Tea Research Institute of the Chinese Academy of Agricultural Sciences , Key Laboratory of Tea Plant Biology and Resources Utilization, Ministry of Agriculture and Rural Affairs , 9 South Meiling Road , Hangzhou , Zhejiang 310008 , China.
J Agric Food Chem. 2018 Oct 10;66(40):10470-10478. doi: 10.1021/acs.jafc.8b04504. Epub 2018 Oct 1.
Catechins are important chemical components determining the quality of tea. The catechin index (CI, ratio of dihydroxylated catechin (DIC)/trihydroxylated catechin (TRIC)) in the green leaf has a major influence on the amounts of theaflavins in black tea. In this work, the major catechin profiles of wild tea plants originating from Guizhou Province with high CI trait were investigated. We identified a novel flavonoid 3',5' hydroxylase gene ( F3' 5' H) allele with a 14 bp deletion in the upstream regulation region and developed an insertion/deletion (InDel) marker accordingly. The 14 bp deletion in the novel F3' 5' H allele was associated with low F3' 5' H mRNA expression, thereby resulting in low TRIC content and high CI value. The allelic variant in the novel F3' 5' H allele associated with high CI values and DIC contents was confirmed by the introgression lines derived from a distant cross population. The novel F3' 5' H allele in wild tea plants is a valuable gene resource, which could be applied to breeding improvement on tea quality.
儿茶素是决定茶叶品质的重要化学成分。绿叶中的儿茶素指数(CI,二羟基儿茶素(DIC)/三羟基儿茶素(TRIC)的比例)对红茶中叶黄素的含量有很大影响。在这项工作中,研究了源自贵州省具有高 CI 特性的野生茶树的主要儿茶素特征。我们鉴定了一个新的黄酮 3',5' 羟化酶基因(F3'5' H)等位基因,其上游调控区缺失 14 个碱基对,并相应开发了一个插入/缺失(InDel)标记。新型 F3'5' H 等位基因中的 14 个碱基对缺失与低 F3'5' H mRNA 表达有关,从而导致 TRIC 含量低和 CI 值高。来自远缘杂交群体的导入系证实了与高 CI 值和 DIC 含量相关的新型 F3'5' H 等位基因变体。野生茶树中的新型 F3'5' H 等位基因是一种有价值的基因资源,可应用于茶叶品质的改良育种。
