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- He, Xianzhi, et al. Show all 4 Authors
- Physiologia plantarum 2017 v.159 no.1 pp. 2-12
- Arabidopsis; anthocyanins; biosynthesis; carotenoids; chlorophyll; crops; cyanidin; genes; high performance liquid chromatography; ionization; leaves; mass spectrometry; metabolic engineering; photosynthesis; pigmentation; quantitative polymerase chain reaction; reverse transcriptase polymerase chain reaction; tissues; tobacco; transgenic plants; value added; vector control
- ... In this study, we investigate the metabolic engineering of anthocyanins in two dark tobacco crops (Narrow Leaf Madole and KY171) and evaluate the effects on physiological features of plant photosynthesis. Arabidopsis PAP1 (production of anthocyanin pigment 1) gene (AtPAP1) encodes a R2R3‐type MYB transcript factor that is a master component of regulatory complexes controlling anthocyanin biosynthe ...