NADH:硝酸还原酶的电子摄取化学计量学及氧化还原中点电位
Stoichiometry of electron uptake and oxidation-reduction midpoint potentials of NADH:nitrate reductase.
作者信息
Spence J T, Barber M J, Solomonson L P
机构信息
Department of Chemistry and Biochemistry, Utah State University, Logan 84322.
出版信息
Biochem J. 1988 Mar 15;250(3):921-3. doi: 10.1042/bj2500921.
Microcoulometric titrations of NADH:nitrate reductase at 25 degrees C in Mops buffer, pH 7.0, showed that the native enzyme, containing functional FAD, haem and Mo, required addition of five electrons for complete reduction. Reduction of the native enzyme occurred in three waves corresponding to addition of reducing equivalents to the centres in the order: Mo, haem, FAD. Oxidation-reduction midpoint potentials (E'0) for the various redox couples were calculated to be as follows: MoVI/MoV, +16 mV; MoV/MoIV, -27 mV; haemoxidized/haemreduced, -172 mV; FAD/FADH2, -283 mV. The values for the haem and flavin are in excellent agreement with those obtained by visible titrations, namely -164 mV and -288 mV respectively. In contrast, the results for the Mo centre are 28-50 mV more positive than the values previously determined by e.p.r. analysis of frozen enzyme samples poised at defined potentials at 25 degrees C and suggest different pH-dependencies or entropies of reduction for the Mo couples.
在25摄氏度、pH 7.0的莫普斯缓冲液中对NADH:硝酸还原酶进行微库仑滴定,结果表明,含有功能性黄素腺嘌呤二核苷酸(FAD)、血红素和钼的天然酶完全还原需要添加五个电子。天然酶的还原过程分三个波进行,对应于按以下顺序向中心添加还原当量:钼、血红素、FAD。计算得出各种氧化还原对的氧化还原中点电位(E'0)如下:钼Ⅵ/钼Ⅴ,+16毫伏;钼Ⅴ/钼Ⅳ,-27毫伏;氧化态血红素/还原态血红素,-172毫伏;FAD/FADH2,-283毫伏。血红素和黄素的值与通过可见滴定法获得的值非常一致,分别为-164毫伏和-288毫伏。相比之下,钼中心的结果比之前在25摄氏度下通过对处于特定电位的冷冻酶样品进行电子顺磁共振(e.p.r.)分析所确定的值正28 - 50毫伏,这表明钼对的还原具有不同的pH依赖性或熵。
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