一种钠泵焦磷酸酶的结构和催化循环。

The structure and catalytic cycle of a sodium-pumping pyrophosphatase.

机构信息

Structural Biology and Biophysics Program, Institute of Biotechnology, Post Office Box 65, University of Helsinki, FIN-00014, Finland.

出版信息

Science. 2012 Jul 27;337(6093):473-6. doi: 10.1126/science.1222505.

DOI:10.1126/science.1222505

PMID:22837527

Abstract

Membrane-integral pyrophosphatases (M-PPases) are crucial for the survival of plants, bacteria, and protozoan parasites. They couple pyrophosphate hydrolysis or synthesis to Na(+) or H(+) pumping. The 2.6-angstrom structure of Thermotoga maritima M-PPase in the resting state reveals a previously unknown solution for ion pumping. The hydrolytic center, 20 angstroms above the membrane, is coupled to the gate formed by the conserved Asp(243), Glu(246), and Lys(707) by an unusual "coupling funnel" of six α helices. Comparison with our 4.0-angstrom resolution structure of the product complex suggests that helix 12 slides down upon substrate binding to open the gate by a simple binding-change mechanism. Below the gate, four helices form the exit channel. Superimposing helices 3 to 6, 9 to 12, and 13 to 16 suggests that M-PPases arose through gene triplication.

摘要

膜整合焦磷酸酶（M-PPases）对于植物、细菌和原生动物寄生虫的生存至关重要。它们将焦磷酸水解或合成与 Na(+)或 H(+)泵浦偶联。处于静止状态的 Thermotoga maritima M-PPase 的 2.6 埃结构揭示了一种以前未知的离子泵浦解决方案。水解中心位于膜上方 20 埃处，通过一个不寻常的“偶联漏斗”由六个α螺旋与由保守的 Asp（243）、Glu（246）和 Lys（707）形成的门偶联。与我们的 4.0 埃分辨率的产物复合物结构进行比较表明，当底物结合时，螺旋 12 向下滑动，通过简单的结合变化机制打开门。在门下方，四个螺旋形成出口通道。将螺旋 3 到 6、9 到 12 和 13 到 16 叠加在一起表明，M-PPases 是通过基因三倍体产生的。

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一种钠泵焦磷酸酶的结构和催化循环。

The structure and catalytic cycle of a sodium-pumping pyrophosphatase.

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