Haplotype-Resolved Genome Assembly Provides Insights into Evolutionary History of the Tea Plant Camellia Sinensis
Jan 1, 2021·,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,·
0 min read
Xingtan Zhang
Shuai Chen
Longqing Shi
Daping Gong
Shengcheng Zhang
Qian Zhao
Dongliang Zhan
Liette Vasseur
Yibin Wang
Jiaxin Yu
Zhenyang Liao
Xindan Xu
Rui Qi
Wenling Wang
Yunran Ma
Pengjie Wang
Naixing Ye
Dongna Ma
Yan Shi
Haifeng Wang
Xiaokai Ma
Xiangrui Kong
Jing Lin
Liufeng Wei
Yaying Ma
Ruoyu Li
Guiping Hu
Haifang He
Lin Zhang
Ray Ming
Gang Wang
Haibao Tang
Minsheng You
Abstract
Tea is an important global beverage crop and is largely clonally propagated. Despite previous studies on the species, its genetic and evolutionary history deserves further research. Here, we present a haplotype-resolved assembly of an Oolong tea cultivar, Tieguanyin. Analysis of allele-specific expression suggests a potential mechanism in response to mutation load during long-term clonal propagation. Population genomic analysis using 190 Camellia accessions uncovered independent evolutionary histories and parallel domestication in two widely cultivated varieties, var. sinensis and var. assamica. It also revealed extensive intra- and interspecific introgressions contributing to genetic diversity in modern cultivars. Strong signatures of selection were associated with biosynthetic and metabolic pathways that contribute to flavor characteristics as well as genes likely involved in the Green Revolution in the tea industry. Our results offer genetic and molecular insights into the evolutionary history of Camellia sinensis and provide genomic resources to further facilitate gene editing to enhance desirable traits in tea crops.
Type
Publication
Nature Genetics