溶液中和组装好的酵母V-ATP酶中EGC定子亚复合物的不同构象：对调节性拆卸的可能影响。

A different conformation for EGC stator subcomplex in solution and in the assembled yeast V-ATPase: possible implications for regulatory disassembly.

作者信息

Diepholz Meikel, Venzke David, Prinz Simone, Batisse Claire, Flörchinger Beate, Rössle Manfred, Svergun Dmitri I, Böttcher Bettina, Féthière James

机构信息

EMBL, Structural and Computational Biology Unit, Meyerhofstrasse 1, 69117 Heidelberg, Germany.

出版信息

Structure. 2008 Dec 10;16(12):1789-98. doi: 10.1016/j.str.2008.09.010.

DOI:10.1016/j.str.2008.09.010

PMID:19081055

Abstract

Vacuolar ATPases (V-ATPases) are ATP-dependent proton pumps that maintain the acidity of cellular compartments. They are composed of a membrane-integrated proton-translocating V(0) and an extrinsic cytoplasmic catalytic domain V(1), joined by several connecting subunits. To clarify the arrangement of these peripheral connections and their interrelation with other subunits of the holocomplex, we have determined the solution structures of isolated EG and EGC connecting subcomplexes by small angle X-ray scattering and the 3D map of the yeast V-ATPase by electron microscopy. In solution, EG forms a slightly kinked rod, which assembles with subunit C into an L-shaped structure. This model is supported by the microscopy data, which show three copies of EG with two of these linked by subunit C. However, the relative arrangement of the EG and C subunits in solution is more open than that in the holoenzyme, suggesting a conformational change of EGC during regulatory assembly and disassembly.

摘要

液泡型ATP酶（V-ATP酶）是依赖ATP的质子泵，可维持细胞区室的酸性。它们由膜整合的质子转运V(0)和外在的胞质催化结构域V(1)组成，通过几个连接亚基相连。为了阐明这些外周连接的排列及其与全酶其他亚基的相互关系，我们通过小角X射线散射确定了分离的EG和EGC连接亚复合物的溶液结构，并通过电子显微镜确定了酵母V-ATP酶的三维图谱。在溶液中，EG形成一个略有弯曲的杆状结构，它与C亚基组装成L形结构。显微镜数据支持了这一模型，该数据显示有三个EG拷贝，其中两个通过C亚基相连。然而，溶液中EG和C亚基的相对排列比全酶中的更开放，这表明EGC在调节性组装和解聚过程中发生了构象变化。

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溶液中和组装好的酵母V-ATP酶中EGC定子亚复合物的不同构象：对调节性拆卸的可能影响。

A different conformation for EGC stator subcomplex in solution and in the assembled yeast V-ATPase: possible implications for regulatory disassembly.

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