Naoki Nakagawa

Last Updated :2024/05/07

Affiliations, Positions
Graduate School of Integrated Sciences for Life, Assistant Professor
E-mail
nakahiroshima-u.ac.jp
Self-introduction
Using mutant plants and plant growth regulators, our goal is to clarify the relationship between mitochondria and various traits that have been overlooked in relation to mitochondria.

Basic Information

Major Professional Backgrounds

  • 2007/04/01, 2019/03/31, Hiroshima University, Graduate School of Biosphere Science, Assistant Professor
  • 1992/04/01, 1993/11/30, Institute of Physical and Chemical Research, Basic Science, researcher
  • 1993/12/01, 2007/03/31, Hiroshima University, Faculty of Integrated Arts & Sciences, Research Assistant

Academic Degrees

  • Doctor of Agriculture, Nagoya University
  • Master of Agriculture, Nagoya University

Educational Activity

  • [Bachelor Degree Program] School of Integrated Arts and Sciences : Department of Integrated Arts and Sciences : Integrated Arts and Sciences
  • [Master's Program] Graduate School of Integrated Sciences for Life : Division of Integrated Sciences for Life : Program of Life and Environmental Sciences
  • [Doctoral Program] Graduate School of Integrated Sciences for Life : Division of Integrated Sciences for Life : Program of Life and Environmental Sciences

Research Fields

  • Biology;Basic biology;Plant molecular biology / Plant physiology

Research Keywords

  • Plant hormone
  • mitochondria
  • Plant growth regulation

Educational Activity

Course in Charge

  1. 2024, Liberal Arts Education Program1, 1Term, Experimental Methods and Laboratory Work in Biology I
  2. 2024, Liberal Arts Education Program1, 1Term, Experimental Methods and Laboratory Work in Biology I
  3. 2024, Liberal Arts Education Program1, 1Term, Experimental Methods and Laboratory Work in Biology I
  4. 2024, Liberal Arts Education Program1, 1Term, Experimental Methods and Laboratory Work in Biology I
  5. 2024, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Biology I
  6. 2024, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Biology I
  7. 2024, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Biology I
  8. 2024, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Biology I
  9. 2024, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Biology I
  10. 2024, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Biology I
  11. 2024, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Biology I
  12. 2024, Liberal Arts Education Program1, 3Term, Experimental Methods and Laboratory Work in Biology I
  13. 2024, Liberal Arts Education Program1, 2Term, Experimental Methods and Laboratory Work in Biology II
  14. 2024, Liberal Arts Education Program1, 2Term, Experimental Methods and Laboratory Work in Biology II
  15. 2024, Liberal Arts Education Program1, 2Term, Experimental Methods and Laboratory Work in Biology II
  16. 2024, Liberal Arts Education Program1, 2Term, Experimental Methods and Laboratory Work in Biology II
  17. 2024, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Biology II
  18. 2024, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Biology II
  19. 2024, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Biology II
  20. 2024, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Biology II
  21. 2024, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Biology II
  22. 2024, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Biology II
  23. 2024, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Biology II
  24. 2024, Liberal Arts Education Program1, 4Term, Experimental Methods and Laboratory Work in Biology II
  25. 2024, Undergraduate Education, 3Term, Seminar in English for Life Sciences
  26. 2024, Undergraduate Education, 2Term, Introduction to Life Sciences
  27. 2024, Undergraduate Education, 2Term, Cell Biology
  28. 2024, Undergraduate Education, 4Term, Laboratory Work in Life Sciences B
  29. 2024, Undergraduate Education, 4Term, Practical Methods in Life Sciences B
  30. 2024, Undergraduate Education, First Semester, Fundamental Laboratory Work in Biology
  31. 2024, Undergraduate Education, First Semester, Fundamental Methodology in Biology
  32. 2024, Graduate Education (Master's Program) , 4Term, Environmental plant sciences and symbiotic microbiology

Research Activities

Academic Papers

  1. Immunochemical difference of wound-induced 1-aminocyclopropane-1-carboxylate synthase from the auxin-induced enzyme, Plant and Cell Physiology, 29(7), 1255, 19880401
  2. Signal transduction mechanism of Plant hormone, Tissue Culture, 19(10), 347, 19930401
  3. Structural characteristics of ACC synthase isozymes and differential expression of their genes, Cellular and Molecular Aspects of the Plant Hormone Ethylene, 1-6, 1993
  4. Characterization of Genes Encoding Auxin-Induced Type 1-Aminocyclopropane-1-Carboxylate Synthase, PROCEEDINGS-PLANT GROWTH REGULATOR SOCIETY OF AMERICA-ANNUAL MEETING, 19, 149-149, 1992
  5. ★, Cloning of a complementary DNA for auxin-induced 1-aminocyclopropane-1-carboxylate synthase and differential expression often gene by auxin and wounding, Plant Cell Physiology, 32(8), 1153, 19910401
  6. Wound-induced ACC synthase, an immunochemical comparison of the wound-induced and auxin-induced enzymes, Plant growth substances 1988, 113-121, 1990
  7. Auxin-and wound-induced expression of ACC synthase, Cell Separation in Plants, 51-59, 1989
  8. ★, The putative peptide gene FEP1 regulates iron deficiency response in Arabidopsis., Plant Cell Physiology, 59(9), 1739-1752, 20180901
  9. ★, A mutation in At-nMat1a, which encodes a nuclear gene having high similarity to group II intron maturase, causes impaired splicing of mitochondrial NAD4 transcript and altered carbon metabolism in Arabidopsis thaliana., Plant Cell Physiology, 47(6), 772-783, 20060417
  10. Measurement of ethylene emission from Japanese red pine (Pinus densiflora) under field conditions in NOx-polluted areas, ENVIRONMENTAL POLLUTION, 111(3), 389-394, 2001
    Link to Paper Search Results by DOI
  11. Sugar treatment inhibits IAA-induced expression of endo-1,3:1,4-beta-glucanase EI transcripts in barley coleoptile segments, PHYSIOLOGIA PLANTARUM, 139(4), 413-420, 2010
    Link to Paper Search Results by DOI
  12. Purification and biochemical characterization of cell wall-bound trehalase from pericarp tissues of Actinidia deliciosa, JOURNAL OF THE JAPANESE SOCIETY FOR HORTICULTURAL SCIENCE, 77(3), 229-235, 2008
    Link to Paper Search Results by DOI
  13. Changes in the cell-wall polysaccharides of outer pericarp tissues of kiwifruit during development, PLANT PHYSIOLOGY AND BIOCHEMISTRY, 44(42769), 115-124, 2006
    Link to Paper Search Results by DOI
  14. A novel endo-1,4-beta-glucanase gene (LlpCel1) is exclusively expressed in pollen and pollen tubes of Lilium longiflorum, ACTA BOTANICA SINICA, 46(2), 142-147, 2004
    Link to Paper Search Results by DOI
  15. Expresssion and function of cell wall-bound cationic peroxidase in asparagus somatic embryogenesis, Plant Physiology, 131(4), 1765-1774, 20030401
  16. Cell wall integrity controls expression of endoxyloglucan transferase in tobacco BY2 cells, PLANT AND CELL PHYSIOLOGY, 42(2), 240-244, 2001
    Link to Paper Search Results by DOI
  17. Regulation of dynamic changes in cell wall polysaccharides, Progress in Biotechnology, 18, 101-110, 2001
  18. Auxin-induced elongation growth and expressions of cell wall-bound exo- and endo-beta-glucanases in barley coleoptiles, PLANT AND CELL PHYSIOLOGY, 41(11), 1272-1278, 2000
    Link to Paper Search Results by DOI
  19. Turnover of cell-wall polysaccharides during somatic embryogenesis and development of celery (Apium graveolens L.) 42 (1), 8-15, Journal of Plant Biology, 42(1), 8-15, 1999
  20. Quantitative and qualitative changes of cell wall polysaccharides during somatic embryogenesis and plantlet development of asparagus (Asparagus officinalis L.), Plant and cell physiology, 39(6), 607-614, 1998
  21. Increase in the amount of celA1 protein in tobacco BY-2 cells by a cellulose biosynthesis inhibitor, 2, 6-dichlorobenzonitrile, Plant and cell physiology, 39(7), 779-785, 1998
  22. Long-term effects of several biochemical and physical factors on cellulose biosynthesis in callus and suspension cultures of normal and mutant barley (Hordeum vulgare L.) strains producing less cellulose, Journal of Plant Biology, 41(3), 219-226, 1998
  23. Purification and Characterization of Wall-bound Exo-l, 3-β-D-Glucanase from Barley (Hordeum vulgare L.) Seedlings, Plant and cell physiology, 38(2), 194-200, 1997
  24. Structural characteristics of ACC [1-aminocyclopropane-1-carboxylate] synthase isozymes and differential expression of their genes, Current Plant Science and Biotechnology in Agriculture (Netherlands), 1993
  25. Nucleotide sequence of an auxin-regulated l -aminocyclopropane -l -carboxylic acid synthase gene from Cucurbita maxima Duch., Plant Physiology, 109(4), 1499, 19950401

External Funds

Acceptance Results of Competitive Funds

  1. KAKENHI, Studies on the mechanism of auxin-induced elongation growth in Poaceae plants, 1995, 1996
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Social Activities

Organizing Academic Conferences, etc.

  1. The 82nd annual meeting of the botanical society of Japan, Hiroshima 2018, Program committee

History as Peer Reviews of Academic Papers

  1. 2018, Plant and cell physiology, Others, Reviewer, 1