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A flavin-monooxygenase catalyzing oxepinone formation and the complete biosynthesis of vibralactone

Ke‐Na Feng, Yue Zhang, Mingfang Zhang, Yanlong Yang, Ji‐Kai Liu, Lifeng Pan, Ying Zeng

2023Nature Communications19 citationsDOIOpen Access PDF

Abstract

Oxepinone rings represent one of structurally unusual motifs of natural products and the biosynthesis of oxepinones is not fully understood. 1,5-Seco-vibralactone (3) features an oxepinone motif and is a stable metabolite isolated from mycelial cultures of the mushroom Boreostereum vibrans. Cyclization of 3 forms vibralactone (1) whose β-lactone-fused bicyclic core originates from 4-hydroxybenzoate, yet it remains elusive how 4-hydroxybenzoate is converted to 3 especially for the oxepinone ring construction in the biosynthesis of 1. In this work, using activity-guided fractionation together with proteomic analyses, we identify an NADPH/FAD-dependent monooxygenase VibO as the key enzyme performing a crucial ring-expansive oxygenation on the phenol ring to generate the oxepin-2-one structure of 3. The crystal structure of VibO reveals that it forms a dimeric phenol hydroxylase-like architecture featured with a unique substrate-binding pocket adjacent to the bound FAD. Computational modeling and solution studies provide insight into the likely VibO active site geometry, and suggest possible involvement of a flavin-C4a-OO(H) intermediate.

Topics & Concepts

MonooxygenaseFlavin groupBiosynthesisBiochemistryFlavin-containing monooxygenaseChemistryComputational biologyBiologyEnzymeCytochrome P450Plant biochemistry and biosynthesisMicrobial Natural Products and BiosynthesisEnzyme Catalysis and Immobilization