Raw spectral data: Cultivar Comparison Cannabis sativa Glandular Trichomes

Full description

Cannabis sativa (Cannabis) is a medicinal plant that produces and stores an abundance of therapeutic and psychoactive secondary metabolites, including cannabinoids and terpenes, in the glandular trichomes of its female flowers. We postulate that glandular trichome productivity has been under strong artificial selection in the pursuit for ever more potent cultivars. By comparing glandular trichomes of two modern cultivars and two traditional landraces, contrasting for Cannabidiol (CBD) and Tetrahydrocannabinol (THC) contents, this study aims to identify drivers of enhanced cannabinoid productivity in improved drug cultivars. Fluorescent light microscopy, metabolite targeted metabolite analysis, and quantitative proteomics were used to examine differences in trichome morphology and metabolic activity. The increased concentrations of cannabinoids and terpenes of modern Cannabis cultivars were reflected in larger trichomes, that contained more secretory cells compared to traditional landraces. Proteomic analysis indicated that these modern trichome phenotypes were supported by increased metabolic activity, particularly in pathways related to energy production and lipid metabolism. Weighted Gene Co-expression Network Analysis (WGCNA) suggested that histone H2A (H2AXA) involved in DNA repair, Regulator of Fatty-acid Compostion3 (RFC3) involved in non-photosynthetic plastid development and olivetolic acid cyclase (OAC) involved in cannabinoid biosynthesis are central hub proteins associated with high Tetrahydrocannabinolic acid (THCA) production. This study highlights the significant morphological and molecular differences between modern and traditional Cannabis cultivars and provides valuable insights for optimizing cannabinoid production through breeding and biotechnological approaches.