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细胞色素c氧化酶中中间态OH的质子泄漏增加。

Elevated proton leak of the intermediate OH in cytochrome c oxidase.

作者信息

Bloch Dmitry A, Jasaitis Audrius, Verkhovsky Michael I

机构信息

Institute of Biotechnology, 00014 University of Helsinki, Helsinki, Finland.

出版信息

Biophys J. 2009 Jun 3;96(11):4733-42. doi: 10.1016/j.bpj.2009.03.006.

DOI:10.1016/j.bpj.2009.03.006
PMID:19486696
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2711495/
Abstract

The kinetics of the formation and relaxation of transmembrane electric potential (Deltapsi) during the complete single turnover of CcO was studied in the bovine heart mitochondrial and the aa(3)-type Paracoccus denitrificans enzymes incorporated into proteoliposome membrane. The real-time Deltapsi kinetics was followed by the direct electrometry technique. The prompt oxidation of CcO and formation of the activated, oxidized (O(H)) state of the enzyme leaves the enzyme trapped in the open state that provides an internal leak for protons and thus facilitates dissipation of Deltapsi (tau(app) < or = 0.5-0.8 s). By contrast, when the enzyme in the O(H) state is rapidly re-reduced by sequential electron delivery, Deltapsi dissipates much slower (tau(app) > 3 s). In P. denitrificans CcO proteoliposomes the accelerated Deltapsi dissipation is slowed down by a mutational block of the proton conductance through the D-, but not K-channel. We concluded that in contrast to the other intermediates the O(H) state of CcO is vulnerable to the elevated internal proton leak that proceeds via the D-channel.

摘要

在牛心线粒体以及整合到蛋白脂质体膜中的aa(3)型反硝化副球菌酶中,研究了细胞色素c氧化酶(CcO)完整单次周转过程中跨膜电势(Δψ)形成和弛豫的动力学。通过直接电测技术跟踪实时Δψ动力学。CcO的快速氧化以及酶的活化氧化(O(H))状态的形成,使酶被困在开放状态,该状态为质子提供内部泄漏通道,从而促进Δψ的耗散(表观时间常数τ(app)≤0.5 - 0.8秒)。相比之下,当处于O(H)状态的酶通过顺序电子传递迅速重新还原时,Δψ的耗散要慢得多(τ(app)>3秒)。在反硝化副球菌CcO蛋白脂质体中,通过D通道而非K通道的质子传导突变阻滞减缓了加速的Δψ耗散。我们得出结论,与其他中间体不同,CcO的O(H)状态易受通过D通道进行的内部质子泄漏增加的影响。

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