REGULATION OF INTERPROTEIN ELECTRON-TRANSFER BY TRP-191 OF CYTOCHROME-C PEROXIDASE

被引：47

作者：

MILLER, MA ^{[1
]}

VITELLO, L ^{[1
]}

ERMAN, JE ^{[1
]}

机构：

[1] NO ILLINOIS UNIV,DEPT CHEM,DE KALB,IL 60115

来源：

BIOCHEMISTRY | 1995年 / 34卷 / 37期

关键词：

D O I：

10.1021/bi00037a048

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Cytochrome c peroxidase (CcP) reacts with peroxide to form compound I, an intermediate that has an oxy-fenyl iron center and a stable indolyl radical at Trp 191. During the normal catalytic cycle, the oxy-fenyl heme and the Trp 191 radical are reduced by sequential electron transfers from ferrous cytochrome c (Cc). To investigate the role of protein structure in these electron transfer reactions, mutagenesis was used to replace Trp 191 with Phe. The Trp 191 --> Phe enzyme [CcP(MI,F191)] reacts with peroxide to form an oxy-ferryl iron center and a transient porphyrin radical. The reaction of Cc from horse and yeast with peroxide-oxidized CcP(MI,F191) was characterized under transient and steady-state conditions. The rate of ET from Cc to the oxy-ferryl heme of CcP(MI,F191) was decreased by at least 10 000-fold relative to the CcP(MI) parent. This effect was observed at 20 and 100 mM ionic strength, with both yeast and horse cytochrome c as the substrate. Thus, Trp 191 is a critical component of all pathways that permit rapid reduction of the oxy-ferryl heme by Cc under these conditions. The reaction of the porphyrin radical with Cc was difficult to characterize, owing to the short half-life of this intermediate. The oxidation of Cc by this intermediate had a maximum rate constant of 32 s(-1) at pH 6.0, 25 degrees C. Circumstantial evidence suggests that the porphyrin radical is not directly reduced by Cc, but is instead reduced via a protein-based radical intermediate. The steady-state activity of the mutant enzyme was 300-600-fold lower than the CcP(MI) parent, but k(cat) is 7-20 times greater than the rate constant for reduction of the oxy-fenyl heme under all conditions examined. Thus, the oxy-fenyl heme is not reduced to the ferric state under steady-state conditions. Transient changes in the absorption spectrum further indicate that steady-state oxidation of Cc(2+) by CcP(MI,F191) occurs via reaction of peroxide with the oxy-ferryl enzyme.

引用

页码：12048 / 12058

页数：11

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