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Beta sheet 2-alpha helix C loop of cytochrome P450 reductase serves as a docking site for redox partners.


ABSTRACT: As a promiscuous redox partner, the biological role of cytochrome P450 reductase (CPR) depends significantly on protein-protein interactions. We tested a hypothesized CPR docking site by mutating D113, E115, and E116 to alanine and assaying activity toward various electron acceptors as a function of ionic strength. Steady-state cytochrome c studies demonstrated the mutations improved catalytic efficiency and decreased the impact of ionic strength on catalytic parameters when compared to wild type. Based on activity toward 7-ethoxy-4-trifluoro-methylcoumarin, CYP2B1 and CPR favored formation of an active CYP2B1*CPR complex and inactive (CYP2B1)(2)*CPR complex until higher ionic strength whereby only the binary complex was observed. The mutations increased dissociation constants only for the binary complex and suppressed the ionic strength effect. Studies with a non-binding substrate, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) suggest changes in activity toward cytochrome c and CYP2B1 reflect alterations in the route of electron transfer caused by the mutations. Electrostatic modeling of catalytic and binding parameters confirmed the importance of D113 and especially the double mutant E115 and E116 as mediators in forming charge-charge interactions between CPR and complex partners.

SUBMITTER: Jang HH 

PROVIDER: S-EPMC2847005 | biostudies-literature | 2010 Jun

REPOSITORIES: biostudies-literature

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Beta sheet 2-alpha helix C loop of cytochrome P450 reductase serves as a docking site for redox partners.

Jang Hyun-Hee HH   Jamakhandi Arvind P AP   Sullivan Shane Z SZ   Yun Chul-Ho CH   Hollenberg Paul F PF   Miller Grover P GP  

Biochimica et biophysica acta 20100210 6


As a promiscuous redox partner, the biological role of cytochrome P450 reductase (CPR) depends significantly on protein-protein interactions. We tested a hypothesized CPR docking site by mutating D113, E115, and E116 to alanine and assaying activity toward various electron acceptors as a function of ionic strength. Steady-state cytochrome c studies demonstrated the mutations improved catalytic efficiency and decreased the impact of ionic strength on catalytic parameters when compared to wild typ  ...[more]

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