TAMARU TERUYA

タマルテルヤ | TAMARU TERUYA

Affiliation and department：

Research field (7)： Physiology , Functional biochemistry , Animals: biochemistry, physiology, behavioral science , Molecular biology , Cell biology , Nervous system function , Neuroscience - general

Research keywords (8)：体内時計 , circadian clock phosphorylation entrainment synchronization , 時計蛋白質 , タンパク質修飾 , ストレス応答 , 適応応答 , 細胞内シグナリングのライブセルイメージング , 時差ボケ薬

Research theme for competitive and other funds (14)：

2019 - 2022 環境ストレス適応の基盤となる細胞時計の同期振動を駆動する蛋白質コード
2015 - 2018 Time-dependent adaptation system coordinated by protein modification/binding oscillator
2015 - 2016 静磁場応答性クロノシグナルを介する概日適応システムの制御
2011 - 2013 発癌プロセスにおける概日周期性蛋白質修飾の役割
2011 - 2013 Integral control of circadian system by circadian protein phosphorylating oscillator

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Papers (25)：

Chantal Alkhoury, Nathaniel F Henneman, Volodymyr Petrenko, Yui Shibayama, Arianna Segaloni, Alexis Gadault, Ivan Nemazanyy, Edouard Le Guillou, Amare Desalegn Wolide, Konstantina Antoniadou, et al. Class 3 PI3K coactivates the circadian clock to promote rhythmic de novo purine synthesis. Nature cell biology. 2023. 25. 7. 975-988
Yoichi Minami, Tomoko Yoshikawa, Mamoru Nagano, Satoshi Koinuma, Tadamitsu Morimoto, Atsuko Fujioka, Keiichi Furukawa, Keisuke Ikegami, Atsuhiro Tatemizo, Kentaro Egawa, et al. Transgenic rats expressing dominant negative BMAL1 showed circadian clock amplitude reduction and rapid recovery from jet lag. The European journal of neuroscience. 2021. 53. 6. 1783-1793
Jun Hirayama, Yikelamu Alifu, Rin Hamabe, Sho Yamaguchi, Jun Tomita, Yusuke Maruyama, Yoichi Asaoka, Ken ichi Nakahama, Teruya Tamaru, Ken Takamatsu, et al. The clock components Period2, Cryptochrome1a, and Cryptochrome2a function in establishing light-dependent behavioral rhythms and/or total activity levels in zebrafish. Scientific Reports. 2019. 9. 1. 196-196
Tsuyoshi Oshima, Yoshimi Niwa, Keiko Kuwata, Ashutosh Srivastava, Tomoko Hyoda, Yoshiki Tsuchiya, Megumi Kumagai, Masato Tsuyuguchi, Teruya Tamaru, Akiko Sugiyama, et al. Cell-based screen identifies a new potent and highly selective CK2 inhibitor for modulation of circadian rhythms and cancer cell growth. Science Advances. 2019. 5. 1. eaau9060
Jun Hirayama, Yikelamu Alifu, Rin Hamabe, Sho Yamaguchi, Jun Tomita, Yusuke Maruyama, Yoichi Asaoka, Ken-ichi Nakahama, Teruya Tamaru, Ken Takamatsu, et al. The clock components Period2, Cryptochrome1a, and Cryptochrome2a are required for forming light-dependent behavioral rhythms and/or maintaining total activity levels in zebrafish. Scientific Reports. 2019. 9. 196

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MISC (107)：

田丸輝也, 重吉康史, 河村玄, 小澤岳昌, 吉種光, 清水貴美, 深田吉孝, 高松研. 時差障害の克服に向けた細胞時計同期振動メカニズムの解明. 第99回日本生理学会大会(シンポジウム)抄録. 2022
甲藤大智, 金理志, 山口優也, 間木重行, 田丸輝也, 内藤篤彦. 補腎剤による細胞保護作用の評価. 日本薬理学雑誌. 2021. 156. Supplement
田丸輝也, 吉種光, 河村玄気, 小澤岳昌, 深田吉孝. Acute BMAL1:CLOCK responses trigger various environments/stresses-triggered cellular clock synchronization. 2020. 26. 2
Genki Kawamura, Teruya Tamaru, Mitsuru Hattori, Ken Takamatsu, Takeaki Ozawa. Circadian BMAL1-HSF1- p53 interplay regulates UV-triggered clock synchronization to evoke stress protection. EBRS2019 (XVI EUROPEAN BIOLOGICAL RHYTHMS SOCIETY CONGRESS)(Lyon, France). 2019
Teruya Tamaru, Genki Kawamura, Hikari Yoshitane, Takeaki Ozawa, Yoshitaka Fukada, Ken Takamatsu. Initial protein events commonly pivotal for various environments/stresses-triggered cellular clock synchronization. EBRS2019 (XVI EUROPEAN BIOLOGICAL RHYTHMS SOCIETY CONGRESS) (Lyon, France). 2019

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Books (4)：

体内時計の同調・発振・出力機構を制御・統合する蛋白質修飾システム
東邦大学 2008
時計遺伝子の分子生物学;II. 時計遺伝子各論3. Bmal1遺伝子.
シュプリンガー・フェアラーク東京 2004
チロシンキナーゼの精製法-新生ラット脳からのCskの精製. 実験医学別冊, バイオマニュアルシリーズ, 7, 140-148.
羊土社 1994
MAPキナーゼの精製法. 実験医学別冊, バイオマニュアルシリーズ, 7, 132-139.
羊土社 1994

Education (1)：

- 1995 Osaka University

Professional career (1)：

博士(理学) (大阪大学)

Committee career (3)：

日本時間生物学会評議員
日本生理学会評議員
日本神経化学会評議員

Awards (4)：

2013/04 - 東邦大学学術優秀論文賞
2006 - Short-term fellowship of Human Frontier Science Program
2003 - 平成15年度日本神経化学会奨励賞
2002 - 平成14年度東邦医学会賞

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