Structural and Mechanistic Insights into Oxidative Biaryl Coupling to form Arylomycin Core by an Engineered CYP450

Abstract

Arylomycin, a potent antibiotic targeting bacterial signal peptidases, is difficult to synthesize experimentally due to its poor to moderate yields and the formation of a mixture of compounds. A recent experimental bioengineering work shows that the core of Arylomycin can be efficiently synthesized by engineering Cytochrome P450 enzyme Streptomyces sp; however, the mechanism of the same was not elucidated. Herein, we have thoroughly investigated the mechanism behind the evolution of the enzyme for the synthesis of Arylomycin core via C-C bond formation in CYP450 enzyme using hybrid QM/MM calculations, MD simulations, and DFT calculations. We show that strategic mutations such as a) G-101A facilitate biaryl coupling by subtly pushing the substrate and b) Q-306→H mutation creates a strong pi-pi interaction with the substrate that brings the two phenol rings of the substrate closer to undergo C-C coupling. Importantly, our QM/MM calculations show that for an efficient C-C formation, the reaction should undergo via biradical mechanism over hydroxylation.

Supplementary files

Article information

Article type
Paper
Submitted
01 Aug 2024
Accepted
31 Oct 2024
First published
06 Nov 2024

Dalton Trans., 2024, Accepted Manuscript

Structural and Mechanistic Insights into Oxidative Biaryl Coupling to form Arylomycin Core by an Engineered CYP450

V. Kardam, V. Bhatt and K. Dubey, Dalton Trans., 2024, Accepted Manuscript , DOI: 10.1039/D4DT02197E

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