The chromosome-scale genome reveals the evolution and diversification after the recent tetraploidization event in tea plant
文献类型: 外文期刊
第一作者: Chen, Jie-Dan
作者: Chen, Jie-Dan;Zheng, Chao;Ma, Jian-Qiang;Jiang, Chen-Kai;Yao, Ming-Zhe;Chen, Liang;Ercisli, Sezai
作者机构:
期刊名称:HORTICULTURE RESEARCH ( 影响因子:6.793; 五年影响因子:6.589 )
ISSN: 2662-6810
年卷期: 2020 年 7 卷 1 期
页码:
收录情况: SCI
摘要: Tea is one of the most popular nonalcoholic beverages due to its characteristic secondary metabolites with numerous health benefits. Although two draft genomes of tea plant (Camellia sinensis) have been published recently, the lack of chromosome-scale assembly hampers the understanding of the fundamental genomic architecture of tea plant and potential improvement. Here, we performed a genome-wide chromosome conformation capture technique (Hi-C) to obtain a chromosome-scale assembly based on the draft genome of C. sinensis var. sinensis and successfully ordered 2984.7Mb (94.7%) scaffolds into 15 chromosomes. The scaffold N50 of the improved genome was 218.1Mb, 157-fold higher than that of the draft genome. Collinearity comparison of genome sequences and two genetic maps validated the high contiguity and accuracy of the chromosome-scale assembly. We clarified that only one Camellia recent tetraploidization event (CRT, 58.9-61.7 million years ago (Mya)) occurred after the core-eudicot common hexaploidization event (146.6-152.7 Mya). Meanwhile, 9243 genes (28.6%) occurred in tandem duplication, and most of these expanded after the CRT event. These gene duplicates increased functionally divergent genes that play important roles in tea-specific biosynthesis or stress response. Sixty-four catechin- and caffeine-related quantitative trait loci (QTLs) were anchored to chromosome assembly. Of these, two catechin-related QTL hotspots were derived from the CRT event, which illustrated that polyploidy has played a dramatic role in the diversification of tea germplasms. The availability of a chromosome-scale genome of tea plant holds great promise for the understanding of genome evolution and the discovery of novel genes contributing to agronomically beneficial traits in future breeding programs.
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