Research:2026-05-08/Journal article/genetic-architecture-of-phenological-morphological-and-phytochemical-traits-in-cannabis-landraces: Difference between revisions
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Eloise Zomia (talk | contribs) Create research item: Babaei & Torkamaneh 2026, genetic architecture of Cannabis landraces (Iran) |
Eloise Zomia (talk | contribs) Reconcile record date 2026-07-01 to 2026-07-02 |
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|summary=Genome-wide association study of 145 Iranian Cannabis sativa landrace accessions, male and female, genotyped at roughly 233,000 common SNPs. The analysis resolves the collection into three genetically distinct subpopulations shaped by geography, climate and traditional cultivation, and identifies 91 genomic regions associated with 40 phenological, morphological and phytochemical traits, including 15 pleiotropic loci linked to flowering time, plant architecture, biomass accumulation and cannabinoid biosynthesis. The authors report high heritability for most traits and rapid linkage disequilibrium decay, and present the panel as a resource for high-resolution mapping and marker-assisted selection towards cultivars with tailored cannabinoid profiles. A population-scale genetic-architecture reference for the Iran gene pool, complementing the earlier Mostafaei Dehnavi et al. 2025 population-genomics study of Iranian Cannabis. | |summary=Genome-wide association study of 145 Iranian Cannabis sativa landrace accessions, male and female, genotyped at roughly 233,000 common SNPs. The analysis resolves the collection into three genetically distinct subpopulations shaped by geography, climate and traditional cultivation, and identifies 91 genomic regions associated with 40 phenological, morphological and phytochemical traits, including 15 pleiotropic loci linked to flowering time, plant architecture, biomass accumulation and cannabinoid biosynthesis. The authors report high heritability for most traits and rapid linkage disequilibrium decay, and present the panel as a resource for high-resolution mapping and marker-assisted selection towards cultivars with tailored cannabinoid profiles. A population-scale genetic-architecture reference for the Iran gene pool, complementing the earlier Mostafaei Dehnavi et al. 2025 population-genomics study of Iranian Cannabis. | ||
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[[Has research title::Genetic architecture of phenological, morphological, and phytochemical traits in Cannabis landraces]] | [[Has research title::Genetic architecture of phenological, morphological, and phytochemical traits in Cannabis landraces]] | ||
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Latest revision as of 15:45, 2 July 2026
8 May 2026 Journal article
Iran
Genetic architecture of phenological, morphological, and phytochemical traits in Cannabis landraces
The Plant Genome· 2026
Genome-wide association study of 145 Iranian Cannabis sativa landrace accessions, male and female, genotyped at roughly 233,000 common SNPs. The analysis resolves the collection into three genetically distinct subpopulations shaped by geography, climate and traditional cultivation, and identifies 91 genomic regions associated with 40 phenological, morphological and phytochemical traits, including 15 pleiotropic loci linked to flowering time, plant architecture, biomass accumulation and cannabinoid biosynthesis. The authors report high heritability for most traits and rapid linkage disequilibrium decay, and present the panel as a resource for high-resolution mapping and marker-assisted selection towards cultivars with tailored cannabinoid profiles. A population-scale genetic-architecture reference for the Iran gene pool, complementing the earlier Mostafaei Dehnavi et al. 2025 population-genomics study of Iranian Cannabis.