Whole-genome sequence analysis of mutations in rice plants regenerated from zygotes, mature embryos, and immature embryos

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  • Ichikawa Masako
    Plant Innovation Center, Japan Tobacco Inc. Agri-Bio Research Center, KANEKA CORPORATION
  • Kato Norio
    Plant Innovation Center, Japan Tobacco Inc. RIKEN Cluster for Science, Technology and Innovation Hub Department of Biological Sciences, Tokyo Metropolitan University
  • Toda Erika
    RIKEN Cluster for Science, Technology and Innovation Hub Department of Biological Sciences, Tokyo Metropolitan University Department of Biological Sciences, The University of Tokyo
  • Kashihara Masakazu
    Plant Innovation Center, Japan Tobacco Inc. Agri-Bio Research Center, KANEKA CORPORATION
  • Ishida Yuji
    Plant Innovation Center, Japan Tobacco Inc. Agri-Bio Research Center, KANEKA CORPORATION
  • Hiei Yukoh
    Plant Innovation Center, Japan Tobacco Inc.
  • Isobe Sachiko N.
    Kazusa DNA Research Institute
  • Shirasawa Kenta
    Kazusa DNA Research Institute
  • Hirakawa Hideki
    Kazusa DNA Research Institute
  • Okamoto Takashi
    RIKEN Cluster for Science, Technology and Innovation Hub Department of Biological Sciences, Tokyo Metropolitan University
  • Komari Toshihiko
    Plant Innovation Center, Japan Tobacco Inc. Agri-Bio Research Center, KANEKA CORPORATION

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Description

<p>Somaclonal variation was studied by whole-genome sequencing in rice plants (Oryza sativa L., ‘Nipponbare’) regenerated from the zygotes, mature embryos, and immature embryos of a single mother plant. The mother plant and its seed-propagated progeny were also sequenced. A total of 338 variants of the mother plant sequence were detected in the progeny, and mean values ranged from 9.0 of the seed-propagated plants to 37.4 of regenerants from mature embryos. The natural mutation rate of 1.2 × 10–8 calculated using the variants in the seed-propagated plants was consistent with the values reported previously. The ratio of single nucleotide variants (SNVs) among the variants in the seed-propagated plants was 91.1%, which is higher than 56.1% previously reported, and not significantly different from those in the regenerants. Overall, the ratio of transitions to transversions of SNVs was lower in the regenerants as shown previously. Plants regenerated from mature embryos had significantly more variants than different progeny types. Therefore, using zygotes and immature embryos can reduce somaclonal variation during the genetic manipulation of rice.</p>

Journal

  • Breeding Science

    Breeding Science 73 (3), 349-353, 2023

    Japanese Society of Breeding

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