Multi-Omics Analysis Revealed the Accumulation of Flavonoids and Shift of Fungal Community Structure Caused by Tea Grafting (Camellia sinensis L.)

Grafting is an important approach to improving tea plant varieties, and tea grafting can result in changes in secondary metabolites. However, the shifting pattern of secondary metabolites between scions, rootstocks, and non-grafted tea leaves is unclear. We employed “Yuncha 1” as the scion and “Ziju...

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Published inPlants (Basel) Vol. 14; no. 8; p. 1176
Main Authors Liu, Yue, Liu, Jun, Tian, Yiping, Ye, Shuang, Pang, Dandan, Chen, Linbo, Qu, Hao
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 10.04.2025
MDPI
Subjects
Accumulation
Analysis
Biosynthesis
Carbohydrates
Catechin
Color
Community structure
Enzymes
Flavonoids
Fungi
Gene expression
Genes
Grafting
Hydrocarbons
Influence
Isoflavones
Leaves
Lipids
metabolic profile
Metabolism
Metabolites
Metabolomics
Microbiota
Plant breeding
Plant metabolites
Rootstocks
Scions
Secondary metabolites
Sterols
Tea
Transcriptomics
United States
China
tea
secondary metabolites
flavonoids
grafting
metabolic profile
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Abstract Grafting is an important approach to improving tea plant varieties, and tea grafting can result in changes in secondary metabolites. However, the shifting pattern of secondary metabolites between scions, rootstocks, and non-grafted tea leaves is unclear. We employed “Yuncha 1” as the scion and “Zijuan” as the rootstock with significant differences in leaf color traits to reveal the influences of grafting on the generation of secondary metabolites and transcriptional activities. By non-targeted metabolomic analysis, we identified that grafting led to an obvious shift in secondary metabolites between the scion, rootstock, and non-grafted tea leaves. Importantly, we found that grafting significantly enhanced the accumulation of flavonoids, the vital component of secondary metabolites for the flavor quality, purple color, and health-beneficial effect of Zijuan tea. Via transcriptomics, we found that the key biosynthetic genes DFR and EC 1.1.1.219 for synthesizing flavonoids were significantly enhanced in rootstock compared with non-grafted Zijuan. Concurrently, ANS for biodegrading flavonoids was significantly suppressed in rootstock compared with non-grafted Zijuan. These results revealed the shifting mechanism of key secondary metabolites during grafting. In addition, we found that the shift after grafting possessed no significant influence on bacterial community diversity, but grafting slightly enhanced the fungal community diversity of scions. We found that the shift in fungal community diversity was driven by rootstocks with a higher fungal community diversity. This study systematically reveals the shift in secondary metabolites and fungal community diversity, which provides a novel and comprehensive understanding and theoretical basis for plant breeding using grafting.
AbstractList Grafting is an important approach to improving tea plant varieties, and tea grafting can result in changes in secondary metabolites. However, the shifting pattern of secondary metabolites between scions, rootstocks, and non-grafted tea leaves is unclear. We employed “Yuncha 1” as the scion and “Zijuan” as the rootstock with significant differences in leaf color traits to reveal the influences of grafting on the generation of secondary metabolites and transcriptional activities. By non-targeted metabolomic analysis, we identified that grafting led to an obvious shift in secondary metabolites between the scion, rootstock, and non-grafted tea leaves. Importantly, we found that grafting significantly enhanced the accumulation of flavonoids, the vital component of secondary metabolites for the flavor quality, purple color, and health-beneficial effect of Zijuan tea. Via transcriptomics, we found that the key biosynthetic genes DFR and EC 1.1.1.219 for synthesizing flavonoids were significantly enhanced in rootstock compared with non-grafted Zijuan. Concurrently, ANS for biodegrading flavonoids was significantly suppressed in rootstock compared with non-grafted Zijuan. These results revealed the shifting mechanism of key secondary metabolites during grafting. In addition, we found that the shift after grafting possessed no significant influence on bacterial community diversity, but grafting slightly enhanced the fungal community diversity of scions. We found that the shift in fungal community diversity was driven by rootstocks with a higher fungal community diversity. This study systematically reveals the shift in secondary metabolites and fungal community diversity, which provides a novel and comprehensive understanding and theoretical basis for plant breeding using grafting.
Grafting is an important approach to improving tea plant varieties, and tea grafting can result in changes in secondary metabolites. However, the shifting pattern of secondary metabolites between scions, rootstocks, and non-grafted tea leaves is unclear. We employed “Yuncha 1” as the scion and “Zijuan” as the rootstock with significant differences in leaf color traits to reveal the influences of grafting on the generation of secondary metabolites and transcriptional activities. By non-targeted metabolomic analysis, we identified that grafting led to an obvious shift in secondary metabolites between the scion, rootstock, and non-grafted tea leaves. Importantly, we found that grafting significantly enhanced the accumulation of flavonoids, the vital component of secondary metabolites for the flavor quality, purple color, and health-beneficial effect of Zijuan tea. Via transcriptomics, we found that the key biosynthetic genes DFR and EC 1.1.1.219 for synthesizing flavonoids were significantly enhanced in rootstock compared with non-grafted Zijuan. Concurrently, ANS for biodegrading flavonoids was significantly suppressed in rootstock compared with non-grafted Zijuan. These results revealed the shifting mechanism of key secondary metabolites during grafting. In addition, we found that the shift after grafting possessed no significant influence on bacterial community diversity, but grafting slightly enhanced the fungal community diversity of scions. We found that the shift in fungal community diversity was driven by rootstocks with a higher fungal community diversity. This study systematically reveals the shift in secondary metabolites and fungal community diversity, which provides a novel and comprehensive understanding and theoretical basis for plant breeding using grafting.
Grafting is an important approach to improving tea plant varieties, and tea grafting can result in changes in secondary metabolites. However, the shifting pattern of secondary metabolites between scions, rootstocks, and non-grafted tea leaves is unclear. We employed "Yuncha 1" as the scion and "Zijuan" as the rootstock with significant differences in leaf color traits to reveal the influences of grafting on the generation of secondary metabolites and transcriptional activities. By non-targeted metabolomic analysis, we identified that grafting led to an obvious shift in secondary metabolites between the scion, rootstock, and non-grafted tea leaves. Importantly, we found that grafting significantly enhanced the accumulation of flavonoids, the vital component of secondary metabolites for the flavor quality, purple color, and health-beneficial effect of Zijuan tea. Via transcriptomics, we found that the key biosynthetic genes and for synthesizing flavonoids were significantly enhanced in rootstock compared with non-grafted Zijuan. Concurrently, for biodegrading flavonoids was significantly suppressed in rootstock compared with non-grafted Zijuan. These results revealed the shifting mechanism of key secondary metabolites during grafting. In addition, we found that the shift after grafting possessed no significant influence on bacterial community diversity, but grafting slightly enhanced the fungal community diversity of scions. We found that the shift in fungal community diversity was driven by rootstocks with a higher fungal community diversity. This study systematically reveals the shift in secondary metabolites and fungal community diversity, which provides a novel and comprehensive understanding and theoretical basis for plant breeding using grafting.
Grafting is an important approach to improving tea plant varieties, and tea grafting can result in changes in secondary metabolites. However, the shifting pattern of secondary metabolites between scions, rootstocks, and non-grafted tea leaves is unclear. We employed "Yuncha 1" as the scion and "Zijuan" as the rootstock with significant differences in leaf color traits to reveal the influences of grafting on the generation of secondary metabolites and transcriptional activities. By non-targeted metabolomic analysis, we identified that grafting led to an obvious shift in secondary metabolites between the scion, rootstock, and non-grafted tea leaves. Importantly, we found that grafting significantly enhanced the accumulation of flavonoids, the vital component of secondary metabolites for the flavor quality, purple color, and health-beneficial effect of Zijuan tea. Via transcriptomics, we found that the key biosynthetic genes DFR and EC 1.1.1.219 for synthesizing flavonoids were significantly enhanced in rootstock compared with non-grafted Zijuan. Concurrently, ANS for biodegrading flavonoids was significantly suppressed in rootstock compared with non-grafted Zijuan. These results revealed the shifting mechanism of key secondary metabolites during grafting. In addition, we found that the shift after grafting possessed no significant influence on bacterial community diversity, but grafting slightly enhanced the fungal community diversity of scions. We found that the shift in fungal community diversity was driven by rootstocks with a higher fungal community diversity. This study systematically reveals the shift in secondary metabolites and fungal community diversity, which provides a novel and comprehensive understanding and theoretical basis for plant breeding using grafting.Grafting is an important approach to improving tea plant varieties, and tea grafting can result in changes in secondary metabolites. However, the shifting pattern of secondary metabolites between scions, rootstocks, and non-grafted tea leaves is unclear. We employed "Yuncha 1" as the scion and "Zijuan" as the rootstock with significant differences in leaf color traits to reveal the influences of grafting on the generation of secondary metabolites and transcriptional activities. By non-targeted metabolomic analysis, we identified that grafting led to an obvious shift in secondary metabolites between the scion, rootstock, and non-grafted tea leaves. Importantly, we found that grafting significantly enhanced the accumulation of flavonoids, the vital component of secondary metabolites for the flavor quality, purple color, and health-beneficial effect of Zijuan tea. Via transcriptomics, we found that the key biosynthetic genes DFR and EC 1.1.1.219 for synthesizing flavonoids were significantly enhanced in rootstock compared with non-grafted Zijuan. Concurrently, ANS for biodegrading flavonoids was significantly suppressed in rootstock compared with non-grafted Zijuan. These results revealed the shifting mechanism of key secondary metabolites during grafting. In addition, we found that the shift after grafting possessed no significant influence on bacterial community diversity, but grafting slightly enhanced the fungal community diversity of scions. We found that the shift in fungal community diversity was driven by rootstocks with a higher fungal community diversity. This study systematically reveals the shift in secondary metabolites and fungal community diversity, which provides a novel and comprehensive understanding and theoretical basis for plant breeding using grafting.
Audience Academic
Author Tian, Yiping
Chen, Linbo
Qu, Hao
Liu, Yue
Liu, Jun
Ye, Shuang
Pang, Dandan
AuthorAffiliation 3 Bioinformatics Group, Wageningen University & Research, 6708 PB Wageningen, The Netherlands; ahjunnew@163.com
2 Yunnan Provincial Key Laboratory of Tea Science, Tea Research Institute, Yunnan Academy of Agricultural Sciences, Menghai 666201, China
1 Tea Research Institute, Yunnan Academy of Agricultural Sciences, Kunming 650000, China; liuyue0504@126.com (Y.L.); ckstyp@163.com (Y.T.); yeshuang910@163.com (S.Y.); pangddnumber1@163.com (D.P.)
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– name: 1 Tea Research Institute, Yunnan Academy of Agricultural Sciences, Kunming 650000, China; liuyue0504@126.com (Y.L.); ckstyp@163.com (Y.T.); yeshuang910@163.com (S.Y.); pangddnumber1@163.com (D.P.)
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Keywords tea
secondary metabolites
flavonoids
grafting
metabolic profile
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Snippet Grafting is an important approach to improving tea plant varieties, and tea grafting can result in changes in secondary metabolites. However, the shifting...
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SubjectTerms Accumulation
Analysis
Biosynthesis
Carbohydrates
Catechin
Color
Community structure
Enzymes
Flavonoids
Fungi
Gene expression
Genes
Grafting
Hydrocarbons
Influence
Isoflavones
Leaves
Lipids
metabolic profile
Metabolism
Metabolites
Metabolomics
Microbiota
Plant breeding
Plant metabolites
Rootstocks
Scions
Secondary metabolites
Sterols
Tea
Transcriptomics
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Title Multi-Omics Analysis Revealed the Accumulation of Flavonoids and Shift of Fungal Community Structure Caused by Tea Grafting (Camellia sinensis L.)
URI https://www.ncbi.nlm.nih.gov/pubmed/40284064
https://www.proquest.com/docview/3194637214
https://www.proquest.com/docview/3195780129
https://pubmed.ncbi.nlm.nih.gov/PMC12030563
https://doaj.org/article/4c962bd6322f43728bda4453d2a40987
Volume 14
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