钠/氢逆向转运机制。

Mechanism of Na+/H+ antiporting.

作者信息

Arkin Isaiah T, Xu Huafeng, Jensen Morten Ø, Arbely Eyal, Bennett Estelle R, Bowers Kevin J, Chow Edmond, Dror Ron O, Eastwood Michael P, Flitman-Tene Ravenna, Gregersen Brent A, Klepeis John L, Kolossváry István, Shan Yibing, Shaw David E

机构信息

D. E. Shaw Research, New York, NY 10036, USA.

出版信息

Science. 2007 Aug 10;317(5839):799-803. doi: 10.1126/science.1142824.

DOI:10.1126/science.1142824

PMID:17690293

Abstract

Na+/H+ antiporters are central to cellular salt and pH homeostasis. The structure of Escherichia coli NhaA was recently determined, but its mechanisms of transport and pH regulation remain elusive. We performed molecular dynamics simulations of NhaA that, with existing experimental data, enabled us to propose an atomically detailed model of antiporter function. Three conserved aspartates are key to our proposed mechanism: Asp164 (D164) is the Na+-binding site, D163 controls the alternating accessibility of this binding site to the cytoplasm or periplasm, and D133 is crucial for pH regulation. Consistent with experimental stoichiometry, two protons are required to transport a single Na+ ion: D163 protonates to reveal the Na+-binding site to the periplasm, and subsequent protonation of D164 releases Na+. Additional mutagenesis experiments further validated the model.

摘要

钠氢反向转运蛋白对于细胞的盐和pH稳态至关重要。最近已确定了大肠杆菌 NhaA 的结构，但其转运机制和pH调节机制仍不清楚。我们对 NhaA 进行了分子动力学模拟，并结合现有的实验数据，提出了一个原子水平详细的反向转运蛋白功能模型。三个保守的天冬氨酸对于我们提出的机制至关重要：Asp164（D164）是钠结合位点，D163 控制该结合位点对细胞质或周质的交替可及性，而 D133 对pH调节至关重要。与实验化学计量一致，转运单个钠离子需要两个质子：D163 质子化以向周质暴露钠结合位点，随后 D164 的质子化释放钠离子。额外的诱变实验进一步验证了该模型。

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Mechanism of Na+/H+ antiporting.钠/氢逆向转运机制。

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钠/氢逆向转运机制。

Mechanism of Na+/H+ antiporting.

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