Characterizing the cultivar-specific mechanisms underlying the accumulation of quality-related metabolites in specific Chinese tea (Camellia sinensis) germplasms to diversify tea products
文献类型: 外文期刊
第一作者: Li, Jianlong
作者: Li, Jianlong;Tang, Jinchi;Xiao, Yangyang;Zhou, Xiaochen;Liao, Yinyin;Wu, Shuhua;Chen, Jiaming;Qian, Jiajia;Zeng, Lanting;Xiao, Yangyang;Zhou, Xiaochen;Liao, Yinyin;Wu, Shuhua;Chen, Jiaming;Qian, Jiajia;Zeng, Lanting;Xiao, Yangyang;Zhou, Xiaochen;Chen, Jiaming;Qian, Jiajia;Zeng, Lanting;Liao, Yinyin;Wu, Shuhua;Zeng, Lanting;Yan, Ying;Yan, Ying
作者机构:
关键词: Tea germplasm; Camellia sinensis; Secondary metabolite; Quality; Differential distribution; Regulatory mechanism
期刊名称:FOOD RESEARCH INTERNATIONAL ( 影响因子:8.1; 五年影响因子:7.7 )
ISSN: 0963-9969
年卷期: 2022 年 161 卷
页码:
收录情况: SCI
摘要: The diverse tea (Camellia sinensis) germplasms in China include those that specifically accumulate metabolites, such as anthocyanin, catechin, amino acid, caffeine, aroma compound, and chlorophyll. There is interest in the derived products because of special flavor quality or high efficacy activity. This review describes the characteristics of specific tea germplasms and associated regulatory mechanisms. High expression levels of the corresponding biosynthetic genes lead to the substantial accumulation of anthocyanins. The increased metabolic flux from anthocyanins to galloylated catechins is responsible for the occurrence of high-catechin germplasms. The precursor ethylamine determines the differential abundance of L-theanine between tea and other plants. The high amino acid contents in albino germplasms are the result of decreased L-theanine hydrolysis. In low-caffeine tea germplasms, caffeine synthase genes are minimally expressed or mutated. High-aroma germplasms are associated with an increase in the precursors or strong stress-induced responses. Enhanced chloroplast and chlorophyll synthesis is a hallmark of the high-chlorophyll germplasms. Overall, biosynthetic metabolism might have contributed to the occurrence of specific tea germplasms. Furthermore, elucidation the deeper molecular mechanisms in specific tea germplasms are significant and urgent. The information will enhance our understanding of the metabolic activities in tea plants, with implications for tea breeding.
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