Pan-genome of Citrullus genus highlights the extent of presence/absence variation during domestication and selection

被引：0

作者：

Yang Sun

Dou-Rong Kou

Yan Li

Jiang-Ping Ni

Jing Wang

Yong-Mei Zhang

Qing-Nan Wang

Bin Jiang

Xu Wang

Yue-Xin Sun

Xin-Tong Xu

Xiao-Juan Tan

Yong-Jun Zhang

Xiang-dong Kong

机构：

[1] Anhui Normal University,Key Laboratory for Conservation and Use of Important Biological Resources of Anhui Province, Anhui Provincial Key Laboratory of Molecular Enzymology and Mechanism of Major Diseases, College of Life Sciences

[2] Institute of Plant Protection,Laboratory for Biology of Plant Diseases and Insect Pests

[3] Chinese Academy of Agricultural Sciences,undefined

[4] JiguangGene Biotechnology Co. Ltd,undefined

来源：

BMC Genomics | / 24卷

关键词：

genus; Pan-genome; Presence or absence variation; RGA; Selection; GWAS;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The rich genetic diversity in Citrullus lanatus and the other six species in the Citrullus genus provides important sources in watermelon breeding. Here, we present the Citrullus genus pan-genome based on the 400 Citrullus genus resequencing data, showing that 477 Mb contigs and 6249 protein-coding genes were absent in the Citrullus lanatus reference genome. In the Citrullus genus pan-genome, there are a total of 8795 (30.5%) genes that exhibit presence/absence variations (PAVs). Presence/absence variation (PAV) analysis showed that a lot of gene PAV were selected during the domestication and improvement, such as 53 favorable genes and 40 unfavorable genes were identified during the C. mucosospermus to C. lanatus landrace domestication. We also identified 661 resistance gene analogs (RGAs) in the Citrullus genus pan-genome, which contains 90 RGAs (89 variable and 1 core gene) located on the pangenome additional contigs. By gene PAV-based GWAS, 8 gene presence/absence variations were found associated with flesh color. Finally, based on the results of gene PAV selection analysis between watermelon populations with different fruit colors, we identified four non-reference candidate genes associated with carotenoid accumulation, which had a significantly higher frequency in the white flesh. These results will provide an important source for watermelon breeding.

引用

共 23 条

[1] Pan-genome of Citrullus genus highlights the extent of presence/absence variation during domestication and selection
Sun, Yang
Kou, Dou-Rong
Li, Yan
Ni, Jiang-Ping
Wang, Jing
Zhang, Yong-Mei
Wang, Qing-Nan
Jiang, Bin
Wang, Xu
Sun, Yue-Xin
Xu, Xin-Tong
Tan, Xiao-Juan
Zhang, Yong-Jun
Kong, Xiang-dong
BMC GENOMICS, 2023, 24 (01)
[2] Pan-genome analysis highlights the extent of genomic variation in cultivated and wild rice
Zhao, Qiang
Feng, Qi
Lu, Hengyun
Li, Yan
Wang, Ahong
Tian, Qilin
Zhan, Qilin
Lu, Yiqi
Huang, Tao
Wang, Yongchun
Fan, Danlin
Zhao, Yan
Wang, Ziqun
Zhou, Congcong
Chen, Jiaying
Zhu, Chuanrang
Li, Wenjun
Weng, Qijun
Xu, Qun
Wang, Zi-Xuan
Wei, Xinghua
Han, Bin
Huang, Xuehui
NATURE GENETICS, 2018, 50 (02) : 279 - +
[3] Pan-genome analysis highlights the extent of genomic variation in cultivated and wild rice
Qiang Zhao
Qi Feng
Hengyun Lu
Yan Li
Ahong Wang
Qilin Tian
Qilin Zhan
Yiqi Lu
Lei Zhang
Tao Huang
Yongchun Wang
Danlin Fan
Yan Zhao
Ziqun Wang
Congcong Zhou
Jiaying Chen
Chuanrang Zhu
Wenjun Li
Qijun Weng
Qun Xu
Zi-Xuan Wang
Xinghua Wei
Bin Han
Xuehui Huang
Nature Genetics, 2018, 50 : 278 - 284
[4] Cotton pan-genome retrieves the lost sequences and genes during domestication and selection
Jianying Li
Daojun Yuan
Pengcheng Wang
Qiongqiong Wang
Mengling Sun
Zhenping Liu
Huan Si
Zhongping Xu
Yizan Ma
Boyang Zhang
Liuling Pei
Lili Tu
Longfu Zhu
Ling-Ling Chen
Keith Lindsey
Xianlong Zhang
Shuangxia Jin
Maojun Wang
Genome Biology, 22
[5] Cotton pan-genome retrieves the lost sequences and genes during domestication and selection
Li, Jianying
Yuan, Daojun
Wang, Pengcheng
Wang, Qiongqiong
Sun, Mengling
Liu, Zhenping
Si, Huan
Xu, Zhongping
Ma, Yizan
Zhang, Boyang
Pei, Liuling
Tu, Lili
Zhu, Longfu
Chen, Ling-Ling
Lindsey, Keith
Zhang, Xianlong
Jin, Shuangxia
Wang, Maojun
GENOME BIOLOGY, 2021, 22 (01)
[6] Publisher Correction: Pan-genome analysis highlights the extent of genomic variation in cultivated and wild rice
Qiang Zhao
Qi Feng
Hengyun Lu
Yan Li
Ahong Wang
Qilin Tian
Qilin Zhan
Yiqi Lu
Lei Zhang
Tao Huang
Yongchun Wang
Danlin Fan
Yan Zhao
Ziqun Wang
Congcong Zhou
Jiaying Chen
Chuanrang Zhu
Wenjun Li
Qijun Weng
Qun Xu
Zi-Xuan Wang
Xinghua Wei
Bin Han
Xuehui Huang
Nature Genetics, 2018, 50 : 1196 - 1196
[7] Massive gene presence-absence variation shapes an open pan-genome in the Mediterranean mussel
Gerdol, Marco
Moreira, Rebeca
Cruz, Fernando
Gomez-Garrido, Jessica
Vlasova, Anna
Rosani, Umberto
Venier, Paola
Naranjo-Ortiz, Miguel A.
Murgarella, Maria
Greco, Samuele
Balseiro, Pablo
Corvelo, Andre
Frias, Leonor
Gut, Marta
Gabaldon, Toni
Pallavicini, Alberto
Canchaya, Carlos
Novoa, Beatriz
Alioto, Tyler S.
Posada, David
Figueras, Antonio
GENOME BIOLOGY, 2020, 21 (01) : 275
[8] Massive gene presence-absence variation shapes an open pan-genome in the Mediterranean mussel
Marco Gerdol
Rebeca Moreira
Fernando Cruz
Jessica Gómez-Garrido
Anna Vlasova
Umberto Rosani
Paola Venier
Miguel A. Naranjo-Ortiz
Maria Murgarella
Samuele Greco
Pablo Balseiro
André Corvelo
Leonor Frias
Marta Gut
Toni Gabaldón
Alberto Pallavicini
Carlos Canchaya
Beatriz Novoa
Tyler S. Alioto
David Posada
Antonio Figueras
Genome Biology, 21
[9] The goat pan-genome reveals patterns of gene loss during domestication
Jiaxin Liu
Yilong Shi
Dongxin Mo
Lingyun Luo
Songsong Xu
Fenghua Lv
Journal of Animal Science and Biotechnology, 2025, 16 (01) : 49 - 58
[10] The goat pan-genome reveals patterns of gene loss during domestication
Liu, Jiaxin
Shi, Yilong
Mo, Dongxin
Luo, Lingyun
Xu, Songsong
Lv, Fenghua
JOURNAL OF ANIMAL SCIENCE AND BIOTECHNOLOGY, 2024, 15 (01)

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