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Elucidation of Chalkophomycin Biosynthesis Reveals <i>N</i>-Hydroxypyrrole-Forming Enzymes

Anne Marie Crooke, Anika K. Chand, Zheng Cui, Emily P. Balskus

2024Journal of the American Chemical Society14 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Reactive functional groups, such as N -nitrosamines, impart unique bioactivities to the natural products in which they are found. Recent work has illuminated enzymatic N -nitrosation reactions in microbial natural product biosynthesis, motivating interest in discovering additional metabolites constructed using such reactivity. Here, we use a genome mining approach to identify over 400 cryptic biosynthetic gene clusters (BGCs) encoding homologues of the N -nitrosating biosynthetic enzyme SznF, including the BGC for chalkophomycin, a Cu II -binding metabolite that contains a C -type diazeniumdiolate and N -hydroxypyrrole. Characterizing chalkophomycin biosynthetic enzymes reveals previously unknown enzymes responsible for N -hydroxypyrrole biosynthesis, including the first prolyl- N -hydroxylase, and a key step in the assembly of the diazeniumdiolate-containing amino acid graminine. Discovery of this pathway enriches our understanding of the biosynthetic logic employed in constructing unusual heteroatom–heteroatom bond-containing functional groups, enabling future efforts in natural product discovery and biocatalysis.

Topics & Concepts

BiosynthesisChemistryEnzymeNatural productBiochemistryAmino acidStereochemistryBiocatalysisMetaboliteHeteroatomGeneRing (chemistry)Organic chemistryReaction mechanismCatalysisMicrobial Natural Products and BiosynthesisSynthesis and Catalytic ReactionsChemical Synthesis and Analysis
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