HIROKI NATSUME

Last Updated :2025/06/04

Affiliations, Positions
Graduate School of Integrated Sciences for Life Laboratory of Plant Chromosome and Gene Stock, Assistant Professor (Special Appointment)
E-mail
qindonghiroshima-u.ac.jp
Self-introduction
I would like to apply the knowledge obtained from research on wild chrysanthemum genetic resources

Basic Information

Major Professional Backgrounds

  • 2022/08/01, Graduate School of Integrated Sciences for Life, Laboratory of Plant Chromosome and Gene Stock, Project Assistant Professor
  • 2021/04/01, Hiroshima University, Graduate School of Integrated Sciences for Life, Assistant Professor
  • 2020/10/01, 2021/03/31, Hiroshima University, Graduate School of Integrated Sciences for Life, Research fellow

Educational Backgrounds

  • Hiroshima University, Graduate School of Biosphere Science, 2017/10, 2020/09
  • Hiroshima University, Graduate School of Biosphere Science, 2015/10, 2017/09

Academic Degrees

  • Hiroshima University
  • Hiroshima University

Research Fields

  • Biology;Basic biology;Plant molecular biology / Plant physiology
  • Agricultural sciences;Agricultural chemistry;Plant nutrition / Soil science

Affiliated Academic Societies

  • THE BOTANICAL SOCIETY OF JAPAN, 2023/04
  • The Japanese Society for Horticultural Science, 2023/04
  • Japanese Society of Soil Science and Plant Nutrition, 2020/10, 2022/10
    Related URL
  • Japanese Society of Grassland Science, 2018/01, 2020/12
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Research Activities

Academic Papers

  1. A Chromosome Level Genome Sequence Reveals Regulation of Salt Stress Response in Mesembryanthemum crystallinum, Physiologia Plantarum, 20250124
  2. ★, Structural complexity of the white flower locus in Chrysanthemum, The Journal of Horticultural Science and Biotechnology, 20240617
  3. Amino acid substitution in CAPRICE (CPC) protein affects its cell-to-cell movement in the root epidermis of Arabidopsis thaliana, JOURNAL OF PLANT BIOCHEMISTRY AND BIOTECHNOLOGY, 32(2), 399-406, 202306
    Link to Paper Search Results by DOI
  4. Complementation and protein localization analyses of R3 MYBs in an Arabidopsis caprice mutant, PLANT BIOTECHNOLOGY, 40(1), 99-103, 202303
    Link to Paper Search Results by DOI
  5. Aberrant RNA splicing of the phytic acid synthesis gene inositol-1,3,4 trisphosphate 5/6-kinase in a low phytic acid soybean line, SOIL SCIENCE AND PLANT NUTRITION, 68(5-6), 553-562, 20221102
    Link to Paper Search Results by DOI
  6. Amino acid substitution in CAPRICE (CPC) protein affects its cell-to-cell movement in the root epidermis of Arabidopsis thaliana, Journal of Plant Biochemistry and Biotechnology, 202210
    Link to Paper Search Results by DOI
  7. ★, Aberrant RNA splicing of the phytic acid synthesis gene inositol-1,3,4 trisphosphate 5/6-kinase in a low phytic acid soybean line, 20220814
    Link to Paper Search Results by DOI
  8. Characteristics and Quality of Japanese Traditional Fermented Soybean (Natto) from a Low-phytate Line, Plant Foods for Human Nutrition, 75, 651-655, 20201025
    Link to Paper Search Results by DOI
  9. ★, Seedling growth, physiological characteristics, nitrogen fixation, and root and nodule phytase and phosphatase activity of a low-phytate soybean line, Plant Physiology and Biochemistry, 149, 225-232, 20200218
    Link to Paper Search Results by DOI
  10. Improvement of Grain Yield, Nutritional and Antinutritional Quality, and Seed Physiological Performance of Wheat by NPK Fertilization, Journal of Agricultural Science and Technology, 20(7), 1467-1477, 2018
  11. Effect of Phosphorus Fertilization on the Growth, Photosynthesis, Nitrogen Fixation, Mineral Accumulation, Seed Yield, and Seed Quality of a Soybean Low-Phytate Line, Plants, 8(5), 119, 20200508
    Link to Paper Search Results by DOI
  12. Physiological Characteristics, Phytase Activity, and Mineral Bioavailability of a Low-Phytate Soybean Line during Germination, Plant Foods for Human Nutrition, 75, 383-389, 20200521
    Link to Paper Search Results by DOI
  13. Characterization of myo-inositol-1-phosphate synthase (MIPS) gene expression and phytic acid accumulation in oat (Avena sativa) during seed development, Cereal Research Communications, 20210620
    Link to Paper Search Results by DOI

Invited Lecture, Oral Presentation, Poster Presentation

  1. Analysis of genes related to phytate decreation in a low phytate soybean, Dong Qin, Sho Nishida, Rumi Tominaga, Akihiro Ueda, Hirofumi Saneoka, JSSSPN 2021 Hokkaido, 2021/09/14, Without Invitation, Japanese
  2. Physiological characteristics of low phytate soybean line under low phosphorus condition, 2020/03/24, Without Invitation, English
  3. STUDY ON PHYSIOLOGICAL CHARACTERISTICS OF PLANT GERMINATION DIFFERING IN PHYTATE CONTENT, The 4th International Conference on Agriculture and Forestry, 2017/08/25, Without Invitation, English, published
  4. Growth, productivity and physiological characteristics of low phytate soybean, Qin Dong, Kanta Wakabayashi, Takumi Akahori1, Victor Raboy, Hirofumi Saneoka, The Seventh Japan-China-Korea Grassland Conference, 2018/07/08, Without Invitation, English

External Funds

Acceptance Results of Competitive Funds

  1. 2022, 2022
  2. 2023, 2026