Rchr
J-GLOBAL ID:201401065138489240   Update date: Feb. 01, 2024

NASUNO Ryo

NASUNO Ryo
Affiliation and department:
Job title: Assistant Professor
Research field  (4): Applied microbiology ,  Molecular biology ,  Applied biochemistry ,  Cell biology
Research keywords  (6): Yeast ,  Stress response ,  活性分子種 ,  Nitric oxide ,  Enzyme ,  Amino acid metabolism
Research theme for competitive and other funds  (13):
  • 2022 - 2025 酵母におけるニトロ化タンパク質還元酵素の同定と機能解析
  • 2019 - 2024 Integrated understanding of nitric oxide in yeasts and fungi and its application to microbial
  • 2019 - 2022 Elucidation of multifunctional proline metabolizing enzymes found in yeast and its application to improvement of cellular functions
  • 2019 - 2022 Understanding of reactive nitrogen species-dependent signal transduction in yeast by comprehensive and quantitative analysis methods
  • 2022 - ニトロ化タンパク質の脱ニトロ化・還元酵素の同定と機能解析
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Papers (27):
  • Seiya Shino, Ryo Nasuno, Hiroshi Takagi. S-glutathionylation of fructose-1,6-bisphosphate aldolase confers nitrosative stress tolerance on yeast cells via a metabolic switch. Free radical biology & medicine. 2022. 193. Pt 1. 319-329
  • Sayoko Oiki, Ryo Nasuno, Syun-Ichi Urayama, Hiroshi Takagi, Daisuke Hagiwara. Intracellular production of reactive oxygen species and a DAF-FM-related compound in Aspergillus fumigatus in response to antifungal agent exposure. Scientific reports. 2022. 12. 1. 13516-13516
  • Ryo Nasuno, Yuki Yoshikawa, Hiroshi Takagi. Acetaldehyde reacts with a fluorescent nitric oxide probe harboring an o-phenylenediamine structure that interferes with fluorometry. Free radical biology & medicine. 2022. 187. 29-37
  • Ryo Nasuno, Nozomi Iwai, Hiroshi Takagi. Development of a microtiter plate-based analysis method of nitric oxide dioxygenase activity. The Journal of general and applied microbiology. 2022. 68. 1. 38-41
  • Supapid Eknikom, Ryo Nasuno, Hiroshi Takagi. Molecular mechanism of ethanol fermentation inhibition via protein tyrosine nitration of pyruvate decarboxylase by reactive nitrogen species in yeast. Scientific reports. 2022. 12. 1. 4664-4664
more...
MISC (5):
  • Regulatory Mechanism of Nitric Oxide Synthesis and Its Physiological Function in Yeast : How to Use Nitric Oxide, Which Can Become both Medicine and Poison. 2017. 55. 9. 617-623
  • 西村明, 吉川雄樹, 那須野亮, 松永哲郎, 井田智章, 守田匡伸, 藤井重元, 高木博史, 赤池孝章. 酵母における活性イオウ分子種:システインパースルフィドの生理的役割の解明. 日本生化学会大会(Web). 2017. 90th
  • 西村明, 那須野亮, 松永哲郎, 井田智章, 笠松真吾, 守田匡伸, 藤井重元, 高木博史, 赤池孝章. 酵母における活性イオウ分子種:システインパースルフィドの産生とその生理的役割. 日本酸化ストレス学会学術集会プログラム・抄録集. 2016. 69th
  • Yuki Yoshikawa, Ryo Nasuno, Hiroshi Takagi. Regulatory mechanism and physiological role of the flavoprotein Tah18-dependent Nitric Oxide synthesis in yeast. YEAST. 2015. 32. S131-S132
  • Ryo Nasuno, Hiroshi Takagi. Nitric oxide-mediated antioxidative mechanism in yeast: The transcription factor Mac1-dependent activation of the superoxide dismutase Sod1. NITRIC OXIDE-BIOLOGY AND CHEMISTRY. 2014. 42. 134-135
Education (3):
  • 2010 - 2013 Nara Institute of Science and Technology Graduate School of Biological Sciences
  • 2008 - 2010 Nara Institute of Science and Technology Graduate School of Biological Sciences
  • 2003 - 2006 Showa University School of Pharmacy Division of Pharmacology
Professional career (1):
  • 博士 (奈良先端科学技術大学院大学)
Work history (8):
  • 2023/04 - 現在 Kobe University Engineering Biology Research Center Associate Professor
  • 2018/04 - 2023/03 Nara Institute of Science and Technology
  • 2017/04 - 2018/03 Cleveland Clinic Lerner Research Institute PostDoc
  • 2016/05 - 2018/03 Nara Institute of Science and Technology Graduate School of Biological Sciences
  • 2013/07 - 2016/04 Nara Institute of Science and Technology Graduate School of Biological Sciences
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Committee career (3):
  • 2020/06 - 現在 Frontiers in Microbiology editorial board, review editor
  • 2019/06 - 2021/05 第67回 日本生化学会 近畿支部例会 実行委員
  • 2016/07 - 2016/09 第14回 酵母国際会議 国内組織委員
Awards (3):
  • 2018/05 - 日本NO学会 第18回日本NO学会Young Investigator Awards優秀賞 酵母における銅代謝関連転写因子 Mac1 を介した NO による高温ストレス耐性機 構
  • 2017/07 - The Japanese Biochemical Society JB Award Structure-based molecular design for thermostabilization of N-acetyltransferase Mpr1 involved in a novel pathway of L-arginine synthesis in yeast
  • 2012/12 - 日本生化学会 鈴木紘一メモリアル賞 酵母の酸化ストレス耐性に関与するN-アセチルトランスフェラーゼMpr1の構造機能解析
Association Membership(s) (4):
THE MOLECULAR BIOLOGY SOCIETY OF JAPAN ,  酵母遺伝学フォーラム ,  JAPAN SOCIETY FOR BIOSCIENCE, BIOTECHNOLOGY, AND AGROCHEMISTRY ,  日本NO学会
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