Three chromosome-level duck genome assemblies provide insights into genomic variation during domestication

被引:0
|
作者
Feng Zhu
Zhong-Tao Yin
Zheng Wang
Jacqueline Smith
Fan Zhang
Fergal Martin
Denye Ogeh
Maxwell Hincke
Fang-Bing Lin
David W. Burt
Zheng-Kui Zhou
Shui-Sheng Hou
Qiang-Sen Zhao
Xiao-Qin Li
Si-Ran Ding
Guan-Sheng Li
Fang-Xi Yang
Jing-Pin Hao
Ziding Zhang
Li-Zhi Lu
Ning Yang
Zhuo-Cheng Hou
机构
[1] China Agricultural University,National Engineering Laboratory for Animal Breeding and Key Laboratory of Animal Genetics, Breeding and Reproduction, MARA; College of Animal Science and Technology
[2] University of Edinburgh,The Roslin Institute & R(D)SVS
[3] Easter Bush,Department of Cellular and Molecular Medicine, Department of Innovation in Medical Education
[4] European Molecular Biology Laboratory,Key Laboratory of Animal (Poultry) Genetics Breeding and Reproduction, Ministry of Agriculture and Rural Affairs; State Key Laboratory of Animal Nutrition, Institute of Animal Science
[5] European Bioinformatics Institute,State Key Laboratory of Agrobiotechnology, College of Biological Sciences
[6] Wellcome Genome Campus,Institute of Animal Husbandry and Veterinary Science
[7] Hinxton,undefined
[8] Faculty of Medicine,undefined
[9] University of Ottawa,undefined
[10] The University of Queensland,undefined
[11] Chinese Academy of Agricultural Sciences,undefined
[12] Beijing Golden-Star Inc.,undefined
[13] China Agricultural University,undefined
[14] Zhejiang Academy of Agricultural Sciences,undefined
来源
Nature Communications | / 12卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Domestic ducks are raised for meat, eggs and feather down, and almost all varieties are descended from the Mallard (Anas platyrhynchos). Here, we report chromosome-level high-quality genome assemblies for meat and laying duck breeds, and the Mallard. Our new genomic databases contain annotations for thousands of new protein-coding genes and recover a major percentage of the presumed “missing genes” in birds. We obtain the entire genomic sequences for the C-type lectin (CTL) family members that regulate eggshell biomineralization. Our population and comparative genomics analyses provide more than 36 million sequence variants between duck populations. Furthermore, a mutant cell line allows confirmation of the predicted anti-adipogenic function of NR2F2 in the duck, and uncovered mutations specific to Pekin duck that potentially affect adipose deposition. Our study provides insights into avian evolution and the genetics of oviparity, and will be a rich resource for the future genetic improvement of commercial traits in the duck.
引用
收藏
相关论文
共 50 条
  • [1] Three chromosome-level duck genome assemblies provide insights into genomic variation during domestication
    Zhu, Feng
    Yin, Zhong-Tao
    Wang, Zheng
    Smith, Jacqueline
    Zhang, Fan
    Martin, Fergal
    Ogeh, Denye
    Hincke, Maxwell
    Lin, Fang-Bing
    Burt, David W.
    Zhou, Zheng-Kui
    Hou, Shui-Sheng
    Zhao, Qiang-Sen
    Li, Xiao-Qin
    Ding, Si-Ran
    Li, Guan-Sheng
    Yang, Fang-Xi
    Hao, Jing-Pin
    Zhang, Ziding
    Lu, Li-Zhi
    Yang, Ning
    Hou, Zhuo-Cheng
    [J]. NATURE COMMUNICATIONS, 2021, 12 (01)
  • [2] Chromosome-level genome assemblies of 2 hemichordates provide new insights into deuterostome origin and chromosome evolution
    Lin, Che-Yi
    Marletaz, Ferdinand
    Perez-Posada, Alberto
    Martinez-Garcia, Pedro Manuel
    Schloissnig, Siegfried
    Peluso, Paul
    Conception, Greg T.
    Bump, Paul
    Chen, Yi-Chih
    Chou, Cindy
    Lin, Ching-Yi
    Fan, Tzu-Pei
    Tsai, Chang-Tai
    Skarmeta, Jose Luis Gomez
    Tena, Juan J.
    Lowe, Christopher J.
    Rank, David R.
    Rokhsar, Daniel S.
    Yu Jr, Kai
    Su, Yi-Hsien
    [J]. PLOS BIOLOGY, 2024, 22 (06)
  • [3] Chromosome-level genome assemblies from two sandalwood species provide insights into the evolution of the Santalales
    Zhou Hong
    Dan Peng
    Luke R. Tembrock
    Xuezhu Liao
    Daping Xu
    Xiaojin Liu
    Zhiqiang Wu
    [J]. Communications Biology, 6
  • [4] Chromosome-level genome assemblies of four wild peach species provide insights into genome evolution and genetic basis of stress resistance
    Ke Cao
    Zhen Peng
    Xing Zhao
    Yong Li
    Kuozhan Liu
    Pere Arus
    Weichao Fang
    Changwen Chen
    Xinwei Wang
    Jinlong Wu
    Zhangjun Fei
    Lirong Wang
    [J]. BMC Biology, 20
  • [5] Chromosome-level genome assemblies of four wild peach species provide insights into genome evolution and genetic basis of stress resistance
    Cao, Ke
    Peng, Zhen
    Zhao, Xing
    Li, Yong
    Liu, Kuozhan
    Arus, Pere
    Fang, Weichao
    Chen, Changwen
    Wang, Xinwei
    Wu, Jinlong
    Fei, Zhangjun
    Wang, Lirong
    [J]. BMC BIOLOGY, 2022, 20 (01)
  • [6] Chromosome-level genome assembly and population genomic analysis provide novel insights into the immunity and evolution of Sogatella furcifera
    Cui, Ting
    Bai, Qing
    Yu, Weiqiang
    Guo, Dongyang
    Ban, Yawen
    Chen, Kun
    Raza, Ali
    Zhou, Guohui
    Wu, Qingfa
    [J]. GENOMICS, 2023, 115 (06)
  • [7] Chromosome-level genome assemblies of Musa ornata and Musa velutina provide insights into pericarp dehiscence and anthocyanin biosynthesis in banana
    Xiao, Tian-Wen
    Liu, Xin
    Fu, Ning
    Liu, Tong-Jian
    Wang, Zheng-Feng
    Ge, Xue-Jun
    Huang, Hui-Run
    [J]. HORTICULTURE RESEARCH, 2024, 11 (05)
  • [8] Chromosome-level genome and population genomic analysis provide insights into the evolution and environmental adaptation of Jinjiang oyster Crassostrea ariakensis
    Wu, Biao
    Chen, Xi
    Yu, Mengjun
    Ren, Jianfeng
    Hu, Jie
    Shao, Changwei
    Zhou, Liqing
    Sun, Xiujun
    Yu, Tao
    Zheng, Yanxin
    Wang, Yan
    Wang, Zhenyuan
    Zhang, He
    Fan, Guangyi
    Liu, Zhihong
    [J]. MOLECULAR ECOLOGY RESOURCES, 2022, 22 (04) : 1529 - 1544
  • [9] Chromosome-Level Reference Genome and Population Genomic Analysis Provide Insights into the Evolution and Improvement of Domesticated Mulberry (Morus alba)
    Jiao, Feng
    Luo, Rongsong
    Dai, Xuelei
    Liu, Hui
    Yu, Gang
    Han, Shuhua
    Lu, Xin
    Su, Chao
    Chen, Qi
    Song, Qinxia
    Meng, Caiting
    Li, Fanghong
    Sun, Hongmei
    Zhang, Rui
    Hui, Tian
    Qian, Yonghua
    Zhao, Aichun
    Jiang, Yu
    [J]. MOLECULAR PLANT, 2020, 13 (07) : 1001 - 1012
  • [10] Chromosome-level genome assemblies from two sandalwood species provide insights into the evolution of the Santalales (vol 6, 587, 2023)
    Hong, Zhou
    Peng, Dan
    Tembrock, Luke R.
    Liao, Xuezhu
    Xu, Daping
    Liu, Xiaojin
    Wu, Zhiqiang
    [J]. COMMUNICATIONS BIOLOGY, 2023, 6 (01)
12345