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Conserved Enzymatic Cascade for Bacterial Azoxy Biosynthesis

Jingkun Shi, Xin Zang, Zhijie Zhao, Zhuanglin Shen, Wei Li, Guiyun Zhao, Jiahai Zhou, Yi‐Ling Du

2023Journal of the American Chemical Society28 citationsDOI

Abstract

Azoxy compounds exhibit a wide array of biological activities and possess distinctive chemical properties. Although there has been considerable interest in the biosynthetic mechanisms of azoxy metabolites, the enzymatic basis responsible for azoxy bond formation has remained largely enigmatic. In this study, we unveil the enzyme cascade that constructs the azoxy bond in valanimycin biosynthesis. Our research demonstrates that a pair of metalloenzymes, comprising a membrane-bound hydrazine synthase and a nonheme diiron azoxy synthase, collaborate to convert an unstable pathway intermediate to an azoxy product through a hydrazine-azo-azoxy pathway. Additionally, by characterizing homologues of this enzyme pair from other azoxy metabolite pathways, we propose that this two-enzyme cascade could represent a conserved enzymatic strategy for azoxy bond formation in bacteria. These findings provide significant mechanistic insights into biological N-N bond formation and should facilitate the targeted isolation of bioactive azoxy compounds through genome mining.

Topics & Concepts

AzoxyChemistryEnzymeStereochemistryBiosynthesisMetaboliteCombinatorial chemistryBiochemistryOrganic chemistryMicrobial Natural Products and BiosynthesisSynthesis and Catalytic ReactionsAlkaloids: synthesis and pharmacology
Conserved Enzymatic Cascade for Bacterial Azoxy Biosynthesis | Litcius