NOZUE Masayuki

Faculty of Textile Science and Technology 

Professor Emeritus 

Degree

  • Doctor of Agriculture

Field Of Study

  • Plant molecular biology and physiology, Plant molecular biology/Plant physiology

Educational Background

  • 1975 - 1980, Nagoya University, Graduate School, Division of Agriculture
  • 1971 - 1975, Shinshu University, Faculty of Textile Science and Technology

Paper

  • 人工光型植物工場におけるLED光環境の最適化とその評価の試み
    野末雅之
    アグリバイオ, 1, 49-51, 2017
  • コンテナ植物工場開発の現状と課題
    野末雅之, 高橋伸英, 野末はつみ
    計測技術, 44(10), 11-16, 2016
  • Significance of structural variation in thylakoid membranes in maintaining functional photosystems during reproductive growth.
    Nozue, H., Oono, K., Ichikawa, Y., Tanimura, S., Shirai, K., Sonoike, K., Nozue, M. and Hayashida, N.
    Physiol. Plant., 160(1), 111-123, 2016電子ジャーナル
  • 植物工場における省エネルギー栽培とワサビ苗生産
    野末, 雅之; 野末, はつみ
    繊維学会誌, 70(3), 80-85, 2014WebofScienceリポジトリ電子ジャーナル
  • 植物工場技術の研究・開発および実証・展示・教育拠点 (9) 信州大学
    野末雅之・野末はつみ・宇佐美久尚・高橋伸英・田口悟朗・梶浦善太
    植物環境工学, 25(2), 65-69, 2013
  • 植物工場の新展開と課題
    野末雅之
    オレオサイエンス, 13, 19-25, 2013
  • Cloning of flowering genes (WjFLC and Wj FT) in wasabi (Japanese horseradish) and monitoring of flowering response with their expression
    Nozue, M., Kubo, H. and Yoshida, K.
    Udayana University Bioscience and Biotechnology forum, 1, 67-71, 2013リポジトリ
  • Cloning of FLOWERING LOCUS C ortholog in Wasabia japonica (Matsum.)
    Kubo H., Yoshida K., Nozue M.
    J. Plant Biochem. Biotechnol., 21(1), 117-120, 2012
  • 太陽光を利用した閉鎖型植物工場の開発 ― 省エネ型コンテナ植物工場、信州大学SU-PLAF ―
    野末はつみ・柳沢真弥・野末雅之
    施設と園芸, 157, 16-20, 2012
  • Cloning of FLOWERING LOCUS T ortholog in Wasabia japonica (Matsum.)
    Kubo H., Yoshida K., Nozue M.
    Biosci. Biotechnol. Biochem., 75(9), 1823-1825, 2011
  • LEDと有機ELを利用するコンテナ植物工場
    宇佐美久尚・島田葵・谷口彬雄・高橋伸英・野末雅之
    化学工学, 75(12), 807-810, 2011
  • 信州大学植物工場プロジェクト, コンテナ植物工場の開発
    野末雅之・宇佐美久尚・高橋伸英・野末はつみ
    計測と制御, 50(12), 1047-1052, 2011
  • 植物工場の可能性を拓く「信州大学先進植物工場研究教育センター(SU-PLAF)」の発足
    宇佐美久尚・高橋伸英・野末はつみ・塚田益裕 ・野末雅之
    Web Journal, 121, 12-16, 2011
  • 調光モジュールLED光源ユニットを用いた植物の生産性向上への試み
    野末はつみ・島田葵・谷口彬雄・野末雅之
    植物環境工学, 22(2), 81-87, 2010
  • 有機EL + 冷凍コンテナで野菜栽培を省電力化
    野末雅之・伊藤隆・茅野誠司・小山田慎吾・野末はつみ・谷口彬雄
    農業電化, 62(13), 8-10, 2009
  • Development of simple and efficient in planta transformation method for wheat (Triticum aestivum L.) using Agrobacterium tumefaciens
    Supartana, P; Shimizu, T; Nogawa, M; Shioiri, H; Nakajima, T; Haramoto, N; Nozue, M; Kojima, M
    Journal of Bioscience and Bioengineering, 102(3), 162-170, 2006WebofScience
  • Expression and localization of a 36-kDa peptide derived from a 24-kDavacuolar protein (VP24) precursor in anthocyanin-producing sweet potato cells in suspension culture
    W. Xu/ K. Moriya,/K. Yamada/ M. Kondo/ M. Nishimura/ H. Shioiri/ M. Kojima/ M. Nozue
    Plant Biotech, 18, 203-208, 2001
  • Isolation and characterization of a new virulence gene (abvA) of Agrobacterium tumefaciense.
    Majumder P.;Shioiri H.;Nozue M.;Kojima M.
    General Plant Pathol., 64, 124-133, 2001
  • Primary structure and expression of a 24-kD vacuolar protein (VP24) precursor in anthocyanin-producing cells of sweet potato in suspension culture
    W. Xu/H. Shioiri/ M. Kojima / M. Nozue
    Plant Physiol, 125(1), 447-455, 2001WebofScience
  • Expression pattern and gene structure of phenylalanine ammonia-lyase in Pharbitis nil.
    Nakazawa A.;Nozue M.;Yasuda H.;Takeba G.;Kubo H.
    J. Plant Res., 114(1115), 323-328, 2001WebofScience
  • Detection and characterization of a 36-kDa peptide in C-terminal region of a 24-kDa vacuolar protein (VP24) precursor in anthocyanin-producing sweet potato cells in suspension culture
    W. Xu, K. Moriya, K. Yamada, M. Nishimura, H. Shioiri, M. Kojima and M. Nozue
    Plant Sci., 160, 121-128, 2000
  • Development of a reliable method for Agrobacterium tumefaciens-mediated transformation of mulberry callus
    M. Nozue
    J. Seric. Sci. Jpn, 69, 345-352, 2000
  • Development of a simple and efficient method for transformation of buckwheat plants (Fagopyrum esculentum) using Agrobacterium tumefaciens
    M. Kojima/Y.Arai/N.Iwase/K.Shiratori/H.shioiri/M.Nozue
    Biosci. Biotechnol. Biochem, 64, 845-847, 2000
  • M-31 mutant (virA::Tn5) of Agrobacterium tumefaciens is capable of transferring its T-DNA into the nucleus of host cell, but incapable of intergrating it into the chromosome.
    Majumder P.;Yoshida H.;Shioiri H.;Nozue M.;Kojima M.
    J. Biosci. Bioeng., 90, 328-331, 2000
  • Effect of temperature on the pattern of anthocyanin accumulation in seedlings of Polygonum cuspidatum.
    Yamaguchi F.;Nozue M.;Yasuda H.;Kubo H.
    J. Plant Res., 113, 71-77, 2000
  • Buckwheat transformed with cDNA of a rice MADS box genes is stimulated in branching.
    Kojima M.;Hihara M.;Koyama S.;Shioiri H.;Nozue M.;Tamamoto K.;Sasaki T.
    Plant Biotech., 17, 35-42, 2000
  • Activation by proteolysis in vivo of 60-ku latent polyphenol oxidases in sweet potato cells in suspension culture
    M. Nozue
    J. Plant Physiol, 155, 297-301, 1999
  • Purification and characterization of two isoforms of chlorogenic acid oxidase from sweet potato cells in suspension culture
    M. Nozue
    J. Plant Physiol, 153, 552-557, 1998
  • Expression of a vacuolar protein (VP24) in anthocyanin-producing cells of sweet potato in suspension culture
    M. Nozue
    Plant Physiol, 115, 1065-1072, 1997
  • Detection and characterization of a vacuolar protein (VP24) in anthocyanin-producing cells of sweet potato in suspension culture
    Masayuki Nozue;Hiroyoshi Kubo;Mikio Nishimura;Hitoshi Yasuda
    Plant Cell Physiol., 36(5), 883-889, 1995
  • Intravacuolar spherical bodies in Polygonum cuspidatum
    Hiroyoshi Kubo;Masayuki Nozue;Kunihide Kawasaki;Hitoshi Yasuda
    Plant Cell Physiol., 36(8), 1453-1458, 1995

Books and other publications

  • 『感動繊維の独創から共創へ』
    野末雅之, 植物工場の現状と可能性
    株式会社ITSC, 220-228 2011
  • 日経ものづくり編、『植物工場大全』
    野末雅之・島田葵・谷口彬雄, 保温・断熱性に優れる太陽光型冷凍コンテナ植物工場
    日経BP社, 77-83 2010

Lectures, oral presentations, etc.

  • White LED Light with Wide Wavelength Spectrum Promotes High-Yielding and Energy-Saving Indoor Vegetable Production
    Hatsumi Nozue, Kana Shirai, Koji Kajikawa, Masao Gomi, Masayuki Nozue
    International Society for Horticultural Science GREENSYS 2017, Aug. 2017
  • Rearrangement of PSII and associated functional aternation during leaf maturation in Arabidopsis thaliana
    Haatsumi Nozue, Takashi Shigarami, Ryota Satruta, Shigeichi Kumazaki, Masayuki Nozue
    第56回日本植物生理学会年会, 2015
  • A year-round production system for wasabi nursery plants in a plant factory
    Nozue, H., kamoto, C., Matsuda, Y., Motoki, M., Kanemitsu, N., Nozue, M
    The International Conference on Plant Factory 2014, 2014
  • Cloning of flowering genes (WjFLC and WjFT) in Wasabi (Japanese horseradish) and monitoring of flowering response with their expression
    Nozue, M., Kubo, H. and Yoshida, K.
    4th International Conference of Biosciences and Biotechnology, 2012, Invited
  • An approach to improving plant productivity by use of a LED unit equipped with control modules.
    Nozue, H., Shimada, A., Yabuuchi, Y., Itoh, T., Kinoshita, J., Jibu, H., Umayahara, I., Taguchi, G., Nozue, M.
    6th International Symposium on Light in Horticulture., Nov. 2009
  • Characterization of Bali Isolates of Fusarium oxysporum f. sp. vanillae
    Nozue, M.
    International Seminar for Biotechnology, Sep. 2009
  • Analysis of gene targeting events in buckwheat (Fagopyrum esculentum) transformed by the mutant strains of Agrobacterium tumefaciens that have deficiency in T-DNA integration step into plant genome
    Suparthana, P., Shimuzu, T., Nozue, M., Nogawa, M. and Kojima, M.
    The 4th International Conference on Advanced Fiber/Textile Materials 2007 in Ueda, Dec. 2007
  • Alternative 3-hydroxylation pathway leading to chlorogenic acid biosynthesis occurs by polyphenol oxidase in vacuole of sweet potato cells in suspension culture
    Nozue, M., Ichikawa, Y., Hayashi, K., Kagawa, K., Nogawa, M., Nozue, M. and Kojima, M.
    Joint Annual Meeting of the American Society of Plant Biologists and the Canadian Society of Plant Physiologists, Plant Biology 2006, Aug. 2006
  • Vacuolar localization of 3-hydroxylation pathway involved in hydroxycinnamate esters biosythesis in sweet potato cells in suspension culture
    Hayashi, K., Ichikawa, Y., and Nozue, M.
    The 53rd National Institute for Basic Biology (NIBB) Conference, Jun. 2006

Research Themes

  • 植物培養細胞を用いた二次代謝系発現様式の解明