Clore G M, Andréasson L E, Karlsson B, Aasa R, Malmström B G
Biochem J. 1980 Jan 1;185(1):139-54. doi: 10.1042/bj1850139.
The reaction of fully reduced soluble bovine heart cytochrome oxidase with O2 at 173K was investigated by low-temperature optical and e.p.r. spectroscopy, and the kinetics of the reaction were analysed by non-linear optimization techniques. The only e.p.r. signals seen during the course of the reaction are those attributable to low-spin cytochrome a3+ and CuA2+. Quantitative analysis of e.p.r. signals shows that, at the end point of the reaction at 173K, nearly 100% of CuA is in the cupric state but only about 40% of cytochrome a is in the ferric low-spin state. The optical spectra recorded at this stage of the reaction show incomplete oxidation of haem and the absence of a 655 nm absorption band. The only reaction scheme that accounts for both the e.p.r. and optical data is a four-intermediate mechanism involving a branching pathway. The reaction is initiated when fully reduced cytochrome oxidase reacts with O2 to form intermediate I. This is then converted into either intermediate IIA or intermediate IIB. Of these, intermediate IIB is a stable end product at 173 K, but intermediate IIA is converted into intermediate III, which is the stable state at 173 K in this branch of the mechanism. The kinetic analysis of the e.p.r. data allows the unambiguous assignments of the valence states of cytochrome a and CuA in the intermediates. Intermediate I contains cytochrome a2+ and CuA+, intermediate IIA contains low-spin cytochroma a3+ and CuA+, intermediate IIB contains cytochrome a2+ and CuA2+, and intermediate III contains low-spin cytochrome a3+ and CuA2+. The electronic state of the O2-binding CuBa3 couple during the reoxidation of cytochrome oxidase is discussed in terms of an integrated structure containing CuB, cytochrome a3 and O2.
利用低温光学和电子顺磁共振光谱研究了完全还原的可溶性牛心细胞色素氧化酶在173K下与O₂的反应,并通过非线性优化技术分析了反应动力学。在反应过程中观察到的唯一电子顺磁共振信号是归因于低自旋细胞色素a3⁺和CuA₂⁺的信号。电子顺磁共振信号的定量分析表明,在173K反应终点时,近100%的CuA处于二价铜状态,但只有约40%的细胞色素a处于高铁低自旋状态。在反应的这一阶段记录的光谱显示血红素未完全氧化且不存在655nm吸收带。唯一能解释电子顺磁共振和光学数据的反应方案是涉及分支途径的四中间体机制。当完全还原的细胞色素氧化酶与O₂反应形成中间体I时,反应开始。然后中间体I转化为中间体IIA或中间体IIB。其中,中间体IIB是173K时的稳定终产物,但中间体IIA转化为中间体III,中间体III是该机制此分支中173K时的稳定状态。对电子顺磁共振数据的动力学分析允许明确确定中间体中细胞色素a和CuA的价态。中间体I包含细胞色素a²⁺和CuA⁺,中间体IIA包含低自旋细胞色素a3⁺和CuA⁺,中间体IIB包含细胞色素a²⁺和CuA₂⁺,中间体III包含低自旋细胞色素a3⁺和CuA₂⁺。根据包含CuB、细胞色素a3和O₂的整合结构讨论了细胞色素氧化酶再氧化过程中O₂结合的CuBa3偶联的电子状态。