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Hybrid fusions show that inter-monomer electron transfer robustly supports cytochrome bc1 function in vivo

机译：混合融合表明单体间电子转移在体内强有力地支持细胞色素bc1的功能

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Electronic connection between Qo and Qi quinone catalytic sites of dimeric cytochrome bc1 is a central feature of the energy-conserving Q cycle. While both the intra- and inter-monomer electron transfers were shown to connect the sites in the enzyme, mechanistic and physiological significance of the latter remains unclear. Here, using a series of mutated hybrid cytochrome bc1-like complexes, we show that inter-monomer electron transfer robustly sustains the function of the enzyme in vivo, even when the two subunits in a dimer come from different species. This indicates that minimal requirement for bioenergetic efficiency is to provide a chain of cofactors for uncompromised electron flux between the catalytic sites, while the details of protein scaffold are secondary.

机译：二聚体细胞色素bc1的Qo和Qi醌催化位点之间的电子连接是节能Q循环的主要特征。虽然单体内和单体间电子转移均显示出连接酶中的位点，但后者的机械和生理意义仍然不清楚。在这里，使用一系列突变的杂化细胞色素bc1样复合物，我们表明，即使二聚体中的两个亚基来自不同物种，单体间电子转移也能在体内牢固地维持酶的功能。这表明对生物能效率的最低要求是为催化位点之间的毫不妥协的电子通量提供一连串的辅因子，而蛋白质支架的细节是次要的。

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期刊名称 Elsevier Sponsored Documents
作者
Robert Ekiert; Monika Czapla; Marcin Sarewicz; Artur Osyczka;
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作者单位

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年(卷),期 -1(451),2
年度 -1
页码 270–275
总页数 6
原文格式 PDF
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关键词
Cytochrome bc1 Mitochondrial complex III Hybrid fusion protein Electron transfer Energy conversion;

机译：细胞色素bc1;线粒体复合物III;杂合融合蛋白;电子转移;能量转换;

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专利

1. Hybrid fusions show that inter-monomer electron transfer robustly supports cytochrome bc(1) function in vivo [J] . Ekiert Robert, Czapla Monika, Sarewicz Marcin, Biochemical and Biophysical Research Communications . 2014,第2期

机译：混合融合显示，单体间电子转移在体内强有力地支持细胞色素bc（1）的功能
2. Design and use of photoactive ruthenium complexes to study electron transfer within cytochrome bc1 and from cytochrome bc1 to cytochrome c [J] . MillettF., HavensJ., RajagukgukS., Biochimica et biophysica acta. Bioenergetics . 2013,第11a12期

机译：设计和使用光敏钌配合物来研究电子在细胞色素bc1中以及从细胞色素bc1到细胞色素c的转移
3. Mutations in cytochrome b that affect kinetics of the electron transfer reactions at center N in the yeast cytochrome bc1 complex. [J] . Rotsaert FA, Covian R, Trumpower BL Biochimica et biophysica acta. Bioenergetics . 2008,第3期

机译：细胞色素b中的突变会影响酵母细胞色素bc1复合物中N中心电子转移反应的动力学。
4. Second-Generation Electron Transfer Dissociation (ETD) on the Thermo Scientific Orbitrap Fusion Mass Spectrometer with Improved Functionality, Increased Speed, and Improved Robustness of Data [C] . Christopher Mullen, Lee Earley, Jean-Jacques Dunyach, American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2013

机译：第二代电子传递解离（ETD）在Thermo Scientific orbiTrap融合质谱仪上，具有改进的功能，速度提高和数据的鲁棒性
5. Fast kinetic studies of electron transfer reactions for cytochrome bc1 and cytochrome b5. [D] . Yuan, Quan. 2009

机译：细胞色素bc1和细胞色素b5电子转移反应的快速动力学研究。
6. Inter-monomer Electron Transfer Between the Low Potential b Hemes of Cytochrome bc1 [O] . Pascal Lanciano, Dong-Woo Lee, Honghui Yang, -1

机译：细胞色素BC1的低电位B血液之间的单体电子转移
7. Hybrid fusions show that inter-monomer electron transfer robustly supports cytochrome bc1 function in vivo [O] . Ekiert Robert, Czapla Monika, Sarewicz Marcin, 2014

机译：混合融合表明，单体间电子转移在体内强烈支持细胞色素bc1功能
8. Cytochrome Electron Transfer and Biomolecular Electronics [R] . Wilson, G. S., Cusanovich, M. A. 1988

机译：细胞色素电子转移和生物分子电子学

Hybrid fusions show that inter-monomer electron transfer robustly supports cytochrome bc1 function in vivo

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