线粒体 ATP 合酶中质子转移和力生成的结构基础。

Structural basis of proton translocation and force generation in mitochondrial ATP synthase.

机构信息

Department of Structural Biology, Max Planck Institute of Biophysics, Frankfurt, Germany.

出版信息

Elife. 2017 Dec 6;6:e33274. doi: 10.7554/eLife.33274.

DOI:10.7554/eLife.33274

PMID:29210357

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5747523/

Abstract

ATP synthases produce ATP by rotary catalysis, powered by the electrochemical proton gradient across the membrane. Understanding this fundamental process requires an atomic model of the proton pathway. We determined the structure of an intact mitochondrial ATP synthase dimer by electron cryo-microscopy at near-atomic resolution. Charged and polar residues of the -subunit stator define two aqueous channels, each spanning one half of the membrane. Passing through a conserved membrane-intrinsic helix hairpin, the lumenal channel protonates an acidic glutamate in the -ring rotor. Upon ring rotation, the protonated glutamate encounters the matrix channel and deprotonates. An arginine between the two channels prevents proton leakage. The steep potential gradient over the sub-nm inter-channel distance exerts a force on the deprotonated glutamate, resulting in net directional rotation.

摘要

ATP 合酶通过旋转催化产生 ATP，由膜两侧的电化学质子梯度驱动。要理解这一基本过程，需要一个质子通道的原子模型。我们通过近原子分辨率的电子冷冻显微镜确定了完整的线粒体 ATP 合酶二聚体的结构。β亚基定子的带电和极性残基定义了两个含水通道，每个通道跨越膜的一半。质子穿过保守的膜内在螺旋发夹，在β环转子中质子化一个酸性谷氨酸。当环旋转时，质子化的谷氨酸遇到基质通道并去质子化。两个通道之间的精氨酸阻止质子泄漏。两个通道之间亚纳米的陡电势梯度对去质子化的谷氨酸施加力，导致其发生净定向旋转。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6bd3/5747523/5a6b0d838b88/elife-33274-fig1.jpg

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线粒体 ATP 合酶中质子转移和力生成的结构基础。

Structural basis of proton translocation and force generation in mitochondrial ATP synthase.

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