质子动力势驱动的 FoF1-ATP 合酶的偏向布朗棘轮旋转。

Biased Brownian stepping rotation of FoF1-ATP synthase driven by proton motive force.

机构信息

Department of Applied Chemistry, School of Engineering, The University of Tokyo, Tokyo, Japan.

出版信息

Nat Commun. 2013;4:1631. doi: 10.1038/ncomms2631.

Abstract

FoF1-ATP synthase (FoF1) produces most of the ATP in cells, uniquely, by converting the proton motive force (pmf) into ATP production via mechanical rotation of the inner rotor complex. Technical difficulties have hampered direct investigation of pmf-driven rotation, which are crucial to elucidating the chemomechanical coupling mechanism of FoF1. Here we develop a novel supported membrane system for direct observation of the rotation of FoF1 driven by pmf that was formed by photolysis of caged protons. Upon photolysis, FoF1 initiated rotation in the opposite direction to that of the ATP-driven rotation. The step size of pmf-driven rotation was 120°, suggesting that the kinetic bottleneck is a catalytic event on F1 with threefold symmetry. The reaction equilibrium was slightly biased to ATP synthesis like under physiological conditions, and FoF1 showed highly stochastic behaviour, frequently making a 120° backward step. This new experimental system would be applicable to single-molecule study of other membrane proteins.

摘要

FoF1-ATP 合酶（FoF1）通过利用质子动力势（pmf）进行机械内转子复合物的旋转来独特地将大多数 ATP 转化为 ATP 生产。技术困难阻碍了 pmf 驱动旋转的直接研究，这对于阐明 FoF1 的化学机械偶联机制至关重要。在这里，我们开发了一种新的支持膜系统，用于直接观察通过笼状质子光解形成的 pmf 驱动的 FoF1 旋转。光解后，FoF1 以与 ATP 驱动的旋转相反的方向启动旋转。pmf 驱动的旋转的步长为 120°，表明动力学瓶颈是具有三倍对称性的 F1 上的催化事件。反应平衡与生理条件下类似，略微偏向于 ATP 合成，并且 FoF1 表现出高度随机的行为，经常进行 120°的向后步骤。这种新的实验系统将适用于其他膜蛋白的单分子研究。

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质子动力势驱动的 FoF1-ATP 合酶的偏向布朗棘轮旋转。

Biased Brownian stepping rotation of FoF1-ATP synthase driven by proton motive force.

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