Researchers

Research Activities

Research Areas

• Life sciences, Applied microbiology
• Life sciences, Applied microbiology

Research Interests

乳酸菌, ビフィズス菌, 酢酸菌, 納豆菌, 細胞外膜小胞, アポトーシス, 免疫賦活作用

Published Papers

1. Activation of the TLR2 signaling pathway by GAPDH from bacterial strain RD055328.
   Atsushi Kurata; Shimpei Takeuchi; Ryo Fujiwara; Kento Tamura; Tomoya Imai; Shino Yamasaki-Yashiki; Hiroki Onuma; Yasuhisa Fukuta; Norifumi Shirasaka; Koichi Uegaki
   Bioscience, biotechnology, and biochemistry  11, May. 2023  , Refereed
2. Enhancement of IgA production by membrane vesicles derived from Bifidobacterium longum subsp. infantis.
   Atsushi Kurata; Shino Yamasaki-Yashiki; Tomoya Imai; Ayano Miyazaki; Keito Watanabe; Koichi Uegaki
   Bioscience, biotechnology, and biochemistry  87  (1)  , 119-128, 21, Dec. 2022  , Refereed
3. 乳酸菌が放出する細胞外膜小胞の特性
   倉田淳志
   日本乳酸菌学会誌  33  (3)  , 179-185, Nov. 2022 

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Books etc

1. 食品・バイオにおける最新の酵素応用 , 倉田淳志; 岸本憲明 , イオン液体と微生物・酵素の利用技術の開発 , イオン液体と微生物・酵素の利用技術の開発 , Jul. 2019
2. Deep-Sea: Marine Biology, Geology and Human Impact , Atsushi Kurata; Tohru Kobayashi; Koki Horikoshi , Protein degradation at deep-sea sediment: collagenolytic enzymes produced from a novel marine bacterium. , Protein degradation at deep-sea sediment: collagenolytic enzymes produced from a novel marine bacterium. , Oct. 2012
3. Ionic Liquid/Book 2, Biotransformation of underutilized natural resource to valuable compounds in ionic liquid: Enzymatic synthesis of caffeic acid phenethyl ester analogues from immature coffee beans , 倉田 淳志; 岸本 憲明; 藤田 藤樹夫 , Biotransformation of Underutilized Natural Resource to Valuable Compounds in Ionic Liquid: Enzymatic Synthesis of Caffeic Acid Phenethyl Ester Analogues from Immature Coffee Beans , Biotransformation of Underutilized Natural Resource to Valuable Compounds in Ionic Liquid: Enzymatic Synthesis of Caffeic Acid Phenethyl Ester Analogues from Immature Coffee Beans , Intech, Croatia , Jul. 2011

Conference Activities & Talks

1. 腸内環境の恒常性維持における乳酸菌やビフィズス菌が放出する細胞外膜 小胞の役割 , 倉田淳志 , 18, Jul. 2023
2. Bifidobacterium dentiumが生産するMVsの特性 , 前田 瑞歩; 小西 莉子; 入江 健太; 岡田 美玖; 福田 隆志; 川本 純; 今井 友也; 栗原 達夫; 倉田 淳志; 上垣 浩一 , 第74回日本生物工学会大会 , 18, Oct. 2022
3. 乳酸菌やビフィズス菌由来の新たな発酵産物の特性解明とその応用 , 倉田淳志 , 近畿大学コア研究 健康長寿・未病効果が期待できる新たな 機能性食品の開発を目指した実践研究 令和3年度 研究成果報告会 同時開催:ACTプロジェクト報告会 , 8, Aug. 2022

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MISC

1. Revealing the mechanism of immunity activation by extracellular vesicles from lactobacillus: Leading to deep understanding of the bacteria in our daily food and insights into better intestinal environment , Sep. 2022
2. 乳酸菌が細胞外膜小胞を介して免疫を活性化する仕組みを解明 日々摂取する細菌の全容解明や、腸内環境改善への応用に期待 , Aug. 2022
3. Characterization of membrane vesicles produced by Lactobacillus sp. RD055328 , 竹内慎平; 安井萌香; 田村健人; 倉田淳志; 山崎思乃; 今井友也; 上垣浩一 , 日本農芸化学会大会講演要旨集(Web) , 2022 , 2022

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Patents

1. Synthesis method of quinate diester and qunate diester analog , 岸本 憲明, 竹本 慎太郎, 塩見 成哉, 森田 裕子, 倉田 淳志, 岩井 和也, 成田 優作
2. 新規なコラーゲン分解酵素とその利用 , 倉田 淳志, 小林 徹, 掘越

Research Grants & Projects

1. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (C), Elucidation o the physiological functions of membrane vesicles produced by fermented food-derived bacteria and their application , Kindai University
2. イオン液体耐性菌の耐性機構の解明と新奇微生物プラットフォームの開発
3. イオン液体耐性細菌のゲノム解読と耐性機構の解明、有用酵素の開発