细胞色素c氧化酶:初级氧中间体的衰变涉及细胞色素a的直接电子转移。
Cytochrome c oxidase: decay of the primary oxygen intermediate involves direct electron transfer from cytochrome a.
作者信息
Han S H, Ching Y C, Rousseau D L
机构信息
AT&T Bell Laboratories, Murray Hill, NJ 07974.
出版信息
Proc Natl Acad Sci U S A. 1990 Nov;87(21):8408-12. doi: 10.1073/pnas.87.21.8408.
Abstract
The decay of the primary intermediate generated in the reaction of oxygen with cytochrome c oxidase is nearly one order of magnitude faster in the fully reduced form of the enzyme than it is in the mixed valence form. To account for this observation, we propose a model describing the early molecular events in the reaction. In this model the decay of the primary Fe-O2 intermediate in the fully reduced enzyme is a consequence of direct electron transfer from cytochrome a. To test the model we measured the time dependence of the oxidation of cytochrome a by monitoring the resonance Raman scattering intensity of its vibrational modes. A rapid oxidation of cytochrome a was detected that quantitatively agrees with the model. These results indicate that the mechanism of oxygen reduction and proposed frameworks for proton translocation must be reexamined.
摘要
在氧气与细胞色素c氧化酶的反应中产生的初级中间体的衰变,在该酶的完全还原形式中比在混合价态形式中快近一个数量级。为了解释这一观察结果,我们提出了一个描述该反应早期分子事件的模型。在这个模型中,完全还原的酶中初级Fe-O₂中间体的衰变是细胞色素a直接电子转移的结果。为了测试该模型,我们通过监测细胞色素a振动模式的共振拉曼散射强度来测量其氧化的时间依赖性。检测到细胞色素a的快速氧化,这与模型在数量上是一致的。这些结果表明,必须重新审视氧还原机制和提出的质子转运框架。
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