山茶
生物
基因组
遗传学
种质资源
基因
茶氨酸
基因家族
转录组
计算生物学
植物
食品科学
基因表达
绿茶
作者
Chaoling Wei,Hua Yang,Songbo Wang,Jian Zhao,Chun Liu,Liping Gao,Enhua Xia,Ying Lü,Yuling Tai,Guangbiao She,Jun Sun,Haisheng Cao,Wei Tong,Qiang Gao,Yeyun Li,Wei‐Wei Deng,Xiaolan Jiang,Wenzhao Wang,Qi Chen,Shihua Zhang
标识
DOI:10.1073/pnas.1719622115
摘要
Significance A high-quality genome assembly of Camellia sinensis var. sinensis facilitates genomic, transcriptomic, and metabolomic analyses of the quality traits that make tea one of the world’s most-consumed beverages. The specific gene family members critical for biosynthesis of key tea metabolites, monomeric galloylated catechins and theanine, are indicated and found to have evolved specifically for these functions in the tea plant lineage. Two whole-genome duplications, critical to gene family evolution for these two metabolites, are identified and dated, but are shown to account for less amplification than subsequent paralogous duplications. These studies lay the foundation for future research to understand and utilize the genes that determine tea quality and its diversity within tea germplasm.
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