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Heterocyclic and Alkyne Terpenoids by Terpene Synthase‐Mediated Biotransformation of Non‐Natural Prenyl Diphosphates: Access to New Fragrances and Probes

Benjamin Weigel, Jeanette Ludwig, Roman Weber, Steve Ludwig, Claudia Lennicke, Paul Schrank, Mehdi D. Davari, Mohamed Nagia, Ludger A. Wessjohann

2022ChemBioChem16 citationsDOIOpen Access PDF

Abstract

Two terpene cyclases were used as biocatalytic tool, namely, limonene synthase from Cannabis sativa (CLS) and 5-epi-aristolochene synthase (TEAS) from Nicotiana tabacum. They showed significant substrate flexibility towards non-natural prenyl diphosphates to form novel terpenoids, including core oxa- and thia-heterocycles and alkyne-modified terpenoids. We elucidated the structures of five novel monoterpene-analogues and a known sesquiterpene-analogue. These results reflected the terpene synthases' ability and promiscuity to broaden the pool of terpenoids with structurally complex analogues. Docking studies highlight an on-off conversion of the unnatural substrates.

Topics & Concepts

TerpenoidTerpenePrenylationChemistryStereochemistryPrenyltransferaseSesquiterpeneFarnesyl diphosphate synthaseBiotransformationMonoterpeneATP synthaseBiochemistryEnzymePlant biochemistry and biosynthesisMicrobial Natural Products and BiosynthesisNatural product bioactivities and synthesis
Heterocyclic and Alkyne Terpenoids by Terpene Synthase‐Mediated Biotransformation of Non‐Natural Prenyl Diphosphates: Access to New Fragrances and Probes | Litcius