完全还原的膜结合细胞色素氧化酶在176K下与氧气的反应机制。
The mechanism of reaction of fully reduced membrane-bound cytochrome oxidase with oxygen at 176K.
作者信息
Clore G M, Chance E M
出版信息
Biochem J. 1978 Sep 1;173(3):799-810. doi: 10.1042/bj1730799.
Abstract
- The results of non-linear optimization studies on the mechanism of reaction of fully reduced cytochrome oxidase with O2 at 176K are presented. The analysis is carried out on data obtained by means of dual-wavelength multi-channel spectroscopy at three wavelength pairs (604-630, 608-630 and 830-940 nm) and at three O2 concentrations (60, 200 and 1180 micron). The only model that satisfies the triple requirement of a standard deviation within the standard error of the experimental data, good determination of the optimized parameters and a random distribution of residuals is a three-species sequential mechanism. 2. On the basis of the optimized values of the relative absorption coefficients of the intermediates at each wavelength obtained from the present paper together with data from low-temperature trapping, e.p.r. and magnetic-susceptibility studies, the possible valence states of the metal centres in each of the intermediates are discussed.
摘要
- 本文展示了在176K下对完全还原型细胞色素氧化酶与O₂反应机制进行非线性优化研究的结果。分析是基于通过双波长多通道光谱法在三对波长(604 - 630、608 - 630和830 - 940nm)以及三种O₂浓度(60、200和1180微米)下获得的数据进行的。唯一满足实验数据标准误差内标准差的三重要求、优化参数的良好测定以及残差随机分布的模型是一种三物种顺序机制。2. 根据本文获得的各波长下中间体相对吸收系数的优化值,结合低温捕获、电子顺磁共振和磁化率研究的数据,讨论了各中间体中金属中心可能的价态。
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