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- Zhao, Haixia, et al. Show all 8 Authors
- Journal of plant growth regulation 2018 v.37 no.1 pp. 76-84
- Arabidopsis; abiotic stress; anthocyanins; biosynthesis; buckwheat; genes; leaves; phylogeny; pigmentation; proanthocyanidins; seed coat; transcription (genetics); transcription factors; transgenic plants; ultraviolet radiation
- ... Tartary buckwheat is an excellent medicinal and nutrient-rich crop that contains abundant flavonoids. Flavonoids, such as anthocyanin and proanthocyanidin, can be accumulated in plants for resistance to abiotic stresses, for instance, UV-B and cold. In this study, an R2R3-MYB transcription factor gene named FtMYB15 was isolated from tartary buckwheat. A phylogenetic tree suggested that FtMYB15 pot ...
- Zhao, Haixia, et al. Show all 9 Authors
- Journal of plant growth regulation 2017 v.36 no.3 pp. 755-765
- Fagopyrum tataricum; Medicago truncatula; anthocyanins; biochemical pathways; bioinformatics; biosynthesis; buckwheat; flowers; genes; pigmentation; proanthocyanidins; rutin; tobacco; transcription (genetics); transcription factors; transcriptional activation; transgenic plants; yeasts
- ... Tartary buckwheat (Fagopyrum tataricum Gaertn.) contains high concentration of flavonoids, which are mainly represented by rutin, anthocyanins, and proanthocyanidins. WD40 transcription factors (TFs) play significant roles in the transcriptional regulation of the anthocyanin biosynthetic pathway. In this study, a WD40-repeat protein gene (designated as FtWD40) was identified and characterized from ...