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J-GLOBAL ID:202201019438275677   Update date: Nov. 05, 2024

Kosakamoto Hina

コサカモト ヒナ | Kosakamoto Hina
Affiliation and department:
Job title: Postdoctoral researcher
Research field  (2): Genetics ,  Molecular biology
Research keywords  (6): Metabolism ,  Aging ,  Physiology ,  Drosophila melanogaster ,  Amino acid nutrition ,  Molecular biology
Research theme for competitive and other funds  (3):
  • 2022 - 2025 内在及び人工アミノ酸センサーの同定と開発
  • 2022 - 2024 Molecular mechanisms of tyrosine sensing for adaptation to protein scarcity
  • 2020 - 2022 組織特異的な新規アミノ酸センシング機構の解明
Papers (19):
  • Hina Kosakamoto, Chisako Sakuma, Rina Okada, Masayuki Miura, Fumiaki Obata. Context-dependent impact of the dietary non-essential amino acid tyrosine on Drosophila physiology and longevity. Science Advances. 2024. 10. 35
  • Hina Kosakamoto, Hide Aikawa, Souto Kitazawa, Chisako Sakuma, Rina Okada, Masayuki Miura, Fumiaki Obata. Dietary zinc restriction mimics protein restriction and extends lifespan in Drosophila. 2024
  • Yuka Fujita, Hina Kosakamoto, Fumiaki Obata. Microbiota-derived acetylcholine can promote gut motility in Drosophila melanogaster. Philosophical Transactions of the Royal Society B: Biological Sciences. 2024
  • Hina Kosakamoto, Masayuki Miura, Fumiaki Obata. Epidermal tyrosine catabolism is crucial for metabolic homeostasis and survival against high-protein diets in Drosophila. Development. 2024. 151. 1
  • Hina Kosakamoto, Fumiaki Obata, Junpei Kuraishi, Hide Aikawa, Rina Okada, Joshua N. Johnstone, Taro Onuma, Matthew D. W. Piper, Masayuki Miura. Early-adult methionine restriction reduces methionine sulfoxide and extends lifespan in Drosophila. Nature Communications. 2023. 14. 1
more...
Books (3):
  • 栄養分子と生体の相互作用 食理学
    2024 ISBN:9784758125857
  • 月刊誌『科学』モデル動物で解明する寿命とアミノ酸摂取の関係
    岩波書店 2024
  • 実験医学2020年12月号 腸内細菌が増悪するネクローシス性全身炎症
    羊土社 2020 ISBN:9784758125383
Lectures and oral presentations  (23):
  • Nutritional memory of developmental diet mediated by storage protein Lsp2
    (AusFly meeting 2024 2024)
  • Developmental diet shapes lifespan via modulation of protein storage
    (16th Japan Drosophila Research Conference 2024)
  • Early-life amino acid sensing for lifespan regulation in Drosophila
    (Dietology Symposium 2024)
  • The essential function of a nonessential amino acid as an indicator of protein satiety
    (International Day of Women and Girls in Science Symposium 2024)
  • Regulatory mechanisms of nutritional signaling by sensing non-essential amino acid tyrosine
    (2023)
more...
Education (3):
  • 2019 - 2022 The University of Tokyo Graduate School of Pharmaceutical Sciences Department of Pharmaceutical Sciences
  • 2017 - 2019 The University of Tokyo Graduate School of Pharmaceutical Sciences Department of Pharmaceutical Sciences
  • 2013 - 2017 The University of Tokyo Faculty of Pharmaceutical Sciences Department of Pharmaceutical Sciences
Professional career (1):
  • Doctor of Pharmaceutical Sciences (The University of Tokyo)
Work history (1):
  • 2022/04 - 現在 RIKEN Center for Biosystems Dynamics Research Special Postdoctoral Researcher
Awards (3):
  • 2023/03 - RIKEN BAIHO Award
  • 2022/09 - Daigoro Moriwaki Award Grand Prize Sensing of the non-essential amino acid tyrosine governs the response to dietary protein intake in Drosophila
  • 2022/06 - Japanese Society of Developmental Biologists Best poster award
Association Membership(s) (2):
発生生物学会 ,  分子生物学会
※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

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