Rchr
J-GLOBAL ID:200901087731201907
Update date: Feb. 01, 2024
Takashi Inaoka
イナオカ タカシ | Takashi Inaoka
Affiliation and department:
Homepage URL (1):
http://www.naro.affrc.go.jp/nfri-neo/introduction/chart/0602/index.html
Research field (1):
Applied microbiology
Research keywords (5):
injured bacterial cells
, stress response
, Drug-resistance mutation
, secondary metabolism
, 枯草菌
Research theme for competitive and other funds (4):
- 2021 - 2024 枯草菌のグルコース6リン酸デヒドロゲナーゼ欠損によって生じる増殖不全の解析
- 2018 - 2021 Impact of Activation of the Neotrehalosadiamine/Kanosamine Biosynthetic Pathway on the Metabolism of Bacillus subtilis
- 2010 - 2012 Search, identification and investigation of the useful mutations for improvement of the function for secretion or metabolism in Bacillus subtilis
- 2008 - 2009 Investigation of the role of an autoinducer neotrehalosadiamine in Bacillus subtilis.
Papers (42):
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Satoru Tomita, Takashi Inaoka, Akihito Endo, Sanae Okada. Raw material-dependent changes in bacterial and compositional profiles are involved in insufficient pH decrease in natural lactic fermentation of Brassica rapa leaves. Food Chemistry. 2024. 437. 137934-137934
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Koji Ishiya, Hideki Kosaka, Takashi Inaoka, Keitarou Kimura, Nobutaka Nakashima. Comparative Genome Analysis of Three Komagataeibacter Strains Used for Practical Production of Nata-de-Coco. Frontiers in Microbiology. 2022. 12
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Natsumi Saito, Huong Minh Nguyen, Takashi Inaoka. Impact of Activation of the Neotrehalosadiamine/Kanosamine Biosynthetic Pathway on the Metabolism of Bacillus subtilis. Journal of Bacteriology. 2021. 203. 9
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Huyen Thi Minh Nguyen, Genki Akanuma, Tu Thi Minh Hoa, Yuji Nakai, Keitarou Kimura, Kazutaka Yamamoto, Takashi Inaoka. Ribosome Reconstruction during Recovery from High-Hydrostatic-Pressure-Induced Injury in Bacillus subtilis. Applied and environmental microbiology. 2019. 86. 1
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Yoshiko Nakaura, Kazuya Morimatsu, Takashi Inaoka, Kazutaka Yamamoto. Listeria monocytogenes cells injured by high hydrostatic pressure and their recovery in nutrient-rich or -free medium during cold storage. HIGH PRESSURE RESEARCH. 2019. 39. 2. 324-333
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MISC (75):
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山本和貴, 廣瀬美佳, 稲岡隆史, 川崎晋, 中浦嘉子. Ficoll(ショ糖-エピクロロヒドリン共重合体)を単一炭素源とした大腸菌の増殖. 応用糖質科学. 2022. 12. 3
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Kazutaka Yamamoto, Xue Zhang, Takashi Inaoka, Kazuya Morimatsu, Keitarou Kimura, Yoshiko Nakaura. Bacterial Injury Induced by High Hydrostatic Pressure. Food Engineering Reviews. 2021. 13. 3. 442-453
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森松和也, 高橋憲子, 中浦嘉子, 稲岡隆史, 山本和貴. 中温中高圧処理による好熱性好酸性菌芽胞の殺菌におけるpHの影響. 農業食料工学会年次大会講演要旨. 2019. 2019
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森松和也, 高橋憲子, 中浦嘉子, 稲岡隆史, 山本和貴. 熱処理または高圧処理による損傷大腸菌の混釈培養検出. 日本防菌防黴学会年次大会要旨集. 2019. 46th
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Kazutaka Yamamoto, Keitarou Kimura, Takashi Inaoka, Kazuya Morimatsu, Yoshiko Nakaura. Recovery of Escherichia coli injured by high hydrostatic pressure treatment. 10th International conference on high pressure bioscience and biotechnology. 2018. 59-59
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Education (2):
- - 1999 Kansai University
- - 1994 Kansai University Faculty of Engineering Department of Biotechnology
Professional career (1):
Work history (4):
- 2021/10 - 現在 National Agriculture and Food Research Organization
- 2016/04 - 2022/09 National Agriculture and Food Research Organization
- 2007/04 - 2016/03 食品総合研究所 主任研究員
- 1999/04 - 2007/03 食品総合研究所 特別研究員
Awards (1):
- 2010/03 - The Japan Society for Bioscience, Biotechnology, and Agrochemistry The Japan Bioscience, Biotechnology and Agrochemistry Society Award for the Encouragement of Young Scientists
Association Membership(s) (3):
日本分子生物学会
, 日本農芸化学会
, 極限環境生物学会
