进程与慢速门控相似。此外,已知能锁定慢速门使其保持打开状态的一个突变可阻止C端的移动。结合最近关于CLC C端的结构信息,我们的发现为理解CLC转运蛋白中与慢速门控相关的构象变化提供了一个结构模型。

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