测量 bc1 复合物血红素的氧化还原平衡来测定线粒体膜电位和 pH 梯度。
Measurement of the mitochondrial membrane potential and pH gradient from the redox poise of the hemes of the bc1 complex.
机构信息
Department of Radiology, Dartmouth Medical School, Hanover, New Hampshire, USA.
出版信息
Biophys J. 2012 Mar 7;102(5):1194-203. doi: 10.1016/j.bpj.2012.02.003. Epub 2012 Mar 6.
Abstract
The redox potentials of the hemes of the mitochondrial bc(1) complex are dependent on the proton-motive force due to the energy transduction. This allows the membrane potential and pH gradient components to be calculated from the oxidation state of the hemes measured with multi-wavelength cell spectroscopy. Oxidation states were measured in living RAW 264.7 cells under varying electron flux and membrane potential obtained by a combination of oligomycin and titration with a proton ionophore. A stochastic model of bc(1) turnover was used to confirm that the membrane potential and redox potential of the ubiquinone pool could be measured from the redox poise of the b-hemes under physiological conditions assuming the redox couples are in equilibrium. The pH gradient was then calculated from the difference in redox potentials of cytochrome c and ubiquinone pool using the stochastic model to evaluate the ΔG of the bc(1) complex. The technique allows absolute quantification of the membrane potential, pH gradient, and proton-motive force without the need for genetic manipulation or exogenous compounds.
摘要
线粒体 bc(1) 复合物血红素的氧化还原电位取决于能量传递产生的质子动力势。这使得可以根据多波长细胞光谱测量的血红素的氧化状态来计算膜电位和 pH 梯度分量。在通过寡霉素组合和质子离子载体滴定获得不同电子通量和膜电位的情况下,在活 RAW 264.7 细胞中测量了氧化状态。使用 bc(1) 周转率的随机模型来确认可以从生理条件下 b-血红素的氧化还原平衡点测量膜电位和泛醌池的氧化还原电势,假设氧化还原对处于平衡状态。然后使用随机模型从细胞色素 c 和泛醌池的氧化还原电势差计算 pH 梯度,以评估 bc(1) 复合物的 ΔG。该技术无需遗传操作或外源性化合物即可实现膜电位、pH 梯度和质子动力势的绝对定量。
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