Abstract
Cytochrome P450 enzymes are versatile catalysts involved in a wide variety of biological processes from hormonal regulation and antibiotic synthesis to drug metabolism. A hallmark of their versatility is their promiscuous nature, allowing them to recognize a wide variety of chemically diverse substrates. However, the molecular details of this promiscuity have remained elusive. Here, we have utilized two-dimensional heteronuclear single quantum coherence NMR spectroscopy to examine a series of mutants site-specific labeled with the unnatural amino acid, [(13)C]p-methoxyphenylalanine, in conjunction with all-atom molecular dynamics simulations to examine substrate and inhibitor binding to CYP119, a P450 from Sulfolobus acidocaldarius. The results suggest that tight binding hydrophobic ligands tend to lock the enzyme into a single conformational substate, whereas weak binding low affinity ligands bind loosely in the active site, resulting in a distribution of localized conformers. Furthermore, the molecular dynamics simulations suggest that the ligand-free enzyme samples ligand-bound conformations of the enzyme and, therefore, that ligand binding may proceed largely through a process of conformational selection rather than induced fit.
Highlights
The dynamic nature of enzymes has drawn much attention [1,2,3]
The results suggest that tight binding hydrophobic ligands tend to lock the enzyme into a single conformational substate, whereas weak binding low affinity ligands bind loosely in the active site, resulting in a distribution of localized conformers
We demonstrated the utility of CYP119, a cytochrome P450 isolated from the thermophilic bacterium Sulfolobus acidocaldarius, as a model for examination of the detailed molecular events involved in binding of the inhibitor 4-phenylimidazole, employing two-dimensional 1H,13C-HSQC2 NMR
Summary
The dynamic nature of enzymes has drawn much attention [1,2,3]. Protein dynamics are important for ligand recognition and binding, and for bringing catalytic residues in close proximity to the bound substrate so that a reaction can occur [4, 5]. NMR and Molecular Dynamics of Cytochrome P450 Ligand Binding of the protein tagged with the unnatural amino acid, 13C-labeled p-methoxyphenylalanine ([13C]MeOF) [28].
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