A Correlation Study of Caffeine Content with Theobromine Content, cSNPs, and Transcriptional Expression of Three Genes in Tea Plants

ABSTRACT Caffeine is an important secondary metabolite of tea plants whose content is affected by multiple factors during its synthesis. In the present study, a series of experiments on different tea cultivars were performed to investigate the following factors that influence the ratio of caffeine c...

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Published inCrop science Vol. 54; no. 3; pp. 1124 - 1132
Main Authors Li, Jin, Wei, Yan‐Li, Li, Ye‐Yun, Pang, Lei, Deng, Wei‐Wei, Jiang, Chang‐Jun
Format Journal Article
LanguageEnglish
Published Madison The Crop Science Society of America, Inc 01.05.2014
American Society of Agronomy
Subjects
Biosynthesis
Caffeine
Correlation analysis
Cultivars
Dehydrogenases
Enzymes
Gene expression
Haplotypes
Membrane filters
Metabolites
quantitative polymerase chain reaction
secondary metabolites
Studies
Tea
theobromine
transcription (genetics)
Online AccessGet full text
ISSN0011-183X
1435-0653
DOI10.2135/cropsci2013.04.0237

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Abstract ABSTRACT Caffeine is an important secondary metabolite of tea plants whose content is affected by multiple factors during its synthesis. In the present study, a series of experiments on different tea cultivars were performed to investigate the following factors that influence the ratio of caffeine content to theobromine content, coding single‐nucleotide polymorphisms (cSNPs), and expression levels of three key enzyme genes (TCS1, TIDH, and sAMS). The results revealed a significantly positive correlation with the caffeine and theobromine contents of different tea cultivars. There were 7, 8, and 7 cSNPs in the coding sequences of TCS1, TIDH, and sAMS, respectively. Among them, the TCS1 A995C, TIDH T573A, and sAMS C393T cSNP sites were significantly associated with the caffeine content. Gene expression was detected by the quantitative real‐time polymerase chain reaction (qRT‐PCR) method, and it suggested a significant association of TCS1 expression with caffeine content but not with theobromine content. TIDH and sAMS expression levels had no significant association with either caffeine or theobromine content. Therefore, it could be concluded from the study findings that the following three factors had a significant influence on the biosynthesis of caffeine in tea plants: the precursor theobromine content; SNPs in TCS1, TIDH, and sAMS in the coding region; and TCS1 expression level.
AbstractList Caffeine is an important secondary metabolite of tea plants whose content is affected by multiple factors during its synthesis. In the present study, a series of experiments on different tea cultivars were performed to investigate the following factors that influence the ratio of caffeine content to theobromine content, coding single‐nucleotide polymorphisms (cSNPs), and expression levels of three key enzyme genes (TCS1, TIDH, and sAMS). The results revealed a significantly positive correlation with the caffeine and theobromine contents of different tea cultivars. There were 7, 8, and 7 cSNPs in the coding sequences of TCS1, TIDH, and sAMS, respectively. Among them, the TCS1 A995C, TIDH T573A, and sAMS C393T cSNP sites were significantly associated with the caffeine content. Gene expression was detected by the quantitative real‐time polymerase chain reaction (qRT‐PCR) method, and it suggested a significant association of TCS1 expression with caffeine content but not with theobromine content. TIDH and sAMS expression levels had no significant association with either caffeine or theobromine content. Therefore, it could be concluded from the study findings that the following three factors had a significant influence on the biosynthesis of caffeine in tea plants: the precursor theobromine content; SNPs in TCS1, TIDH, and sAMS in the coding region; and TCS1 expression level.
ABSTRACT Caffeine is an important secondary metabolite of tea plants whose content is affected by multiple factors during its synthesis. In the present study, a series of experiments on different tea cultivars were performed to investigate the following factors that influence the ratio of caffeine content to theobromine content, coding single‐nucleotide polymorphisms (cSNPs), and expression levels of three key enzyme genes (TCS1, TIDH, and sAMS). The results revealed a significantly positive correlation with the caffeine and theobromine contents of different tea cultivars. There were 7, 8, and 7 cSNPs in the coding sequences of TCS1, TIDH, and sAMS, respectively. Among them, the TCS1 A995C, TIDH T573A, and sAMS C393T cSNP sites were significantly associated with the caffeine content. Gene expression was detected by the quantitative real‐time polymerase chain reaction (qRT‐PCR) method, and it suggested a significant association of TCS1 expression with caffeine content but not with theobromine content. TIDH and sAMS expression levels had no significant association with either caffeine or theobromine content. Therefore, it could be concluded from the study findings that the following three factors had a significant influence on the biosynthesis of caffeine in tea plants: the precursor theobromine content; SNPs in TCS1, TIDH, and sAMS in the coding region; and TCS1 expression level.
Caffeine is an important secondary metabolite of tea plants whose content is affected by multiple factors during its synthesis. In the present study, a series of experiments on different tea cultivars were performed to investigate the following factors that influence the ratio of caffeine content to theobromine content, coding single‐nucleotide polymorphisms (cSNPs), and expression levels of three key enzyme genes ( TCS1 , TIDH , and sAMS ). The results revealed a significantly positive correlation with the caffeine and theobromine contents of different tea cultivars. There were 7, 8, and 7 cSNPs in the coding sequences of TCS1 , TIDH , and sAMS , respectively. Among them, the TCS1 A995C, TIDH T573A, and sAMS C393T cSNP sites were significantly associated with the caffeine content. Gene expression was detected by the quantitative real‐time polymerase chain reaction (qRT‐PCR) method, and it suggested a significant association of TCS1 expression with caffeine content but not with theobromine content. TIDH and sAMS expression levels had no significant association with either caffeine or theobromine content. Therefore, it could be concluded from the study findings that the following three factors had a significant influence on the biosynthesis of caffeine in tea plants: the precursor theobromine content; SNPs in TCS1 , TIDH , and sAMS in the coding region; and TCS1 expression level.
Caffeine is an important secondary metabolite of tea plants whose content is affected by multiple factors during its synthesis. In the present study, a series of experiments on different tea cultivars were performed to investigate the following factors that influence the ratio of caffeine content to theobromine content, coding single-nucleotide polymorphisms (cSNPs), and expression levels of three key enzyme genes (TCS1, TIDH, and sAMS). The results revealed a significantly positive correlation with the caffeine and theobromine contents of different tea cultivars. There were 7, 8, and 7 cSNPs in the coding sequences of TCS1, TIDH, and sAMS, respectively. Among them, the TCS1 A995C, TIDH T573A, and sAMS C393T cSNP sites were significantly associated with the caffeine content. Gene expression was detected by the quantitative real-time polymerase chain reaction (qRT-PCR) method, and it suggested a significant association of TCS1 expression with caffeine content but not with theobromine content. TIDH and sAMS expression levels had no significant association with either caffeine or theobromine content. Therefore, it could be concluded from the study findings that the following three factors had a significant influence on the biosynthesis of caffeine in tea plants: the precursor theobromine content; SNPs in TCS1, TIDH, and sAMS in the coding region; and TCS1 expression level. [PUBLICATION ABSTRACT]
Author Jiang, Chang‐Jun
Wei, Yan‐Li
Deng, Wei‐Wei
Li, Ye‐Yun
Pang, Lei
Li, Jin
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  organization: Anhui Agricultural Univ
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Snippet ABSTRACT Caffeine is an important secondary metabolite of tea plants whose content is affected by multiple factors during its synthesis. In the present study,...
Caffeine is an important secondary metabolite of tea plants whose content is affected by multiple factors during its synthesis. In the present study, a series...
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SubjectTerms Biosynthesis
Caffeine
Correlation analysis
Cultivars
Dehydrogenases
Enzymes
Gene expression
Haplotypes
Membrane filters
Metabolites
quantitative polymerase chain reaction
secondary metabolites
Studies
Tea
theobromine
transcription (genetics)
Title A Correlation Study of Caffeine Content with Theobromine Content, cSNPs, and Transcriptional Expression of Three Genes in Tea Plants
URI https://onlinelibrary.wiley.com/doi/abs/10.2135%2Fcropsci2013.04.0237
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Volume 54
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