钠-天冬氨酸共转运体 GltPh 偶联结合的动力学机制。

Kinetic mechanism of coupled binding in sodium-aspartate symporter GltPh.

机构信息

Department of Physiology & Biophysics, Weill Cornell Medicine, Cornell University, New York, United States.

Howard Hughes Medical Institute, Chevy Chase, United States.

出版信息

Elife. 2018 Sep 26;7:e37291. doi: 10.7554/eLife.37291.

DOI:10.7554/eLife.37291

PMID:30255846

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6175574/

Abstract

Many secondary active membrane transporters pump substrates against concentration gradients by coupling their uptake to symport of sodium ions. Symport requires the substrate and ions to be always transported together. Cooperative binding of the solutes is a key mechanism contributing to coupled transport in the sodium and aspartate symporter from Glt. Here, we describe the kinetic mechanism of coupled binding for Glt in the inward facing state. The first of the three coupled sodium ions, binds weakly and slowly, enabling the protein to accept the rest of the ions and the substrate. The last ion binds tightly, but is in rapid equilibrium with solution. Its release is required for the complex disassembly. Thus, the first ion serves to 'open the door' for the substrate, the last ion 'locks the door' once the substrate is in, and one ion contributes to both events.

摘要

许多继发性主动膜转运蛋白通过将其摄取与钠离子的协同运输偶联来逆浓度梯度泵出底物。协同运输要求底物和离子始终一起运输。溶质的协同结合是导致来自 Glt 的钠和天冬氨酸协同转运体偶联转运的关键机制。在这里，我们描述了 Glt 在内向构象中偶联结合的动力学机制。三个偶联钠离子中的第一个结合较弱且较慢，使蛋白质能够接受其余的离子和底物。最后一个离子结合紧密，但与溶液处于快速平衡状态。其释放对于复合物的解体是必需的。因此，第一个离子为底物“打开门”，最后一个离子一旦底物进入“锁上门”，一个离子对这两个事件都有贡献。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d41c/6175574/a26557581ae7/elife-37291-fig1.jpg

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钠-天冬氨酸共转运体 GltPh 偶联结合的动力学机制。

Kinetic mechanism of coupled binding in sodium-aspartate symporter GltPh.

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