1. Terpene Synthases and Terpene Variation in Cannabis sativa .
- Author
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Booth JK, Yuen MMS, Jancsik S, Madilao LL, Page JE, and Bohlmann J
- Subjects
- Alkyl and Aryl Transferases classification, Alkyl and Aryl Transferases genetics, Cannabis genetics, Phylogeny, Plant Proteins classification, Plant Proteins genetics, Plant Proteins metabolism, Alkyl and Aryl Transferases metabolism, Cannabis enzymology, Cannabis metabolism, Terpenes metabolism
- Abstract
Cannabis ( Cannabis sativa ) resin is the foundation of a multibillion dollar medicinal and recreational plant bioproducts industry. Major components of the cannabis resin are the cannabinoids and terpenes. Variations of cannabis terpene profiles contribute much to the different flavor and fragrance phenotypes that affect consumer preferences. A major problem in the cannabis industry is the lack of proper metabolic characterization of many of the existing cultivars, combined with sometimes incorrect cultivar labeling. We characterized foliar terpene profiles of plants grown from 32 seed sources and found large variation both within and between sets of plants labeled as the same cultivar. We selected five plants representing different cultivars with contrasting terpene profiles for clonal propagation, floral metabolite profiling, and trichome-specific transcriptome sequencing. Sequence analysis of these five cultivars and the reference genome of cv Purple Kush revealed a total of 33 different cannabis terpene synthase ( CsTPS ) genes, as well as variations of the CsTPS gene family and differential expression of terpenoid and cannabinoid pathway genes between cultivars. Our annotation of the cv Purple Kush reference genome identified 19 complete CsTPS gene models, and tandem arrays of isoprenoid and cannabinoid biosynthetic genes. An updated phylogeny of the CsTPS gene family showed three cannabis-specific clades, including a clade of sesquiterpene synthases within the TPS-b subfamily that typically contains mostly monoterpene synthases. The CsTPSs described and functionally characterized here include 13 that had not been previously characterized and that collectively explain a diverse range of cannabis terpenes., (© 2020 American Society of Plant Biologists. All Rights Reserved.)
- Published
- 2020
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