Rchr
J-GLOBAL ID:200901088900851505
Update date: Oct. 20, 2024
Akita Motomu
アキタ モトム | Akita Motomu
Affiliation and department:
Job title:
Associate Professor
Research field (3):
Applied molecular and cellular biology
, Agricultural environmental and information engineering
, Applied biochemistry
Research keywords (6):
応用植物分子生物学
, 植物組織培養
, 応用微生物学・応用生物化学
, Applied Plant Molecular Biology
, Plant Tissue Culture
, Applied Microbiochemistry and Applied Biochemistry
Research theme for competitive and other funds (15):
- 2010 - 2012 Production of plants for phytoremediation by metabolic engineering: Enhancement of an ability to remove environmental formaldehyde and methanol
- 2008 - 2011 緑化用培養スナゴケの大規模栽培と利用技術の実用化研究
- 2007 - 2009 Creation of plants that efficiently absorb and remove formaldehyde in air by genetic engineering, and its application to ornamental foliage plants
- 2007 - 2008 屋上・壁面緑化用多機能性バイオ苔のLED 活用高効率生産技術
- 2003 - 2005 組み換え多角体を用いた相互作用するタンパク質の検出と分離
- 1998 - 植物の有用代謝物生産方法に関する研究
- 1998 - Study on tissue culture techniques for production of plant secondary metabolites.
- 1995 - 1997 Development of a simplified system for mass production of plant storage organs using tissue culture techniques.
- 1994 - 1994 組織培養技術を利用した植物器官における二次代謝制御メカニズム測定系の開発
- 1988 - 植物の二次代謝制御機構に関する研究
- 1988 - study on control mechanism on plant secondary metabolism.
- 1985 - 植物の大量増殖法に関する研究
- 1985 - Study on mass propagation methods by plant tissue culture techniques.
- Research on techniques for production of plant metabolites
- Research on bioreactor techniques for mass propagation of seedlings.
Show all
Papers (62):
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Kotaro Matsumoto, Kazuya Higashi, Yuki Naka, Kenji Ito, Motomu Akita. A liquid static culture using a gas-permeable film bag contributes to microbiology. Scientific Reports. 2024. 14. 1
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Kenji Ito, Yuki Naka, Kotaro Matsumoto, Motomu Akita. Highly Active Peroxidase (Prx34) Derived from Moss, Physcomitrium patens, Is Produced as a Soluble Form in Escherichia coli. ACS Food Science and Technology. 2023. 3. 12. 2173-2180
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Kazuya HIGASHI, Kanji ITO, Yuki NAKA, Motomu AKITA. Liquid Static Culture Method using High Oxygen Permeable Film. Shokubutsu Kankyo Kogaku. 2023. 35. 4. 161-164
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Motomu Akita, Satoki Kurimoto, Yuusuke Kominami. A simple method for making CO2 enriched micro-environment by a fluorinated (FEP) film and its application. Memoires of Institute of Advanced Technology, Kindai University. 2020. 25. 11-16
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Tamura M, Tanabe M, Valkonen JPT, Akita M. Sunagoke Moss (Racomitrium japonicum) Used for Greening Roofs Is Severely Damaged by Sclerotium delphinii and Protected by a Putative Bacillus amyloliquefaciens Isolate. Front. Microbiol. 2019. 10. 372
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MISC (37):
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〈Original Papers〉Comparative study for the efficient RNA extraction method from Eleocharis vivipara. 2012. 30. 49-60
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久保森, 明渡絵里朱, 中川強, 石原健志, 小西美稲子, 柳澤修一, 笠岡昌美, 蒔田由布子, 豊田哲郎, 由里本博也, et al. Arabidopsis thaliana培養細胞によるC1資化植物作出モデル系の構築-ホルムアルデヒド固定のための遺伝子コンストラクト検討-. 日本植物細胞分子生物学会大会・シンポジウム講演要旨集. 2012. 30th. 170
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久保森, 榊原均, 来須孝光, 朽津和幸, 由理本博也, 阪井康能, 秋田求, 大和勝幸, 泉井桂. シロイヌナズナのホルムアルデヒドストレス応答と活性酸素種(ROS)の関与に関する解析. 日本植物生理学会年会要旨集. 2012. 53rd. 192
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秋田 求. 「植物工場技術の研究・開発および実証・展示・教育拠点」掲載にあたって. 植物環境工学. 2012. 24. 1. 3-4
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鈴木詩織, 明渡絵里朱, 中川強, 榊原均, 由里本博也, 阪井康能, 大和勝幸, 秋田求, 泉井桂. イネへのホルムアルデヒドの同化代謝系(リブロースモノリン酸経路)の導入. 日本植物細胞分子生物学会大会・シンポジウム講演要旨集. 2011. 29th. 148
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Patents (5):
Books (14):
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植物バイオテクノロジー, 遺伝子操作
幸書房 2009
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Practical aspects of bioreactor application in mass propagation (共著)
Liquid Culture Systems for in vitro Plant Propagation, Springer Verlag 2005
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Bioengineering aspects of bioreactor application in plant propagation(共著)
Plant Tissue Culture Engineering. (Focus on Biotechnology, Vol. 6), Springer Verlag 2005
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Practical aspects of bioreactor application in mass propagation (jointly worked)
Liquid Culture Systems for in vitro Plant Propagation, Springer Verlag 2005
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Bioengineering aspects of bioreactor application in plant propagation (jointly worked)
Plant Tissue Culture Engineering. (Focus on Biotechnology, Vol. 6), Springer Verlag 2005
more...
Lectures and oral presentations (153):
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The signal peptide of Prx34, Physcomitrium patens derived peroxidase, functioning in Escherichia coli
(2024)
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Recombinant peroxidase from Physcomitrium patens strongly responds to luminol and forms polymer.
(2024)
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Production of moss-derived peroxidase Prx34 by TPX film culture
(2024)
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Release condition and function of peroxidase (Prx34) in Physcomitrium patens
(IAPB 2023, The 15th International Association For Plant Biotechnology Congress 2023)
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Highly Active, PH- And Heat-Tolerate Peroxidase (Prx34) Derived From Moss, Physcomitrium Patens, Is Produced In Soluble Form In Escherichia Coli
(IAPB2023, The 15th International Association For Plant Biotechnology Congress 2023)
more...
Works (2):
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コケの分子生物学(特に他微生物との相互作用)に関する共同研究
1999 -
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Joint Research on molecular biology of moss
1999 -
Education (2):
- - 1983 University of Tsukuba
- - 1983 University of Tsukuba
Professional career (2):
- (BLANK) (University of Tsukuba)
- (BLANK) (University of Tsukuba)
Work history (1):
- 2010 - Dept Biotech. Sci., Kinki Univ. professor
Committee career (7):
Awards (3):
- 2007 - 日本生物環境工学会西日本支部支部功績賞
- 2006 - 日本植物工場学会学術会長賞
- 1993 - 日本植物工場学会奨励賞
Association Membership(s) (5):
THE JAPANESE SOCIETY OF PLANT PHYSIOLOGISTS
, 日本植物細胞分子生物学会(旧:日本植物組織培養学会)
, 農業情報学会
, JAPANESE SOCIETY OF AGRICULTURAL, BIOLOGICAL AND ENVIRONMENTAL ENGINEERS AND SCIENTISTS
, 農芸化学会
