Selection and Clonal Propagation of High Artemisinin Genotypes of Artemisia annua

Artemisinin, produced in the glandular trichomes of L. is a vital antimalarial drug effective against resistant to quinine-derived medicines. Although work has progressed on the semi-synthetic production of artemisinin, field production of remains the principal commercial source of the compound. Cro...

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Bibliographic Details
Published in:Frontiers in plant science 2018-03, Vol.9, p.358-358
Main Authors: Wetzstein, Hazel Y, Porter, Justin A, Janick, Jules, Ferreira, Jorge F S, Mutui, Theophilus M
Format: Article
Language:English
Subjects:
Artemisia annua
artemisinin
genotypes
malaria
Plant Science
tissue culture
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Summary:Artemisinin, produced in the glandular trichomes of L. is a vital antimalarial drug effective against resistant to quinine-derived medicines. Although work has progressed on the semi-synthetic production of artemisinin, field production of remains the principal commercial source of the compound. Crop production of artemisia must be increased to meet the growing worldwide demand for artemisinin combination therapies (ACTs) to treat malaria. Grower artemisinin yields rely on plants generated from seeds from open-pollinated parents. Although selection has considerably increased plant artemisinin concentration in the past 15 years, seed-generated plants have highly variable artemisinin content that lowers artemisinin yield per hectare. Breeding efforts to produce improved F hybrids have been hampered by the inability to produce inbred lines due to self-incompatibility. An approach combining conventional hybridization and selection with clonal propagation of superior genotypes is proposed as a means to enhance crop yield and artemisinin production. Typical seed-propagated artemisia plants produce less than 1% (dry weight) artemisinin with yields below 25 kg/ha. Genotypes were identified producing high artemisinin levels of over 2% and possessing improved agronomic characteristics such as high leaf area and shoot biomass production. Field studies of clonally-propagated high-artemisinin plants verified enhanced plant uniformity and an estimated gross primary productivity of up to 70 kg/ha artemisinin, with a crop density of one plant m . Tissue culture and cutting protocols for the mass clonal propagation of were developed for shoot regeneration, rooting, acclimatization, and field cultivation. Proof of concept studies showed that both tissue culture-regenerated plants and rooted cutting performed better than plants derived from seed in terms of uniformity, yield, and consistently high artemisinin content. Use of this technology to produce plants with homogeneously-high artemisinin can help farmers markedly increase the artemisinin yield per cultivated area. This would lead to increased profit to farmers and decreased prices of ACT.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2018.00358