Rchr
J-GLOBAL ID:202201016399276572   Update date: Oct. 27, 2023

Yamauchi Akari

ヤマウチ アカリ | Yamauchi Akari
Affiliation and department:
Hokkaido University Institute of Low Temperature Science

About Hokkaido University Institute of Low Temperature Science


Research field  (1): Molecular biology
Research theme for competitive and other funds  (1):
  • 2022 - 2024 冬眠する哺乳類の高濃度ビタミンE蓄積・全身輸送機構の解明
Papers (9):
  • Yue Yang, Akari Yamauchi, Sakae Tsuda, Masahiro Kuramochi, Kazuhiro Mio, Yuji C. Sasaki, Tatsuya Arai. The ice-binding site of antifreeze protein irreversibly binds to cell surface for its hypothermic protective function. Biochemical and Biophysical Research Communications. 2023
  • Tatsuya Arai, Akari Yamauchi, Yue Yang, Shiv Mohan Singh, Yuji C. Sasaki, Sakae Tsuda. Adsorption of ice-binding proteins onto whole ice crystal surfaces does not necessarily confer a high thermal hysteresis activity. Scientific Reports. 2022. 12. 1. 15443-15443
  • Akari Yamauchi, Ai Miura, Hidemasa Kondo, Tatsuya Arai, Yuji C. Sasaki, Sakae Tsuda. Subzero Nonfreezing Hypothermia with Insect Antifreeze Protein Dramatically Improves Survival Rate of Mammalian Cells. International Journal of Molecular Sciences. 2021. 22. 23
  • Tatsuya Arai, Akari Yamauchi, Ai Miura, Hidemasa Kondo, Yoshiyuki Nishimiya, Yuji C. Sasaki, Sakae Tsuda. Discovery of Hyperactive Antifreeze Protein from Phylogenetically Distant Beetles Questions Its Evolutionary Origin. International Journal of Molecular Sciences. 2021. 22. 7. 3637-3637
  • Akari Yamauchi, Tatsuya Arai, Hidemasa Kondo, Yuji C. Sasaki, Sakae Tsuda. An Ice-Binding Protein from an Antarctic Ascomycete Is Fine-Tuned to Bind to Specific Water Molecules Located in the Ice Prism Planes. Biomolecules. 2020. 10. 5. 759-759
more...
MISC (5):
  • The ice-binding and cell-protection function of insect-derived antifreeze protein. 2023. 81. 37-49
  • The mechanism of cold adaptation of mammalian hibernators and poikilotherm. 2023. 38. 4. 6-10
  • Akari Yamauchi, Sakae Tsuda. Discovery of hyperactive antifreeze protein from a stag beetle Dorcus hopei binodulosus. The nature & insects. 2021
  • 倉持昌弘, 高梨千晶, 山内彩加林, 戸井基道, 三尾和弘, 津田 栄, 佐々木裕次. 「線虫C. エレガンスを用いた不凍タンパク質のin vivo解析」. 低温生物工学会誌. 2019. 65. 1. 23-26
  • Akari Yamauchi, Sakae Tsuda. The mechanism of cell protective function of Antifreeze proteins. The cell. 2018
Lectures and oral presentations  (12):
  • 冬眠哺乳類シリアンハムスターの脂質代謝関連組織における脂質プロファイリング
    (第5回冬眠休眠研究会 2023)
  • Insect-derived antifreeze protein allows mammalian cells to survive at -5°C
    (2022)
  • 日本産越冬性昆虫オオクワガタ由来不凍タンパク質の発見
    (第67回低温生物工学会 2022)
  • The structure-function relationship of ice-binding proteins from cold-adapted organisms
    (IBP International seminar series 2021-2022 2022)
  • 日本産オオクワガタ由来不凍タンパク質の発見 ~昆虫不凍タンパク質の起源を探る~
    (第81回 日本昆虫学会 2021)
more...
Education (2):
  • 2017 - 2021 北海道大学 大学院 生命科学院
  • 2013 - 2017 Hokkaido University School of Fisheries Sciences
Professional career (1):
  • Life Science, Ph.D (Hokkaido University)
Work history (2):
  • 2021/12 - 現在 北海道大学 低温科学研究所 助教
  • 2021/10 - 2021/11 北海道大学 低温科学研究所 学術研究員
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