Seasonal variation influences flavonoid biosynthesis path and content, and antioxidant activity of metabolites in Tetrastigma hemsleyanum Diels & Gilg

Seasonal variation influences flavonoid biosynthesis path and content, and antioxidant activity of metabolites in Tetrastigma hemsleyanum Diels & Gilg

Environmental conditions contribute to plant growth and metabolism. This study aimed to determine a suitable environment and climate for large-scale artificial cultivation of an endangered plant, Tetrastigma hemsleyanum, by investigating the seasonal variations influencing the flavonoid biosynthetic...

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Bibliographic Details
Published in:PloS one Vol. 17; no. 4; p. e0265954
Main Authors: Shi, YanShou, Yang, Li, Yu, MinFen, Li, ZhaoHui, Ke, ZhiJun, Qian, XiaoHua, Ruan, Xiao, He, LiPing, Wei, Feng, Zhao, YingXian, Wang, Qiang
Format: Journal Article
Language:English
Published: United States Public Library of Science 28-04-2022
Public Library of Science (PLoS)
Subjects:
Antioxidants
Apigenin
Bioflavonoids
Biology and Life Sciences
Biosynthesis
Chromatography
Dehydrogenation
Earth Sciences
Endangered plants
Endangered species
Environmental aspects
Environmental conditions
Environmental factors
Flavones
Flavonoids
Flavonoids - metabolism
Flavonols
Gene expression
Health aspects
Herbal medicine
Humidity
Hydroxylation
Kaempferol
Metabolism
Metabolites
Naringenin
Phenolic compounds
Phenols
Physical Sciences
Plant growth
Polysaccharides
Precipitation
Quercetin
Rutin
Saccharides
Seasonal variations
Seasons
Selectivity
Sterols
Sunshine duration
Tetrastigma
Vitaceae - metabolism
China
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Summary:Environmental conditions contribute to plant growth and metabolism. This study aimed to determine a suitable environment and climate for large-scale artificial cultivation of an endangered plant, Tetrastigma hemsleyanum, by investigating the seasonal variations influencing the flavonoid biosynthetic selectivity and antioxidant activity of its major metabolites. Under conditions of precipitation (2.0~6.6 mm), temperature (17.5~24.1°C), humidity (67.3~80.2%), and sunshine duration (3.4~5.8 h) from April to May, the total flavonoid content in T. hemsleyanum reached higher levels between 281.3 and 392.8 μg/g. In the second half of April, the production selectivity (PS) of isoorientin (IsoO), orientin (Or), rutin (Rut), isoquercitin (IsoQ), kaempferol-3-O-rutinoside (Km3rut), astragalin (Ast), quercetin (Qu), apigenin (Ap), and kaempferol (Km) were 0.30, 0.06, 0.07, 0.07, 0.00, 0.04, 0.38, 0.05, and 0.03, respectively. Naringenin was dehydrogenated or hydroxylated to initiate two parallel reaction pathways for flavonoid biosynthesis in T. hemsleyanum: path I subsequently generated flavone derivatives including apigenin, luteolin, orientin, and isoorientin, and path II subsequently generated flavonol derivatives including Km, Qu, IsoQ, Rut, Ast, and Km3rut. The reaction selectivity of path II (RPSII) from January 1 to September 30 was considerably higher than that of path I (RPSI), except for March 16-31. In addition, either the content or antioxidant activity of three major metabolites in T. hemsleyanum followed the order of phenolic compounds > polysaccharides > sterols, and exhibited dynamic correlations with environmental factors. Naringenin favored hydroxylation and derived six flavonol compounds from January to September, and favored dehydrogenation and derived three flavone compounds from October to December. In most months of a year, Km preferentially favored hydroxylation rather than glucosylation.
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Competing Interests: The authors have declared that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0265954