缺乏F0a亚基的ATP合酶：F0b2亚基作为旋转c环锚轨的分离、性质及表征

ATP synthase that lacks F0a-subunit: isolation, properties, and indication of F0b2-subunits as an anchor rail of a rotating c-ring.

作者信息

Ono Sakurako, Sone Nobuhito, Yoshida Masasuke, Suzuki Toshiharu

机构信息

Chemical Resources Laboratory, Tokyo Institute of Technology, Nagatsuta 4259, Yokohama 226-8503, Japan.

出版信息

J Biol Chem. 2004 Aug 6;279(32):33409-12. doi: 10.1074/jbc.M404993200. Epub 2004 Jun 2.

DOI:10.1074/jbc.M404993200

PMID:15175330

Abstract

In a rotary motor F1F0-ATP synthase, F0 works as a proton motor; the oligomer ring of F0c-subunits (c-ring) rotates relative to the F0ab2 domain as protons pass through F0 down the gradient. F0ab2 must exert dual functions during rotation, that is, sliding the c-ring (motor drive) while keeping the association with the c-ring (anchor rail). Here we have isolated thermophilic F1F0(-a) which lacks F0a. F1F0(-a) has no proton transport activity, and F0(-a) does not work as a proton channel. Interestingly, ATPase activity of F1F0(-a) is greatly suppressed, even though its F1 sector is intact. Most likely, F0b2 associates with the c-ring as an anchor rail in the intact F1F0; without F0a, this association prevents rotation of the c-ring (and hence the gamma-subunit), which disables ATP hydrolysis at F1. Functional F1F0 is easily reconstituted from purified F0a and F1F0(-a), and thus F0a can bind to its proper location on F1F0(-a) without a large rearrangement of other-subunits.

摘要

在旋转式马达F1F0 - ATP合酶中，F0作为质子马达发挥作用；当质子顺着梯度通过F0时，F0 c亚基的寡聚体环（c环）相对于F0 ab2结构域旋转。F0 ab2在旋转过程中必须发挥双重功能，即滑动c环（马达驱动）同时保持与c环的结合（锚定轨道）。在此，我们分离出了缺少F0 a的嗜热F1F0（-a）。F1F0（-a）没有质子转运活性，且F0（-a）不作为质子通道发挥作用。有趣的是，尽管其F1部分完好无损，但F1F0（-a）的ATP酶活性却受到极大抑制。很可能在完整的F1F0中，F0 b2作为锚定轨道与c环结合；没有F0 a时，这种结合会阻止c环（进而γ亚基）的旋转，从而使F1处的ATP水解失效。功能性F1F0很容易从纯化的F0 a和F1F0（-a）中重新组装而成，因此F0 a能够结合到F1F0（-a）上的适当位置，而无需其他亚基进行大量重排。

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缺乏F0a亚基的ATP合酶：F0b2亚基作为旋转c环锚轨的分离、性质及表征

ATP synthase that lacks F0a-subunit: isolation, properties, and indication of F0b2-subunits as an anchor rail of a rotating c-ring.

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