Researchers

Education and Career

Education

• 1988/04 - 1992/03 , Osaka University, School of Science,
• 1992/04 - 1994/03 , Osaka University, Graduate School of Science,
• 1994/04 - 1998/03 , Osaka University, Graduate School of Medicine,

Academic & Professional Experience

• 2017 - Today , Kindai University Faculty of Agriculture 教授
• 2007 - 2017 , Osaka University Institute for Protein Research 准教授
• 2004 - 2007 , Osaka University Institute for Protein Research 助教
• 2001 - 2004 , Hiroshima University RIRBM 助手
• 2000 - 2001 , 株）WDB 派遣研究員
• 1998 - 2000 , University of Chicago Radiation Oncology HFSP Long-term Fellow
• 1998 - 1998 , National Institute of Genetics JSPS Research fellow PD
• 1996 - 1998 , Osaka University Graduate School of Medicine JSPS research fellow DC

Research Activities

Research Areas

• Life sciences, Genetics
• Life sciences, Molecular biology

Published Papers

1. Human AAA+ ATPase FIGNL1 suppresses RAD51-mediated ultra-fine bridge formation
   Kenichiro Matsuzaki Akira Shinohara Miki Shinohara
   Nucleic Acids Research  gkae263  Apr. 2024  , Refereed
2. Meiotic DNA double‐strand break‐independent role of protein phosphatase 4 in Hop1 assembly to promote meiotic chromosome axis formation in budding yeast
   Ke Li; Kei Yoshimura; Miki Shinohara
   Genes to Cells  28  (8)  , 595-614, 27, May. 2023  , Refereed
3. The Msh5 complex shows homeostatic localization in response to DNA double-strand breaks in yeast meiosis
   Miki Shinohara; Akira Shinohara
   Frontiers in Cell and Developmental Biology  11  , 1170689-, 18, May. 2023  , Refereed

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Books etc

1. 細胞周期フロンティア , 佐方功幸; 稲垣昌樹; 岸本健雄 , 共立出版 , Nov. 2010

Conference Activities & Talks

1. Regulation of Mre11 nuclease activity through Rad50 and its function in DSB repair and meiotic crossover formation , Miki Shinohara , IMB Seminar in IMB Seminar in IMB, Academia Sinica, Taipei , 19, Mar. 2024
2. Mre11 exonuclease activity is critical for the asymmetric releasing of Spo11-oligo DNA at meiotic programmed DSB ends , Miki ShinoharaTomoki; TamaiRyusei Ojiri , 第46回日本分子生物学会年会シンポジウム , 29, Nov. 2023
3. Molecular Mechanisms of Coordination of DSB repair pathway choice and the Initiation of DSB end resection , Miki ShinoharaTomoki TamaiKenta; SasadaRyusei OjiriKenichiro MatsuzakiPetr CejkaKatsunori Sugimoto , 第96回日本生化学会大会 シンポジウム , 31, Oct. 2023

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MISC

1. 減数分裂期染色体因子Zip3のC末端領域の新規機能解析 , 吉村慧; 関温子; 林原加代子; 篠原美紀; 篠原美紀; 篠原美紀 , 日本遺伝学会大会プログラム・予稿集 , 94th (CD-ROM) , 2022
2. 両方向的DSB末端単鎖化のRad50による制御機構の解析 , 玉井智貴; SUGIMOTO Katsunori; CEJKA Petr; 篠原美紀; 篠原美紀 , 日本遺伝学会大会プログラム・予稿集 , 94th (CD-ROM) , 2022
3. アセトアルデヒドによるDNA損傷とその修復経路の解析 , 熊取谷健志; 篠原美紀; 篠原美紀; 松嵜健一郎 , 日本遺伝学会大会プログラム・予稿集 , 94th (CD-ROM) , 2022

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Awards & Honors

1. Nov. 2023, 日本放射線影響学会, 女性研究者顕彰 岩崎民子賞
2. Oct. 2022, The Genetics Society of Japan, Best Paper Award 2022
3. Jul. 2015, 大阪大学, 総長顕彰

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Research Grants & Projects

1. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Challenging Research (Exploratory), Identification of the minimalized essential unit for genetic inheritance of artificial mini-chromosomes , Kindai University
2. 公益財団法人 武田科学振興財団, 2020年度 武田科学振興財団生命科学研究助成, 分裂期染色体特異的なDNA損傷修復抑制と自然免疫応答の連携メカニズムの解明 , 近畿大学
3. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research on Innovative Areas (Research in a proposed research area), Control of chromosome functions by axis-loop structure (chromosome 3D) during meiosis , Osaka University

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