Development and validation of genetic markers for sex and cannabinoid chemotype in Cannabis sativa L.

Jacob A. Toth; George M. Stack; Ali R. Cala; Craig H. Carlson; Rebecca L. Wilk; Jamie L. Crawford; Donald R. Viands; Glenn Philippe; Christine D. Smart; Jocelyn K. C. Rose; Lawrence B. Smart

doi:10.1111/gcbb.12667

GCB Bioenergy (Mar 2020)

Development and validation of genetic markers for sex and cannabinoid chemotype in Cannabis sativa L.

Jacob A. Toth,
George M. Stack,
Ali R. Cala,
Craig H. Carlson,
Rebecca L. Wilk,
Jamie L. Crawford,
Donald R. Viands,
Glenn Philippe,
Christine D. Smart,
Jocelyn K. C. Rose,
Lawrence B. Smart

Affiliations

Jacob A. Toth: Horticulture Section School of Integrative Plant Science Cornell University Geneva NY USA
George M. Stack: Horticulture Section School of Integrative Plant Science Cornell University Geneva NY USA
Ali R. Cala: Plant Pathology and Plant‐Microbe Biology Section School of Integrative Plant Science Cornell University Geneva NY USA
Craig H. Carlson: Horticulture Section School of Integrative Plant Science Cornell University Geneva NY USA
Rebecca L. Wilk: Horticulture Section School of Integrative Plant Science Cornell University Geneva NY USA
Jamie L. Crawford: Plant Breeding and Genetics Section School of Integrative Plant Science Cornell University Ithaca NY USA
Donald R. Viands: Plant Breeding and Genetics Section School of Integrative Plant Science Cornell University Ithaca NY USA
Glenn Philippe: Plant Biology Section School of Integrative Plant Science Cornell University Ithaca NY USA
Christine D. Smart: Plant Pathology and Plant‐Microbe Biology Section School of Integrative Plant Science Cornell University Geneva NY USA
Jocelyn K. C. Rose: Plant Biology Section School of Integrative Plant Science Cornell University Ithaca NY USA
Lawrence B. Smart: Horticulture Section School of Integrative Plant Science Cornell University Geneva NY USA

DOI: https://doi.org/10.1111/gcbb.12667
Journal volume & issue: Vol. 12, no. 3
pp. 213 – 222

Abstract

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Abstract Hemp (Cannabis sativa L.) is an emerging dioecious crop grown primarily for grain, fiber, and cannabinoids. There is good evidence for medicinal benefits of the most abundant cannabinoid in hemp, cannabidiol (CBD). For CBD production, female plants producing CBD but not tetrahydrocannabinol (THC) are desired. We developed and validated high‐throughput PACE (PCR Allele Competitive Extension) assays for C. sativa plant sex and cannabinoid chemotype. The sex assay was validated across a wide range of germplasm and resolved male plants from female and monoecious plants. The cannabinoid chemotype assay revealed segregation in hemp populations, and resolved plants producing predominantly THC, predominantly CBD, and roughly equal amounts of THC and CBD. Cultivar populations that were thought to be stabilized for CBD production were found to be segregating phenotypically and genotypically. Many plants predominantly producing CBD accumulated more than the current US legal limit of 0.3% THC by dry weight. These assays and data provide potentially useful tools for breeding and early selection of hemp.

Published in GCB Bioenergy

ISSN: 1757-1693 (Print); 1757-1707 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Mechanical engineering and machinery: Renewable energy sources; Social Sciences: Industries. Land use. Labor: Special industries and trades: Energy industries. Energy policy. Fuel trade
Website: https://onlinelibrary.wiley.com/journal/17571707

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Abstract

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