Litcius/Paper detail

Discovery and characterization of a terpene biosynthetic pathway featuring a norbornene-forming Diels-Alderase

Zuodong Sun, Cooper S. Jamieson, Masao Ōhashi, K. N. Houk, Yi Tang

2022Nature Communications29 citationsDOIOpen Access PDF

Abstract

Pericyclases, enzymes that catalyze pericyclic reactions, form an expanding family of enzymes that have biocatalytic utility. Despite the increasing number of pericyclases discovered, the Diels-Alder cyclization between a cyclopentadiene and an olefinic dienophile to form norbornene, which is among the best-studied cycloadditions in synthetic chemistry, has surprisingly no enzymatic counterpart to date. Here we report the discovery of a pathway featuring a norbornene synthase SdnG for the biosynthesis of sordaricin-the terpene precursor of antifungal natural product sordarin. Full reconstitution of sordaricin biosynthesis reveals a concise oxidative strategy used by Nature to transform an entirely hydrocarbon precursor into the highly functionalized substrate of SdnG for intramolecular Diels-Alder cycloaddition. SdnG generates the norbornene core of sordaricin and accelerates this reaction to suppress host-mediated redox modifications of the activated dienophile. Findings from this work expand the scopes of pericyclase-catalyzed reactions and P450-mediated terpene maturation.

Topics & Concepts

NorborneneCyclopentadieneChemistryCycloadditionPericyclic reactionTerpeneBiosynthesisIntramolecular forceEnzymeStereochemistryOrganic chemistryCatalysisPolymerizationPolymerMicrobial Natural Products and BiosynthesisPlant biochemistry and biosynthesisBioactive Compounds and Antitumor Agents
Discovery and characterization of a terpene biosynthetic pathway featuring a norbornene-forming Diels-Alderase | Litcius