Haplotype-resolved genome assembly provides insights into evolutionary history of the tea plant Camellia sinensis
Xingtan Zhang
1, 2
,
Shuai Chen
1, 3, 4
,
Longqing Shi
1, 3, 5
,
Daping Gong
6
,
Shengcheng Zhang
4
,
Qian Zhao
1, 5
,
Dongliang ZHAN
7
,
L Vasseur
1, 5, 8
,
YIBIN WANG
4
,
Jiaxin Yu
4
,
Zhenyang Liao
4
,
Xindan Xu
4
,
Rui Qi
4
,
Wenling Wang
4
,
Yunran Ma
4
,
Pengjie Wang
9
,
Naixing Ye
9
,
Dongna Ma
1
,
Yan Shi
1
,
Haifeng Wang
1
,
Xiaokai Ma
4
,
Xiangrui Kong
10
,
Jing Lin
4
,
Liufeng Wei
1
,
Yaying Ma
4
,
Ruoyu Li
4
,
Guiping Hu
1, 11
,
Haifang He
1
,
Lin Zhang
12
,
Ray Ming
13
,
Gang Wang
14
,
Haibao Tang
4
,
Minsheng You
1, 5
7
Hangzhou Kaitai Biotech Co. Ltd, Hangzhou, China
|
11
Jiangxi Sericulture and Tea Research Institute, Nanchang, China
|
Publication type: Journal Article
Publication date: 2021-07-15
scimago Q1
wos Q1
SJR: 16.586
CiteScore: 45.1
Impact factor: 29.0
ISSN: 10614036, 15461718
PubMed ID:
34267370
Genetics
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. Haplotype-resolved genome assembly of an Oolong tea cultivar Tieguanyin and population genomic analyses of 190 Camellia accessions provide insights into the evolutionary history of the tea plant Camellia sinensis.
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Total citations:
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Citations from 2024:
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(55.82%)
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GOST
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Zhang X. et al. Haplotype-resolved genome assembly provides insights into evolutionary history of the tea plant Camellia sinensis // Nature Genetics. 2021. Vol. 53. No. 8. pp. 1250-1259.
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Zhang X., Chen S., Shi L., Gong D., Zhang S., Zhao Q., ZHAN D., Vasseur L., WANG Y., Yu J., Liao Z., Xu X., Qi R., Wang W., Ma Y., Wang P., Ye N., Ma D., Shi Y., Wang H., Ma X., Kong X., Lin J., Wei L., Ma Y., Li R., Hu G., He H., Zhang L., Ming R., Wang G., Tang H., You M. Haplotype-resolved genome assembly provides insights into evolutionary history of the tea plant Camellia sinensis // Nature Genetics. 2021. Vol. 53. No. 8. pp. 1250-1259.
Cite this
RIS
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TY - JOUR
DO - 10.1038/s41588-021-00895-y
UR - https://doi.org/10.1038/s41588-021-00895-y
TI - Haplotype-resolved genome assembly provides insights into evolutionary history of the tea plant Camellia sinensis
T2 - Nature Genetics
AU - Zhang, Xingtan
AU - Chen, Shuai
AU - Shi, Longqing
AU - Gong, Daping
AU - Zhang, Shengcheng
AU - Zhao, Qian
AU - ZHAN, Dongliang
AU - Vasseur, L
AU - WANG, YIBIN
AU - Yu, Jiaxin
AU - Liao, Zhenyang
AU - Xu, Xindan
AU - Qi, Rui
AU - Wang, Wenling
AU - Ma, Yunran
AU - Wang, Pengjie
AU - Ye, Naixing
AU - Ma, Dongna
AU - Shi, Yan
AU - Wang, Haifeng
AU - Ma, Xiaokai
AU - Kong, Xiangrui
AU - Lin, Jing
AU - Wei, Liufeng
AU - Ma, Yaying
AU - Li, Ruoyu
AU - Hu, Guiping
AU - He, Haifang
AU - Zhang, Lin
AU - Ming, Ray
AU - Wang, Gang
AU - Tang, Haibao
AU - You, Minsheng
PY - 2021
DA - 2021/07/15
PB - Springer Nature
SP - 1250-1259
IS - 8
VL - 53
PMID - 34267370
SN - 1061-4036
SN - 1546-1718
ER -
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BibTex (up to 50 authors)
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@article{2021_Zhang,
author = {Xingtan Zhang and Shuai Chen and Longqing Shi and Daping Gong and Shengcheng Zhang and Qian Zhao and Dongliang ZHAN and L Vasseur and YIBIN WANG and Jiaxin Yu and Zhenyang Liao and Xindan Xu and Rui Qi and Wenling Wang and Yunran Ma and Pengjie Wang and Naixing Ye and Dongna Ma and Yan Shi and Haifeng Wang and Xiaokai Ma and Xiangrui Kong and Jing Lin and Liufeng Wei and Yaying Ma and Ruoyu Li and Guiping Hu and Haifang He and Lin Zhang and Ray Ming and Gang Wang and Haibao Tang and Minsheng You},
title = {Haplotype-resolved genome assembly provides insights into evolutionary history of the tea plant Camellia sinensis},
journal = {Nature Genetics},
year = {2021},
volume = {53},
publisher = {Springer Nature},
month = {jul},
url = {https://doi.org/10.1038/s41588-021-00895-y},
number = {8},
pages = {1250--1259},
doi = {10.1038/s41588-021-00895-y}
}
Cite this
MLA
Copy
Zhang, Xingtan, et al. “Haplotype-resolved genome assembly provides insights into evolutionary history of the tea plant Camellia sinensis.” Nature Genetics, vol. 53, no. 8, Jul. 2021, pp. 1250-1259. https://doi.org/10.1038/s41588-021-00895-y.