Rationally Controlling Selective Steroid Hydroxylation via Scaffold Sampling of a P450 Family
Citations Over TimeTop 10% of 2023 papers
Abstract
Many steroids are important pharmaceutically active compounds, while cytochrome P450 monooxygenases (CYPs) are attractive enzymes for applications in steroidal drug synthesis. However, the catalytic efficiency of existing P450s is not routinely high enough, as well as the molecular basis for selectivity control is unclear, which severely restrict their real applications. Here, a 16β steroid-hydroxylase CYP109B4 from Bacillus sonorensis is identified with excellent selectivity and activity. The crystallization and structural analysis of CYP109B4 reveal potential three “hotspot” residues (V84, V292, and S387) responsible for selectivity control. Then, guided by the sequence–function relationships revealed from the mutability landscape construction on the three residues, focused rational iterative site-specific mutagenesis (FRISM) and limited iterative saturation mutagenesis were performed, which provide variant B4-M7 (L240V/S387F/V84L/V292S/I291T/M290F/F294I) with completely switched regioselectivity from 16β to 15β. The subsequent computational analysis uncovers insights into the substrate binding modes in CYP109B4 and its variants, which further confirms the critical role of the “hotspot” residues for selectivity control. Finally, the generality of conserved-“hotspots”-mediated selectivity control is demonstrated by performing scaffold sampling between a panel of CYP109B members. Overall, in addition to the present chemical results, our study provides guidance in rationally designing more excellent P450 biocatalysts for potential practical (industrial) applications.
Related Papers
- → Cytochrome P450 Monooxygenases Catalyse Steroid Nucleus Hydroxylation with Regio‐ and Stereo‐Selectivity(2022)18 cited
- → Filamentous Fungi Potentially Useful Catalysts for the Biohydroxylations of Non-Activated Carbon Centers(2001)53 cited
- → Copper monooxygenase models: hydroxylation reactions resulting from dioxygen activation by copper(I) complexes(1992)24 cited
- → Hydroxylation of para-chlorotoluene by model complexes of cytochrome P-450(1984)3 cited
- → EVIDENCE FOR DIFFERENT HEPATIC MONOOXYGENASES IN (ω-1)- AND ω-HYDROXYLATION OF PROSTAGLANDINS(1980)