Rchr
J-GLOBAL ID:200901052605740128
Update date: Apr. 17, 2024
Oda Shinobu
オダ シノブ | Oda Shinobu
Homepage URL (1):
http://s-oda.kit.labos.ac/
Research field (5):
Applied microbiology
, Applied microbiology
, Pharmaceuticals - chemistry and drug development
, Hygiene and public health (laboratory)
, Applied microbiology
Research keywords (5):
Screening of valuable microorganisms
, Biofilm
, Bioreactor
, Fermentation technology
, Biocatalysis
Research theme for competitive and other funds (3):
- 2016 - 2019 Physiological, biochemical and engineering study of immobilized actinomycetes, bacteria, and yeasts
- 2013 - 2016 Diversity of secondary metabolites produced by fungi growing on an interface
- 2010 - 2012 Research for the functional control of fungal cells located on
Papers (45):
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Shinobu Oda, Ayami Tanikawa. A new plate-hanging method for biofilm quantification and its application to evaluate the role of surface hydrophobicity. Journal of Microbiological Methods. 2022. 203. 106608-106608
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Kyoko Sugimoto, Shinobu Oda. Efficient production of fungal spores by the combination of reduction of nitrogen source content and embedding of hydrophobic polymer in an agar plate. Journal of Bioscience and Bioengineering. 2021. 131. 4. 390-395
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Shinobu Oda. Microbial transformation of water-insoluble substrates by two types of novel interface bioprocesses, tacky liquid-liquid interface bioreactor and non-aqueous sporular bioconversion system. World Journal of Microbiology and Biotechnology. 2020. 36. 4
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Shinobu Oda, Mami Nakanishi, Asako Ishikawa, Toshiki Baba. Modified liquid-liquid interface cultivation system with floating microspheres and binder micro-pieces for slow-growing or unicellular microorganisms: Application to interfacial bioconversions with an actinomycete and yeasts. Process Biochemistry. 2019. 80. 1-8
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Shinobu Oda, Ryosuke Kido. Acceleration of fungal spore production by embedding a hydrophobic polymer net in a nutrient agar plate. Fungal Biology. 2019. 123. 2. 103-108
more...
MISC (15):
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Shinobu Oda. Production of functional aroma compounds with interface bioprocesses. 2020. 16. 3. 43-48
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Shinobu Oda. Screening of pharmaceutical materials with an interface bioprocess. 2019. 64. 7. 36-42
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ODA Shinobu. Relationship between interfacial hydrophobicity and hydroxylation activity of fungal cells located on an organic-aqueous interface. Fermentation Technology. 2015. 2015. 1. 1000e122
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ODA Shinobu. Microbial production of useful chemicals in an interface bioreactor. 2012. 70. 2. 124-127
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Novel bioconversion and fermentation systems with fungi. 2010. 61. 6. 409-417
more...
Books (6):
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発酵化粧品の開発と市場
シーエムシー出版 2023
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バイオリアクターのスケールアップと物質生産事例集
技術情報協会 2021
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Biofilm formation mechanism, evaluation and measures
2020
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天然系抗菌・防カビ剤の開発と応用
(株)シーエムシー出版 2019
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第2版 有機合成実験法ハンドブック
丸善出版 2015
more...
Lectures and oral presentations (66):
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Production of biologically active sclerotiorin in an interface fermentor
(2024)
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Application of interfacial sporular transformation system to regioselective microbial oxidation
(2024)
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Bioconversion system with fungal spores immobilizaed on an organic-aqueous interface
(2023)
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Prwoduction of valuable secondary metabolites with an interface fermentor attached with an adsorption unit
(2022)
-
界面バイオプロセスによる橙黄色色素の高生産
(第74回日本生物工学会大会 2022)
more...
Education (3):
- - 1996 Tottori University Graduate School, Division of Agricltural Sciences
- - 1986 Kyushu University Faculty of Agriculture
- - 1984 Yamaguchi University Faculty of Agriculture
Professional career (1):
Work history (3):
- 2003/07 - 2007/12 Bioresource Laboratories, Mercian Corporation
- 2002/04 - 2003/06 Analytical Center, Kansai Paint Co., Ltd.
- 1986/04 - 2002/06 Technical Research Laboratory, Kansai Paint Co., Ltd.
Association Membership(s) (7):
日本防菌防黴学会
, 日本油化学会
, 生体触媒化学研究会
, 酵素工学研究会
, 日本放線菌学会
, 日本生物工学会
, 日本農芸化学会
