The Vinca minor genome highlights conserved evolutionary traits in monoterpene indole alkaloid synthesis

Emily Amor Stander, Clement Cuello, Caroline Birer-Williams, Natalja Kulagina, Hans Jansen, Ines Carqueijeiro, Louis-Valentin Meteignier, Valentin Verges, Audrey Oudin, Nicolas Papon, Ron Dirks, Michael Krogh Jensen, Sarah Ellen O'Connor, Thomas Duge de Bernonville, Sebastien Besseau, Vincent Courdavault

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Abstract

Vinca minor, also known as the lesser periwinkle, is a well-known species from the Apocynaceae, native to central and southern Europe. This plant synthesizes monoterpene indole alkaloids, which are a class of specialized metabolites displaying a wide range of bioactive- and pharmacologically important properties. Within the almost 50 monoterpene indole alkaloids it produces, V. minor mainly accumulates vincamine, which is commercially used as a nootropic. Using a combination of Oxford Nanopore Technologies long read- and Illumina short-read sequencing, a 679,098 Mb V. minor genome was assembled into 296 scaffolds with an N50 scaffold length of 6 Mb, and encoding 29,624 genes. These genes were functionally annotated and used in a comparative genomic analysis to establish gene families and to investigate gene family expansion and contraction across the phylogenetic tree. Furthermore, homology-based monoterpene indole alkaloid gene predictions together with a metabolic analysis across 4 different V. minor tissue types guided the identification of candidate monoterpene indole alkaloid genes. These candidates were finally used to identify monoterpene indole alkaloid gene clusters, which combined with synteny analysis allowed for the discovery of a functionally validated vincadifformine-16-hydroxylase, reinforcing the potential of this dataset for monoterpene indole alkaloids gene discovery. It is expected that access to these resources will facilitate the elucidation of unknown monoterpene indole alkaloid biosynthetic routes with the potential of transferring these pathways to heterologous expression systems for large-scale monoterpene indole alkaloid production.
Original languageEnglish
JournalG3: Genes, Genomes, Genetics
Volume12
Issue number12
ISSN2160-1836
DOIs
Publication statusPublished - 2022

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