The morphological character of three accession of Artemisia annua; A.

Download scientific diagram | The morphological character of three accession of Artemisia annua; A. Accession 1 (V1); B. Accession 2 (V2); C. Accession 3 (V3) Accession 1 (V1) is an elder who tends to have a more stable morphological character compared to other accessions based on first stage selection (I). In addition, accession 1 also produces biomass from publication: Response of Artemisia annua accessions to nitrogen fertilizer on low land | Growing Artemisia annua in tropical areas cause a short vegetative period and resulted in low content of artemisinin. To increase the artemisinin content of A. annua in the tropical area could be carried out by administering of Nitrogen fertilizer. In order to increase | Artemisia Annua, Nitrogen Fertilization and Artemisinins | ResearchGate, the professional network for scientists.

a) Schematic representation of the chloroplast transformation vector

The jasmonate‐responsive AaMYC2 transcription factor positively regulates artemisinin biosynthesis in Artemisia annua - Shen - 2016 - New Phytologist - Wiley Online Library

Distinctive morphological characteristics contribute to the identification of Artemisia annua L. germplasms with high yield and high artemisinin content - ScienceDirect

Characterization of growth promoting bacterial endophytes isolated from Artemisia annua L. - ScienceDirect

Metabolomic and transcriptomic analyses provide insights into variations in flavonoids contents between two Artemisia cultivars, BMC Plant Biology

Frontiers Integrative analysis of metabolite and transcriptome reveals biosynthetic pathway and candidate genes for eupatilin and jaceosidin biosynthesis in Artemisia argyi

PDF] Phylogenetic Taxonomy of Artemisia L. Species from Kazakhstan Based on Matk Analyses

Frontiers An R2R3-MYB Transcription Factor Positively Regulates the Glandular Secretory Trichome Initiation in Artemisia annua L.

Genetic and chemical markers for authentication of three Artemisia species: A. capillaris, A. gmelinii, and A. fukudo

Discovery and modulation of diterpenoid metabolism improves glandular trichome formation, artemisinin production and stress resilience in Artemisia annua - Chen - 2021 - New Phytologist - Wiley Online Library

Molecular insights into the genetic diversity and population structure of Artemisia annua L. as revealed by insertional polymorphisms

Agronomics and Biology of Artemisia annua L. - ScienceDirect

An updated subtribal classification of Compositae tribe Anthemideae based on extended phylogenetic reconstructions

Discovery and modulation of diterpenoid metabolism improves glandular trichome formation, artemisinin production and stress resilience in Artemisia annua - Chen - 2021 - New Phytologist - Wiley Online Library