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Haploid facultative parthenogenesis in sunflower sexual reproduction

Author

Listed:
  • Jian Lv

    (Syngenta Biotechnology (China) Co. Ltd)

  • Dawei Liang

    (Syngenta Biotechnology (China) Co. Ltd)

  • Eric Bumann

    (Syngenta Crop Protection LLC)

  • Virginie Mirleau Thebaud

    (Seeds France SAS)

  • Huaibing Jin

    (Syngenta Biotechnology (China) Co. Ltd)

  • Changbao Li

    (Syngenta Crop Protection LLC)

  • Clemence Paris

    (Seeds France SAS)

  • Yinghui Dan

    (Syngenta Biotechnology (China) Co. Ltd)

  • Chao Li

    (Syngenta Biotechnology (China) Co. Ltd)

  • Ruijie Cui

    (Syngenta Biotechnology (China) Co. Ltd)

  • Xianxia Chen

    (Syngenta Biotechnology (China) Co. Ltd)

  • David Szwerdszarf

    (Syngenta S.A)

  • Peter Wittich

    (Syngenta Seeds B.V)

  • Bobby Clegg

    (Syngenta Crop Protection LLC)

  • Agustin Tassara

    (Syngenta Agro S.A.)

  • Hongmei Dan

    (Syngenta Biotechnology (China) Co. Ltd)

  • Xiaolong Tian

    (Syngenta Group China)

  • Zhiqiang Liu

    (Syngenta Biotechnology (China) Co. Ltd)

  • Wen Cai

    (Syngenta Biotechnology (China) Co. Ltd)

  • Bin Sun

    (Syngenta Biotechnology (China) Co. Ltd)

  • Jared Carter

    (Syngenta Crop Protection LLC)

  • Paul Drayton

    (Jealott’s Hill International Research Centre)

  • Federico Bock

    (Seeds France SAS)

  • Timothy Kelliher

    (Syngenta Crop Protection LLC)

Abstract

Flowering plant sexual reproduction requires double fertilization, yielding embryo and endosperm seed compartments: the latter supports embryo growth and seed germination. In an experiment to generate haploid embryos through inhibition of pollen phospholipase activity in sunflower (Helianthus annus), we serendipitously discovered that emasculated sunflowers spontaneously form parthenogenic haploid seed. Exploration of genetic, chemical and environmental factors demonstrated that a specific genotype background enabled high parthenogenesis and that full spectrum high-intensity light supplementation boosted parthenogenesis, yielding hundreds of haploid seeds per head. Induction of doubled haploid plants can greatly accelerate plant breeding efficiency; however, despite successful engineering of haploid induction in many crops, few reported systems are commercially scalable1. Here we report efficient methods of chemical emasculation and genome doubling to produce fertile plants and enable a scalable sunflower doubled haploid system.

Suggested Citation

  • Jian Lv & Dawei Liang & Eric Bumann & Virginie Mirleau Thebaud & Huaibing Jin & Changbao Li & Clemence Paris & Yinghui Dan & Chao Li & Ruijie Cui & Xianxia Chen & David Szwerdszarf & Peter Wittich & B, 2025. "Haploid facultative parthenogenesis in sunflower sexual reproduction," Nature, Nature, vol. 641(8063), pages 732-739, May.
    • Handle: RePEc:nat:nature:v:641:y:2025:i:8063:d:10.1038_s41586-025-08798-2
    DOI: 10.1038/s41586-025-08798-2
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