Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7148
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Article Enhancing Electron Transfer in Cytochrome P450 Systems: Insights From CYP119-Putidaredoxin Interface Engineering(MDPI, 2025) Kakimova, Akbota; Surmeli, Nur BasakCytochrome P450 enzymes (CYPs) are versatile biocatalysts capable of performing selective oxidation reactions valuable for industrial and pharmaceutical applications. However, their catalytic efficiency is often constrained by dependence on costly electron donors, the requirement for redox partners, and uncoupling reactions that divert reducing power toward reactive oxygen species. Improving electron transfer efficiency through optimized redox partner interactions is therefore critical for developing effective CYP-based biocatalysts. In this study, we investigated the interaction between CYP119, a thermophilic CYP from Sulfolobus acidocaldarius, and putidaredoxin (Pdx), the redox partner of P450cam. Using rational design and computational modeling with PyRosetta 3, 14 CYP119 variants were modeled and analyzed by docking simulations on the Rosie Docking Server. Structural analysis identified three key mutations (N34E, D77R, and N34E/D77R) for site-directed mutagenesis. These mutations (N34E, D77R, and N34E/D77R) enhanced Pdx binding affinity by 20-, 3-, and 12-fold, respectively, without affecting substrate binding. Catalytic assays using lauric acid and indirect assays to monitor electron transfer revealed that, despite improved complex formation, the N34E variant showed reduced electron transfer efficiency compared to D77R. These findings highlight the delicate balance between redox partner binding affinity and catalytic turnover, emphasizing that fine-tuning electron transfer interfaces are essential for engineering efficient CYP biocatalysts.