Whole-genome resequencing of 472 Vitis accessions for grapevine diversity and demographic history analyses

Zhenchang Liang; Shengchang Duan; Jun Sheng; Shusheng Zhu; Xuemei Ni; Jianhui Shao; Chonghuai Liu; Peter Nick; Fei Du; Peige Fan; Ruzhi Mao; Yifan Zhu; Weiping Deng; Min Yang; Huichuan Huang; Yixiang Liu; Yiqing Ding; Xianju Liu; Jianfu Jiang; Youyong Zhu; Shaohua Li; Xiahong He; Wei Chen; Yang Dong

doi:10.1038/s41467-019-09135-8

Whole-genome resequencing of 472 Vitis accessions for grapevine diversity and demographic history analyses

Zhenchang Liang(Chinese Academy of Sciences), Shengchang Duan(Yunnan Agricultural University), Jun Sheng(Yunnan Agricultural University), Shusheng Zhu(Yunnan Agricultural University), Xuemei Ni(BGI Group (China)), Jianhui Shao(Yunnan Agricultural University), Chonghuai Liu(Zhengzhou Fruit Research Institute), Peter Nick(Karlsruhe Institute of Technology), Fei Du(Yunnan Agricultural University), Peige Fan(Chinese Academy of Sciences), Ruzhi Mao(Yunnan Agricultural University), Yifan Zhu(Yunnan Agricultural University), Weiping Deng(Yunnan Agricultural University), Min Yang(Yunnan Agricultural University), Huichuan Huang(Yunnan Agricultural University), Yixiang Liu(Yunnan Agricultural University), Yiqing Ding(Chinese Academy of Sciences), Xianju Liu(Chinese Academy of Sciences), Jianfu Jiang(Zhengzhou Fruit Research Institute), Youyong Zhu(Yunnan Agricultural University), Shaohua Li(Chinese Academy of Sciences), Xiahong He(Yunnan University), Wei Chen(Yunnan University), Yang Dong(Yunnan University)

Nature Communications

March 13, 2019

10.1038/s41467-019-09135-8

Cited by 221Open Access

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Abstract

Understanding the Vitis species at the genomic level is important for cultivar improvement of grapevine. Here we report whole-genome genetic variation at single-base resolution of 472 Vitis accessions, which cover 48 out of 60 extant Vitis species from a wide geographic distribution. The variation helps to identify a recent dramatic expansion and contraction of effective population size in the domesticated grapevines and that cultivars from the pan-Black Sea region have a unique demographic history in comparison to the other domesticated cultivars. We also find selective sweeps for berry edibility and stress resistance improvement. Furthermore, we find associations between candidate genes and important agronomic traits, such as berry shape and aromatic compounds. These results demonstrate resource value of the resequencing data for illuminating the evolutionary biology of Vitis species and providing targets for grapevine genetic improvement.

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