Austin Baiton scite author profile

For a long time, Cannabis sativa has been used for therapeutic and industrial purposes. Due to its increasing demand in medicine, recreation, and industry, there is a dire need to apply new biotechnological tools to introduce new genotypes with desirable traits and enhanced secondary metabolite production. Micropropagation, conservation, cell suspension culture, hairy root culture, polyploidy manipulation, and Agrobacterium-mediated gene transformation have been studied and used in cannabis. However, some obstacles such as the low rate of transgenic plant regeneration and low efficiency of secondary metabolite production in hairy root culture and cell suspension culture have restricted the application of these approaches in cannabis. In the current review, in vitro culture and genetic engineering methods in cannabis along with other promising techniques such as morphogenic genes, new computational approaches, clustered regularly interspaced short palindromic repeats (CRISPR), CRISPR/Cas9-equipped Agrobacterium-mediated genome editing, and hairy root culture, that can help improve gene transformation and plant regeneration, as well as enhance secondary metabolite production, have been highlighted and discussed.

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Modeling and optimizing in vitro seed germination of industrial hemp (Cannabis sativa L.)

Hesami

Pepe

Monthony

et al. 2021

Industrial Crops and Products

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Current status and future prospects in cannabinoid production through in vitro culture and synthetic biology

Hesami

Pepe

Baiton

et al. 2023

Biotechnology Advances

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New Insight into Ornamental Applications of Cannabis: Perspectives and Challenges

Hesami

Pepe

Baiton

et al. 2022

Plants

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The characteristic growth habit, abundant green foliage, and aromatic inflorescences of cannabis provide the plant with an ideal profile as an ornamental plant. However, due to legal barriers, the horticulture industry has yet to consider the ornamental relevance of cannabis. To evaluate its suitability for introduction as a new ornamental species, multifaceted commercial criteria were analyzed. Results indicate that ornamental cannabis would be of high value as a potted-plant or in landscaping. However, the readiness timescale for ornamental cannabis completely depends on its legal status. Then, the potential of cannabis chemotype Ⅴ, which is nearly devoid of phytocannabinoids and psychoactive properties, as the foundation for breeding ornamental traits through mutagenesis, somaclonal variation, and genome editing approaches has been highlighted. Ultimately, legalization and breeding for ornamental utility offers boundless opportunities related to economics and executive business branding.

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Austin Baiton

Recent advances in cannabis biotechnology

Advances and Perspectives in Tissue Culture and Genetic Engineering of Cannabis

Modeling and optimizing in vitro seed germination of industrial hemp (Cannabis sativa L.)

Current status and future prospects in cannabinoid production through in vitro culture and synthetic biology

New Insight into Ornamental Applications of Cannabis: Perspectives and Challenges

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