ATP合酶：跨膜转子的固定化学计量比

ATP synthase: constrained stoichiometry of the transmembrane rotor.

作者信息

Müller D J, Dencher N A, Meier T, Dimroth P, Suda K, Stahlberg H, Engel A, Seelert H, Matthey U

机构信息

Max-Planck Institute of Molecular Cell Biology and Genetics, Dresden, Germany.

出版信息

FEBS Lett. 2001 Aug 31;504(3):219-22. doi: 10.1016/s0014-5793(01)02708-9.

DOI:10.1016/s0014-5793(01)02708-9

PMID:11532457

Abstract

Recent structural data suggest that the number of identical subunits (c or III) assembled into the cation-powered rotor of F1F0 ATP synthase depends on the biological origin. Atomic force microscopy allowed individual subunits of the cylindrical transmembrane rotors from spinach chloroplast and from Ilyobacter tartaricus ATP synthase to be directly visualized in their native-like environment. Occasionally, individual rotors exhibit structural gaps of the size of one or more subunits. Complete rotors and arch-shaped fragments of incomplete rotors revealed the same diameter within one ATP synthase species. These results suggest the rotor diameter and stoichiometry to be determined by the shape of the subunits and their nearest neighbor interactions.

摘要

最近的结构数据表明，组装到F1F0 ATP合酶阳离子驱动转子中的相同亚基（c或III）的数量取决于生物来源。原子力显微镜使菠菜叶绿体和嗜盐碱红杆菌ATP合酶的圆柱形跨膜转子的单个亚基在其类似天然的环境中得以直接可视化。偶尔，单个转子会出现一个或多个亚基大小的结构间隙。完整的转子和不完整转子的拱形片段在一种ATP合酶中显示出相同的直径。这些结果表明，转子直径和化学计量由亚基的形状及其最近邻相互作用决定。

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ATP合酶：跨膜转子的固定化学计量比

ATP synthase: constrained stoichiometry of the transmembrane rotor.

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ATP合酶：跨膜转子的固定化学计量比

ATP synthase: constrained stoichiometry of the transmembrane rotor.

作者信息

机构信息

出版信息

相似文献

引用本文的文献