山茶
山茶花
栽培
生物
原花青素
植物
属
多酚
山茶科
生物化学
抗氧化剂
作者
Yajun Liu,Guifu Zhao,Xin Li,Qiang Shen,Qiong Wu,Juhua Zhuang,Xiaoqin Zhang,Enhua Xia,Zhengzhu Zhang,Yumei Qian,Liping Gao,Tao Xia
标识
DOI:10.1016/j.foodres.2020.109276
摘要
Wild tea plants, which are classified into different species in the section Thea of the genus Camellia, are widely distributed in southern China. Tea produced from these plants has a unique flavor, which is different from that of tea produced from tea cultivars. In this study, we performed a comparative analysis of morphology, phylogenetic relationships, and phenolic compound metabolism between two wild tea plants (Gujing and Siqiu) and a tea cultivar (Shuchazao). Siqiu and Gujing tea plants had similar morphological traits and could be phylogenetically classified into a same cluster, which was entirely separate from the cluster containing widely cultivated cultivars such as Camellia sinensis cv. Shuchazao. Combined metabolomic and transcriptome analyses revealed that UGT84a22 was highly expressed in Gujing leaves compared with Shuchazao and Siqiu leaves, which may lead to the high accumulation of galloylquinic acid in Gujing leaves. A 14-bp deletion spanning the −765–(−7 5 1) range in the F3′5′H promoter potentially led to low F3′5′H expression levels in Siqiu and Gujing tea plants, which severely disrupted the accumulation of trihydroxy flavonoids in Gujing and Siqiu tea leaves. The high astringency intensity in Gujing tea could be due to the high accumulation of proanthocyanidins and galloylquinic acid. The results of the present study may improve our understanding of the metabolic characteristics of each evolutionary group of species or varieties in the section Thea of the genus Camellia.
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