Rchr
J-GLOBAL ID:201801014966187564
Update date: Sep. 12, 2024
Mochizuki Takahiro
モチヅキ タカヒロ | Mochizuki Takahiro
Affiliation and department:
Research field (2):
Cell biology
, Biophysics
Research keywords (5):
出芽酵母
, Cell Wall Integrity 経路
, 静水圧
, アミノ酸輸送体
, TORC2
Research theme for competitive and other funds (2):
- 2018 - 2019 細胞の圧力適応機構の解明 〜酵母を用いたアプローチ〜
- 2016 - 2018 A new regulatory mechanism of the yeast amino acid permease by phosphorylation
Papers (14):
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Satoshi Uemura, Takahiro Mochizuki, Yusuke Kato, Tetsuo Mioka, Riseko Watanabe, Mai Fuchita, Mao Yamada, Yoichi Noda, Takashi Moriguchi, Fumiyoshi Abe. Mtc6/Ehg2 is a novel endoplasmic reticulum-resident glycoprotein essential for high-pressure tolerance. Journal of biochemistry. 2024
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Takahiro Mochizuki, Toshiki Tanigawa, Seiya Shindo, Momoka Suematsu, Yuki Oguchi, Tetsuo Mioka, Yusuke Kato, Mina Fujiyama, Eri Hatano, Masashi Yamaguchi, et al. Activation of CWI pathway through high hydrostatic pressure, enhancing glycerol efflux via the aquaglyceroporin Fps1 in Saccharomyces cerevisiae. Molecular biology of the cell. 2023. mbcE23030086
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Ryoga Ishii, Ayu Fukui, Yuri Sakihama, Shoko Kitsukawa, Ayami Futami, Takahiro Mochizuki, Makoto Nagano, Jiro Toshima, Fumiyoshi Abe. Substrate-induced differential degradation and partitioning of the two tryptophan permeases Tat1 and Tat2 into eisosomes in Saccharomyces cerevisiae. Biochimica et biophysica acta. Biomembranes. 2022. 1864. 4. 183858-183858
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N Dobriyal, P Sagarika, A Shrivastava, A K Verma, Z Islam, P Gupta, T Mochizuki, F Abe, C Sahi. Over-expression of Caj1, a plasma membrane associated J-domain protein in Saccharomyces cerevisiae, stabilizes amino acid permeases. Biochimica et biophysica acta. Biomembranes. 2020. 1862. 11. 183435-183435
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Satoshi Uemura, Takahiro Mochizuki, Kengo Amemiya, Goyu Kurosaka, Miho Yazawa, Keiko Nakamoto, Yu Ishikawa, Shingo Izawa, Fumiyoshi Abe. Amino acid homeostatic control by TORC1 in Saccharomyces cerevisiae under high hydrostatic pressure. Journal of cell science. 2020. 133. 17
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MISC (9):
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加藤祐介, 黒坂豪祐, 望月貴博, 伊村咲希, 石田夏穂, 石井凌賀, 上村聡志, 阿部文快. 出芽酵母の新規小胞体タンパク質Ehg1は高水圧下でアミノ酸輸送体を制御する. 日本農芸化学会大会講演要旨集(Web). 2019. 2019
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上村聡志, 望月貴博, 渡辺理世子, 淵田真衣, 山田真緒, 野田陽一, 阿部文快. 出芽酵母の静水圧ストレス耐性に関連する機能未知遺伝子EHG2/MTC6の機能解析. 日本生化学会大会(Web). 2019. 92nd
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上村聡志, 雨宮賢吾, 望月貴博, 阿部文快. 出芽酵母の静水圧ストレス適応におけるEGO複合体-TOR複合体1シグナル経路の意義. 日本生化学会大会(Web). 2018. 91st
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石井凌賀, 天野香織, 荒牧真理, 野際佳奈, 上村聡志, 望月貴博, 阿部文快. Rsp5-Bul1複合体を介した酵母トリプトファン輸送体Tat2の分解. 日本農芸化学会大会講演要旨集(Web). 2017. 2017
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上村聡志, 望月貴博, 阿部文快. 出芽酵母を用いたヒト-芳香族アミノ酸輸送体(hMCT10/SLC16A10)の機能評価系の構築. 日本生化学会大会(Web). 2016. 89th
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Books (1):
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高圧による酵母トリプトファン輸送体Tat1の分解と膜タンパク質の品質管理
高圧バイオサイエンスとバイオテクノロジー 2015
Lectures and oral presentations (8):
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出芽酵母の圧力適応に重要なシグナル伝達経路の探索
(酵母遺伝学フォーラム第52回研究報告会 2019)
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出芽酵母の圧力適応に重要な細胞内シグナル伝達経路の探索
(日本農芸化学会2019年度大会 2019)
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Phosphorylation of the yeast tryptophan permease Tat1 mediates its ubiquitin-dependent degradation in response to high pressure.
(10th International Conference on High Pressure Bioscience and Biotechnology 2018)
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Exploration of high-pressure sensor proteins in the yeast <I>saccharomyces cerevisiae</I>
(10th International Conference on High Pressure Bioscience and Biotechnology 2018)
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出芽酵母における圧力適応機構の解明
(日本農芸化学会2018年度大会 2018)
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Education (3):
- 2013 - 2016 Aoyama Gakuin University
- 2011 - 2013 Aoyama Gakuin University Graduate School of Science and Engineering Department of Science and Engineering
- 2007 - 2011 Aoyama Gakuin University College of Science and Engineering Department of Chemistry and Biological Science
Professional career (1):
Work history (5):
- 2024/09 - 現在 Aoyama Gakuin University College of Science and Engineering Department of Chemistry and Biological Science
- 2022/04 - 2024/08 青山学院大学 理工学部 化学・生命科学科 博士研究員
- 2020/09 - 2022/03 Tohoku Medical and Pharmaceutical University
- 2017/04 - 2020/08 Aoyama Gakuin University Assistant Professor
- 2016/04 - 2017/03 College of Science and Engineering College of Science and Engineering Department of Chemistry and Biological Science Research Associate
Association Membership(s) (1):
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