兔肝微粒体nadph -细胞色素P-450还原酶功能-SH基团的定位

Yukio Nisimoto, Yukio Shibata
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引用次数: 9

摘要

纯化的NADPH-细胞色素P-450还原酶(NADPH:铁胞色素氧化还原酶,EC 1.6.2.4)可被过量PCMB接触的总-SH含量为7.0±0.3 mol硫醇组/mol蛋白。在低浓度的PCMB下修饰4个-SH基团刺激了酶的活性。另一方面,用过量的PCMB进一步阻断-SH组(6-7 mol -SH组/mol蛋白)完全抑制细胞色素c(或DCPI)还原酶活性。在逐渐滴定过程中,PCMB与第5和第6 -SH基团结合,迅速消除了黄素的荧光猝灭。动力学和荧光分析证实了NADP+或2′-AMP在与PCMB的反应中部分保护了这两个催化功能必需的-SH基团。过量的PCMB开始与酶预先培养的配体竞争。加入近似时的谱摄动。6-7等量PCMB/mol酶伴轻微蓝移,在380 nm处吸光度最大,在475 nm处出现明显的肩部。与天然酶相比,3-电子还原半醌形式的pcmb处理酶具有与1-电子还原半醌相同的吸收光谱,在585 nm处具有最大吸收,在635 nm处具有宽肩。抑制作用可能是由于NADPH不易接近FAD结合位点和吡啶核苷酸结合位点,因为完全修饰后FAD的还原速度变得非常缓慢。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Location of functional -SH groups in NADPH-cytochrome P-450 reductase from rabbit liver microsomes

The total -SH content of purified NADPH-cytochrome P-450 reductase (NADPH: ferricytochrome oxidoreductase, EC 1.6.2.4) from rabbit liver microsomes accessible to an excess equivalent of PCMB was 7.0 ± 0.3 mol thiol groups/mol protein. The modification of four -SH groups at low concentrations of PCMB stimulated the activity of the enzyme. On the other hand, further blocking of -SH groups (6–7 mol -SH groups/mol protein) with an excess amount of PCMB completely inhibited cytochrome c (or DCPI) reductase activity. The fluorescence quenching of the flavin was rapidly removed by binding of PCMB to a fifth and sixth -SH group during a gradual titration. Kinetic and fluorimetric analyses confirmed the suggestion that these two -SH groups essential for catalytic function were partly protected by NADP+ or 2′-AMP against the reaction with PCMB. Excess PCMB begins to compete with the ligand preincubated with the enzyme. The spectral perturbation on the addition of approx. 6–7 equiv. PCMB/mol enzyme is accompanied by a slight blue shift of the absorbance maximum at 380 nm, with the appearance of a pronounced shoulder at 475 nm. In contrast to the native enzyme, 3-electron-reduced semiquinone form of PCMB-treated enzyme showed the same absorption spectrum as 1-electron-reduced semiquinone which has an absorption maximum at 585 nm with a broad shoulder around 635 nm. An inhibitory effect may be attributable to the fact that NADPH is less accessible to the FAD binding site as well as the pyridine nucleotide binding site, since the rate of FAD reduction becomes extremely slow after complete modification.

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