[A study of conformational states of substrates of cytochrome P450 3A4].

A multiconformational study of substrates of cytochrome P450 3A4 has been carried out within the BiS/MC algorithm. The method allowed one to create a pseudoatomic model of the cytochrome and to find the substrate conformers responsible for the interaction with the cytochrome. It has been found that, in most cases, the geometry of the acting conformer is much different from the geometry of the global minimum conformer. It has been shown that the mirror conformational antipodes ("enantioconformers") are characterized as a rule by different Michaelis constants. A quantitative relationship between the Michaelis constants and the parameters of interactions in "model 3A4 isoform-substrate" complexes has been determined. The relationship describes the experimental value of Michaelis constant with the squared cross-validation correlation coefficient of 0.88.

[The modeling of interactions of the CYP2E1 isoform of human cytochrome P450 with substrates].

The interactions between the substrates of the 2E1 isoform of the human cytochrome P450 and receptor were simulated. It was found that the CP4 isoform of the cytochrome of the bacterial cell is highly homologous to the 2E1 isoform of the human cytochrome P450. The orientation of the substrates of the 2E1 isoform in the CP4 isoform of the bacterial cell cytochrome was performed. A cavity in the receptor was found that is responsible for the binding of the substrate. Amino acid residues Phe87, Pro89, Val119, Thr185, Leu244, Leu245, Leu246, Val247, Gly248, Gly249, Thr252, Val295, Asp297, Cys357, Ile395, and Val396, the heme, and water molecules are involved in the formation of the cavity. The mode of the interactions of the substrate molecule with cytochrome was analyzed. Active sites of the receptor, and a part of the substrate molecule responsible for the binding to cytochrome were found. Equations for the dependence of the Michaelis constant on the structural parameters of complexes of substrates with cytochrome were derived.