Wilson M T, Jensen P, Aasa R, Malmström B G, Vänngård T
Biochem J. 1982 May 1;203(2):483-92. doi: 10.1042/bj2030483.
Cytochrome oxidase (EC 1.9.3.1; ferrocytochrome c:oxygen oxidoreductase) was studied during steady-state by optical and e.p.r. methods. Starting with either the 'resting' or the 'pulsed' enzyme, oxidase, cytochrome c, ascorbate and O2 were mixed and the reaction monitored optically. Tetramethylphenylenediamine was used as mediator to poise the steady-state to the desired reduction level. After mixing, the reaction was quenched by the used of rapid-freeze techniques. The e.p.r. spectra of samples captured at increasing tetramethylphenylenediamine concentrations (i.e. higher electron flux) show decreasing g = 2 (Cu A) and g = 3 (cytochrome a) signals. No Cu B or g = 6 signals (high-spin cytochrome a3) could be found during the reaction. Also, the signal with peaks at g = 1.69, 1.78 and 5 as well as the g = 12 signal was hardly detectable at higher turnover rates. The only new signal appearing during turnover is a radical signal, which is discussed in terms of a protein radical. Finally, a scheme is presented, proposing a catalytic cycle for cytochrome oxidase with respect to the O2 binding Cu B-cytochrome a3 unit.
利用光学和电子顺磁共振方法,在稳态条件下对细胞色素氧化酶(EC 1.9.3.1;亚铁细胞色素c:氧氧化还原酶)进行了研究。从“静止”或“脉冲”状态的酶开始,将氧化酶、细胞色素c、抗坏血酸盐和氧气混合,并通过光学方法监测反应。使用四甲基苯二胺作为介质,将稳态调节到所需的还原水平。混合后,通过快速冷冻技术淬灭反应。在四甲基苯二胺浓度增加(即电子通量更高)时捕获的样品的电子顺磁共振光谱显示,g = 2(铜A)和g = 3(细胞色素a)信号减弱。在反应过程中未发现铜B或g = 6信号(高自旋细胞色素a3)。此外,在较高的周转率下,在g = 1.69、1.78和5处有峰的信号以及g = 12信号几乎检测不到。周转过程中出现的唯一新信号是一个自由基信号,本文从蛋白质自由基的角度对其进行了讨论。最后,提出了一个方案,针对氧气结合铜B - 细胞色素a3单元提出了细胞色素氧化酶的催化循环。