细胞色素 bc1 产生 ROS:从血红素 b 辅因子突变体的影响推断其机制。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Jakub Pagacz , Arkadiusz Borek , Artur Osyczka
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引用次数: 0

摘要

细胞色素 bc1 是电子传递链中负责产生活性氧(ROS)的酶之一。虽然 ROS 被认为是醌氧化位点(Qo)副反应的产物,但其产生的分子方面仍不清楚。其中一个问题涉及hemes b(bL 和 bH)的氧化还原电位(Em)和特性对 Qo 产生 ROS 的影响。为了解决这个问题,我们研究了细菌细胞色素 bc1 突变体中 ROS 的产生情况,这些突变体用 Lys 或 Asn 取代了血红素 bL 或 bH 的一个 His 配体。我们观察到,Asn突变体电子流的严重减慢对ROS产生的影响与抗霉素对原生细胞色素bc1(WT)的抑制作用相似。与 WT 相比,Lys 突变体中血红蛋白 b(bL 或 bH)含量的增加并不会对 ROS 生成水平产生重大影响。在动态模型的框架下对实验数据进行分析后得出的结论是,观察到的 ROS 生成速率和水平反映了两个因素的综合影响:血红素 bL 处于还原状态的概率和电子从血红素 bL 向 Qo 转移的概率。在所有测试形式中,短路产生的大量 ROS 使 ROS 水平保持在 15%左右。总的来说,细胞色素 bc1 产生的 ROS 对血红素 b 辅因子 Em 变化的敏感性非常低,因此调整血红素 b 的 Em 作为限制超氧化物产生的因素的意义仍是一个未决问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ROS production by cytochrome bc1: Its mechanism as inferred from the effects of heme b cofactor mutants
Cytochrome bc1 is one of the enzymes of electron transport chain responsible for generation of reactive oxygen species (ROS). While ROS are considered to be products of side reactions of quinol oxidation site (Qo), molecular aspects of their generation remain unclear. One of them concerns significance of hemes b (bL and bH) redox potentials (Em) and properties on ROS generation by Qo. Here we addressed this question by examining ROS production in mutants of bacterial cytochrome bc1 that replaced one of the His ligand of either heme bL or bH with Lys or Asn. We observed that severe slowing down of electron flow by the Asn mutants induces similar effects on ROS production as inhibition by antimycin in the native cytochrome bc1 (WT). An increase in the Em of hemes b (either bL or bH) in Lys mutants does not exert major effect on the ROS production level, compared to WT. The experimental data were analyzed in the frame of a dynamic model to conclude that the observed ROS rates and levels reflect a combinatory effect of two factors: probability of heme bL being in the reduced state and probability of electron transfer from heme bL towards Qo. A significant contribution from short-circuits maintains the ROS levels at ~15 % in all tested forms. Overall, ROS production by cytochrome bc1 shows remarkably low susceptibility to changes in the Em of heme b cofactors, leaving significance of tuning the Em of hemes b as factor limiting superoxide production an open question.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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