Color characteristics, pigment accumulation and biosynthetic analyses of leaf color variation in herbaceous peony (Paeonia lactiflora Pall.)

• Published in: 3 Biotech Vol. 10; no. 2; p. 76
• Main Authors: Tang, Yuhan, Fang, Ziwen, Liu, Mi, Zhao, Daqiu, Tao, Jun
• Format: Journal Article
• Language: English
• Published: Cham Springer International Publishing 01.02.2020; Springer Nature B.V
• Subjects: Accumulation; Agriculture; Anthocyanins; Bioinformatics; Biomaterials; Biosynthesis; Biotechnology; Cancer Research; Chemistry; Chemistry and Materials Science; Chlorophyll; Color; Coloration; Degradation; Gene expression; HemA gene; Leaves; Original; Original Article; Ornamental plants; Paeonia lactiflora; Physiology; Pigments; Reductase; Reductases; Reduction; Stem Cells; tRNA; Variation; Herbaceous peony; Anthocyanins; Gene expression; Chlorophylls
• ISSN: 2190-572X; 2190-5738
• DOI: 10.1007/s13205-020-2063-3

Herbaceous peony ( Paeonia lactiflora Pall.) is one of the color-leaved ornamental spring plants, with graceful appearance and splendid color. However, the underlying mechanism of this coloration variation from purple to green has not been studied in P. lactiflora . In th study, the leaves in purple, purple–green, and green stages were compared in terms of anatomical, physiological, and molecular. We found that the variation of leaf color from purple to green was mainly determined by the change in pigments distributed in the leaf surface. Physiological experiments showed a significant increase in chlorophyll contents and a notable reduction in anthocyanin contents in leaves from the purple to green stages. We further found that the anthocyanin biosynthesis-related dihydroflavonol 4-reductase ( DFR ) gene and anthocyanin synthase ( ANS ) gene as well as chlorophyll biosynthesis-related glutamyl-tRNA reductase ( HEMA ) gene showed a decreased trend in leaves from purple to green stages, whereas the chlorophyll degradation-related chlorophyll b reductase ( NYC ) gene showed a rising trend. Alteration of DFR and ANS gene expression might reduce anthocyanin accumulation, whereas increased HEMA gene expression would enhance chlorophyll biosynthesis and reduced NYC gene expression would inhibit chlorophyll degradation. Consequently, reduction in anthocyanins and enhanced deposition of chlorophylls resulted in leaf coloration variation from purple to green in P. lactiflora , which could improve our understanding of its mechanism for further studies.