Probing the Interaction of Bovine Cytochrome P450scc (CYP11A1) with Adrenodoxin: Evaluating Site-Directed Mutations by Molecular Modeling
| Autor: | Ronald W. Estabrook, Natalya V. Strushkevich, Sandra E. Graham, Julian A. Peterson, Tamara N. Azeva, Andrei A. Gilep, Galina I. Lepesheva, Sergey A. Usanov |
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| Rok vydání: | 2002 |
| Předmět: |
Models
Molecular endocrine system Arginine Molecular Sequence Data Lysine Mutant Cleavage (embryo) Biochemistry Mice Adrenodoxin Escherichia coli Animals Humans Amino Acid Sequence Cholesterol Side-Chain Cleavage Enzyme Cloning Molecular chemistry.chemical_classification Sequence Homology Amino Acid biology Cholesterol side-chain cleavage enzyme Cytochrome P450 Recombinant Proteins Rats Kinetics Enzyme chemistry Mutagenesis Site-Directed biology.protein Cattle Sequence Alignment hormones hormone substitutes and hormone antagonists |
| Zdroj: | Biochemistry. 41:8310-8320 |
| ISSN: | 1520-4995 0006-2960 |
| DOI: | 10.1021/bi0255928 |
| Popis: | The present study was undertaken to evaluate the role of positively charged amino acid residues proposed to reside on the proximal surface of bovine cytochrome P450 cholesterol side chain cleavage (P450scc, CYP11A1) and to determine which residues may be involved in protein-protein interactions with the electron carrier adrenodoxin (Adx). In previous studies, nine different lysine residues were identified by chemical and immunological cross-linking experiments as potentially interacting with Adx, while in the present study, two arginine residues have been identified from sequence alignments. From these 11 residues, 13 different P450scc mutants were made of which only seven were able to be expressed and characterized. Each of the seven mutants were evaluated for their ability to bind Adx, to be reduced, and for their enzymatic activity. Among these, K403Q and K405Q showed a consistent decrease in Adx binding, the ability to be reduced by Adx, and enzymatic activity, with K405Q being affected to a much greater extent. More dramatic was the complete loss of Adx binding by R426Q, while still retaining its ability to be chemically reduced and bind carbon monoxide. Independently, a homology model of P450scc was constructed and docked with the structure of Adx. Four potential sites of interaction were identified: P450scc:K403 with Adx:D76, P450scc:K405 with Adx:D72; P450scc:R426 with Adx:E73, and P450scc:K267 with Adx:E47. Thus, the biochemical and molecular modeling studies together support the hypothesis that K267, K403, K405, and R426 participate in the electrostatic interaction of P450scc with Adx. |
| Databáze: | OpenAIRE |
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