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Structural and Functional Analyses of a Spiro-Carbon-Forming, Highly Promiscuous Epoxidase from Fungal Natural Product Biosynthesis

Takuma Matsushita, Shinji Kishimoto, Kodai Hara, Hiroshi Hashimoto, Kenji Watanabe

2020Biochemistry17 citationsDOI

Abstract

Biosynthesis of fungal nonribosomal peptides frequently involves redox enzymes such as flavin-containing monooxygenase (FMO) to introduce complexity into the core chemical structure. One such example is the formation of spiro-carbons catalyzed by various oxidases. Because many chemically complex spiro-carbon-bearing natural products exhibit useful biological activities, understanding the mechanism of spiro-carbon biosynthesis is of great interest. We previously identified FqzB, an FMO from the fumiquinazoline biosynthetic pathway responsible for epoxidation of fumiquinazoline F that crosstalks with the fumitremorgin biosynthetic pathway to form spirotryprostatin A via epoxidation of the precursor fumitremorgin C. What makes FqzB more interesting is its relaxed substrate specificity, where it can accept a range of other substrates, including tryprostatins A and B along with its original substrate fumiquinazoline F. Here, we characterized FqzB crystallographically and examined FqzB and its site-specific mutants kinetically to understand how this promiscuous epoxidase works. Furthermore, the mutagenesis studies as well as computational docking experiments between the FqzB crystal structure and its known substrates spirotryprostatin A and B, as well as fumitremorgin C and fumiquinazoline F, provided insight into potential modes of substrate recognition and the source of broad substrate tolerance exhibited by this epoxidase. This study serves as a foundation for further characterization and engineering of this redox enzyme, which has potential utility as a valuable catalyst with broad substrate tolerance and an ability to introduce chemical complexity into carbon frameworks for chemoenzymatic and biosynthetic applications.

Topics & Concepts

BiosynthesisMonooxygenaseStereochemistryRational designChemistryEnzymeDocking (animal)Natural productActive siteMutagenesisMutantBiochemistryBiologyCytochrome P450MedicineNursingGeneGeneticsMicrobial Natural Products and BiosynthesisFungal Biology and ApplicationsBiochemical and biochemical processes