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人水通道蛋白4在1.8埃分辨率下的晶体结构及其传导机制。

Crystal structure of human aquaporin 4 at 1.8 A and its mechanism of conductance.

作者信息

Ho Joseph D, Yeh Ronald, Sandstrom Andrew, Chorny Ilya, Harries William E C, Robbins Rebecca A, Miercke Larry J W, Stroud Robert M

机构信息

Graduate Program in Chemistry and Chemical Biology and Department of Biochemistry and Biophysics, Genentech Hall, University of California, 600 16th Street, San Francisco, CA 94158-2517, USA.

出版信息

Proc Natl Acad Sci U S A. 2009 May 5;106(18):7437-42. doi: 10.1073/pnas.0902725106. Epub 2009 Apr 21.

DOI:10.1073/pnas.0902725106
PMID:19383790
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2678640/
Abstract

Aquaporin (AQP) 4 is the predominant water channel in the mammalian brain, abundantly expressed in the blood-brain and brain-cerebrospinal fluid interfaces of glial cells. Its function in cerebral water balance has implications in neuropathological disorders, including brain edema, stroke, and head injuries. The 1.8-A crystal structure reveals the molecular basis for the water selectivity of the channel. Unlike the case in the structures of water-selective AQPs AqpZ and AQP1, the asparagines of the 2 Asn-Pro-Ala motifs do not hydrogen bond to the same water molecule; instead, they bond to 2 different water molecules in the center of the channel. Molecular dynamics simulations were performed to ask how this observation bears on the proposed mechanisms for how AQPs remain totally insulating to any proton conductance while maintaining a single file of hydrogen bonded water molecules throughout the channel.

摘要

水通道蛋白4(AQP4)是哺乳动物大脑中主要的水通道,在神经胶质细胞的血脑屏障和脑-脑脊液界面大量表达。其在脑水平衡中的功能与包括脑水肿、中风和头部损伤在内的神经病理障碍有关。1.8埃的晶体结构揭示了该通道水选择性的分子基础。与水选择性水通道蛋白AqpZ和AQP1的结构不同,2个Asn-Pro-Ala模体中的天冬酰胺并不与同一个水分子形成氢键;相反,它们与通道中央的2个不同水分子形成氢键。进行了分子动力学模拟,以探究这一观察结果如何与所提出的水通道蛋白在整个通道中保持单排氢键结合水分子的同时对任何质子传导完全绝缘的机制相关。

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