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J-GLOBAL ID:201801003170904980   Update date: Mar. 27, 2025

Oda Arisa

Oda Arisa
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Affiliation and department:
The University of Tokyo

About The University of Tokyo


Research field  (1): Cell biology
Research theme for competitive and other funds  (6):
  • 2023 - 2026 閉塞系での培養による環境悪化への酵母の適応メカニズムの解析
  • 2019 - 2022 酵母のストレス応答における新規な細胞間情報伝達物質の特定とその増殖への影響の検討
  • 2019 - 2020 細胞間コミュニケーションを介した多細胞応答としての飢餓ストレス耐性の獲得
  • 2016 - 2019 Macro level cellular adaptation by lncRNA mediated gene regulation
  • 2017 - 2018 多種ストレス応答時にシグナル経路の個別性・普遍性を生みだすネットワーク構造の解析
Show all
Papers (22):
  • Arisa H. Oda, Taishi Yasukawa, Miki Tamura, Ayumu Sano, Naohisa Masuo, Kunihiro Ohta. Advantages of Mutant Generation by Genome Rearrangements of Non-Conventional Yeast via Direct Nuclease Transfection. Genes to Cells. 2025. 30. 2. e70010
  • Yuichi Morozumi, Fontip Mahayot, Yukiko Nakase, Jia Xin Soong, Sayaka Yamawaki, Fajar Sofyantoro, Yuki Imabata, Arisa H. Oda, Miki Tamura, Shunsuke Kofuji, et al. Rapamycin-sensitive mechanisms confine the growth of fission yeast below the temperatures detrimental to cell physiology. iScience. 2024. 27. 1. 108777-108777
  • Yen Teng Tai, Tomoyuki Fukuda, Yuichi Morozumi, Hayato Hirai, Arisa H Oda, Yoshiaki Kamada, Yutaka Akikusa, Tomotake Kanki, Kunihiro Ohta, Kazuhiro Shiozaki. Fission Yeast TORC1 Promotes Cell Proliferation through Sfp1, a Transcription Factor Involved in Ribosome Biogenesis. Molecular and cellular biology. 2023. 1-18
  • Yuri Kawashima, Arisa H Oda, Yasushi Hikida, Kunihiro Ohta. Chromosome-dependent aneuploid formation in Spo11-less meiosis. Genes to cells : devoted to molecular & cellular mechanisms. 2022. 28. 2. 129-148
  • Arisa H. Oda, Miki Tamura, Kunihiko Kaneko, Kunihiro Ohta, Tetsuhiro S. Hatakeyama. Autotoxin-mediated latecomer killing in yeast communities. PLOS Biology. 2022. 20. 11. e3001844-e3001844
more...
MISC (22):
  • Arisa H. ODA, Kunihiro OHTA, Kunihiko KANEKO, Tetsuhiro, S, HATAKEYAMA. Growth Inhibition by Autotoxins in Yeast during Glucose Depletion: Discovery of Latecomer Killing Phenomenon. 2024. 119. 11. 570-576
  • 原田 一貴, 福田 裕子, 小田 有沙, 近藤 興, 山元 孝佳, 道上 達男. 生命科学・医学を学ぶ大学生のためのウシガエルとウチダザリガニを教材とした麻酔および解剖方法の開発. 生物教育. 2024. 65. 3. 144-150
  • Tetsuhiro S. HATAKEYAMA, Arisa H. ODA. Latecomer Killing in Yeast Populations. Seibutsu Butsuri. 2023. 63. 6. 316-319
  • 太田邦史、小田有沙. 多部位ゲノム再編成系 TAQing システムによる生物機能の改良. ゲノム編集技術を応用した製品開発とその実用化 ~研究開発動向・課題解決策・技術予測と市場展望~. 2021
  • 小田有沙, 太田邦史. lncRNAの機能-クロマチンへの制御機能. 医学のあゆみ. 2019. 269. 4. 283-287
more...
Patents (2):
  • 糖飢餓条件下での微生物の増殖を抑制する物質群
  • 空間的な近さの概念を用いた生 体分子データの3次元構造の再構成方法
Books (1):
  • 基礎生命科学実験 = Introductory course in life science experiments
    東京大学出版会 2021 ISBN:9784130622271
Professional career (1):
  • 博士(理学)
Awards (2):
  • 2019/04 - 大隅基礎科学創成財団 酵母コンソーシアムフェロー
  • 2018/10 - 生命科学系フロンティアミーティング グッドアイデア賞
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