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高铁细胞色素c在细胞色素c氧化酶中诱导亚铁细胞色素c氧化的单相动力学。

Ferricytochrome c induces monophasic kinetics of ferrocytochrome c oxidation in cytochrome c oxidase.

作者信息

Reimann A, Röhm K H, Kadenbach B

机构信息

Fachbereich Chemie (Biochemie), Philipps-Universität, Marburg, Germany.

出版信息

J Bioenerg Biomembr. 1993 Aug;25(4):393-9. doi: 10.1007/BF00762465.

Abstract

The kinetics of ferrocytochrome c oxidation by reconstituted cytochrome c oxidase (COX) from bovine heart was followed by a spectrophotometric method, using on-line data collection and subsequent calculation of reaction rates from a function fitted to the progress curve. When reaction rates were calculated at increasing reaction times, the multiphasic kinetics of ferrocytochrome c oxidation gradually changed into monophasic Michaelis-Menten kinetics. The same phenomenon was observed when ferrocytochrome c oxidation was followed in the presence of increasing amounts of ferricytochrome c. From these results we conclude that ferricytochrome c shifts the multiphasic kinetics of ferrocytochrome c oxidation by COX into monophasic kinetics, comparable to high ionic strength conditions. Furthermore, we show that ferricytochrome c inhibits the "high affinity phase" of ferrocytochrome c oxidation in an apparently competitive way, while inhibition of the "low affinity phase" is noncompetitive. These findings are consistent with a "regulatory site model" where both the catalytic and the regulatory site bind ferro- as well as ferricytochrome c.

摘要

采用分光光度法,通过在线数据收集并根据拟合至进程曲线的函数随后计算反应速率,跟踪了牛心脏重组细胞色素c氧化酶(COX)催化亚铁细胞色素c氧化的动力学过程。当在不断增加的反应时间计算反应速率时,亚铁细胞色素c氧化的多相动力学逐渐转变为单相米氏动力学。当在不断增加量的高铁细胞色素c存在下跟踪亚铁细胞色素c氧化时,观察到相同现象。从这些结果我们得出结论,高铁细胞色素c将COX催化的亚铁细胞色素c氧化的多相动力学转变为单相动力学,类似于高离子强度条件。此外,我们表明高铁细胞色素c以明显竞争性方式抑制亚铁细胞色素c氧化的“高亲和力相”,而对“低亲和力相”的抑制是非竞争性的。这些发现与“调节位点模型”一致,其中催化位点和调节位点均结合亚铁及高铁细胞色素c。

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