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Contributions of Zea mays subspecies mexicana haplotypes to modern maize

Author

Listed:
  • Ning Yang

    (Huazhong Agricultural University)

  • Xi-Wen Xu

    (Huazhong Agricultural University)

  • Rui-Ru Wang

    (Huazhong Agricultural University)

  • Wen-Lei Peng

    (Huazhong Agricultural University)

  • Lichun Cai

    (China Agricultural University)

  • Jia-Ming Song

    (Huazhong Agricultural University)

  • Wenqiang Li

    (Huazhong Agricultural University)

  • Xin Luo

    (Huazhong Agricultural University)

  • Luyao Niu

    (Huazhong Agricultural University)

  • Yuebin Wang

    (Huazhong Agricultural University)

  • Min Jin

    (Huazhong Agricultural University)

  • Lu Chen

    (Huazhong Agricultural University)

  • Jingyun Luo

    (Huazhong Agricultural University)

  • Min Deng

    (Huazhong Agricultural University)

  • Long Wang

    (Huazhong Agricultural University)

  • Qingchun Pan

    (Huazhong Agricultural University)

  • Feng Liu

    (Huazhong Agricultural University)

  • David Jackson

    (Huazhong Agricultural University
    Cold Spring Harbor)

  • Xiaohong Yang

    (China Agricultural University)

  • Ling-Ling Chen

    (Huazhong Agricultural University)

  • Jianbing Yan

    (Huazhong Agricultural University)

Abstract

Maize was domesticated from lowland teosinte (Zea mays ssp. parviglumis), but the contribution of highland teosinte (Zea mays ssp. mexicana, hereafter mexicana) to modern maize is not clear. Here, two genomes for Mo17 (a modern maize inbred) and mexicana are assembled using a meta-assembly strategy after sequencing of 10 lines derived from a maize-teosinte cross. Comparative analyses reveal a high level of diversity between Mo17, B73, and mexicana, including three Mb-size structural rearrangements. The maize spontaneous mutation rate is estimated to be 2.17 × 10−8 ~3.87 × 10−8 per site per generation with a nonrandom distribution across the genome. A higher deleterious mutation rate is observed in the pericentromeric regions, and might be caused by differences in recombination frequency. Over 10% of the maize genome shows evidence of introgression from the mexicana genome, suggesting that mexicana contributed to maize adaptation and improvement. Our data offer a rich resource for constructing the pan-genome of Zea mays and genetic improvement of modern maize varieties.

Suggested Citation

  • Ning Yang & Xi-Wen Xu & Rui-Ru Wang & Wen-Lei Peng & Lichun Cai & Jia-Ming Song & Wenqiang Li & Xin Luo & Luyao Niu & Yuebin Wang & Min Jin & Lu Chen & Jingyun Luo & Min Deng & Long Wang & Qingchun Pa, 2017. "Contributions of Zea mays subspecies mexicana haplotypes to modern maize," Nature Communications, Nature, vol. 8(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-02063-5
    DOI: 10.1038/s41467-017-02063-5
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    Cited by:

    1. Katrien M. Devos & Peng Qi & Bochra A. Bahri & Davis M. Gimode & Katharine Jenike & Samuel J. Manthi & Dagnachew Lule & Thomas Lux & Liliam Martinez-Bello & Thomas H. Pendergast & Chris Plott & Dipnar, 2023. "Genome analyses reveal population structure and a purple stigma color gene candidate in finger millet," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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