Abstract
Incorporation into rabbit liver microsomal membranes of detergent-solubilized cytochrome b 5 stimulates NADH-supported electron flow to ferric cytochrome P-450, but impairs NADPH-dependent reduction of the pigment such as to make the rates of both reactions equivalent; yet, in the enriched preparations NADPH-driven N-oxidation of 4-chloroaniline proceeds at considerably higher rate than does the NADH-supported process. Analysis of transfer of the second electron to oxyferrous cytochrome P-450, as assessed by measuring substrate-induced reoxidation of ferrous cytochrome b 5, reveals faster flow with NADH than with NADPH as the source of reducing equivalents. Quantification of the pools of cytochrome P-450 active in attack on the amine substrate in the presence of either reduced pyridine nucleotide, as well as measurements of maximum arylamine turnover suggest that the cofactor-dependent discrepancy in N-oxidase activity reflects differences in the rates of breakdown of the intermediary enzyme complexes. The NADH- and NADPH-supported pathway of N-oxidation in the cytochrome b 5-supplemented microsomal fractions thus probably involves distinct forms of cytochrome P-450. Alternatively, functional linkage of the cofactor-specific electron-transfer chains to a single cytochrome P-450 species might yield aggregates of differing conformational state and catalytic capacity. The latter concept receives support from experiments with individually reconstituted enzyme systems.
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More From: Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology
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