Shinohara Miki

シノハラミキ | Shinohara Miki

Affiliation and department：
Job title： Full Professor
Other affiliations (1)：

Kindai University Agricultural Technology and Innovation Research Institute Full Professor

Research field (2)： Genetics , Molecular biology

Research theme for competitive and other funds (20)：

2019 - 2022 Identification of the minimalized essential unit for genetic inheritance of artificial mini-chromosomes
2020 - 2022 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
2015 - 2020 Control of chromosome functions by axis-loop structure (chromosome 3D) during meiosis
2019 - 2020 生殖細胞系列温度感受性における染色体-タンパク質高次構造体の機能
2016 - 2017 M期における特殊なDSB修復制御によるゲノム安定性維持機構の解明

Show all

Papers (57)：

Kenichiro Matsuzaki Akira Shinohara Miki Shinohara. Human AAA+ ATPase FIGNL1 suppresses RAD51-mediated ultra-fine bridge formation. Nucleic Acids Research. 2024. gkae263
Ke Li, Kei Yoshimura, Miki Shinohara. Meiotic DNA double-strand break-independent role of protein phosphatase 4 in Hop1 assembly to promote meiotic chromosome axis formation in budding yeast. Genes to Cells. 2023. 28. 8. 595-614
Miki Shinohara, Akira Shinohara. The Msh5 complex shows homeostatic localization in response to DNA double-strand breaks in yeast meiosis. Frontiers in Cell and Developmental Biology. 2023. 11. 1170689
Kenichiro Matsuzaki, Kenji Kumatoriya, Mizuki Tando, Takashi Kometani, Miki Shinohara. Polyphenols from persimmon fruit attenuate acetaldehyde-induced DNA double-strand breaks by scavenging acetaldehyde. Scientific Reports. 2022. 12. 1
Hanumanthu BD Prasada Rao, Takeshi Sato, Kiran Challa, Yurika Fujita, Miki Shinohara, Akira Shinohara. Phosphorylation of luminal region of the SUN-domain protein Mps3 promotes nuclear envelope localization during meiosis. eLife. 2021. 10

ｍore...

MISC (61)：

吉村慧, 関温子, 林原加代子, 篠原美紀, 篠原美紀, 篠原美紀. 減数分裂期染色体因子Zip3のC末端領域の新規機能解析. 日本遺伝学会大会プログラム・予稿集. 2022. 94th (CD-ROM)
玉井智貴, SUGIMOTO Katsunori, CEJKA Petr, 篠原美紀, 篠原美紀. 両方向的DSB末端単鎖化のRad50による制御機構の解析. 日本遺伝学会大会プログラム・予稿集. 2022. 94th (CD-ROM)
熊取谷健志, 篠原美紀, 篠原美紀, 松嵜健一郎. アセトアルデヒドによるDNA損傷とその修復経路の解析. 日本遺伝学会大会プログラム・予稿集. 2022. 94th (CD-ROM)
辻本怜, 篠原美紀. 細胞内エネルギー環境とDNA修復経路選択の解析. 日本遺伝学会大会プログラム・予稿集. 2022. 94th (CD-ROM)
Molecular Mechanisms to Protect or Rearrange Genetic Information, Causing by DNA Double-Strand Breaks : Yin and Yang of DNA Double-Strand Breaks. 2021. 59. 4. 168-175

ｍore...

Books (1)：

細胞周期フロンティア
共立出版 2010

Lectures and oral presentations (52)：

Regulation of Mre11 nuclease activity through Rad50 and its function in DSB repair and meiotic crossover formation
(IMB Seminar in IMB Seminar in IMB, Academia Sinica, Taipei 2024)
Mre11 exonuclease activity is critical for the asymmetric releasing of Spo11-oligo DNA at meiotic programmed DSB ends
(2023)
Molecular Mechanisms of Coordination of DSB repair pathway choice and the Initiation of DSB end resection
(2023)
Zip3 C末端領域の減数分裂期組換え制御における新規機能
細胞内エネルギー環境とDNA修復制御の関係

ｍore...

Education (3)：

1994 - 1998 Osaka University Graduate School of Medicine
1992 - 1994 Osaka University Graduate School of Science
1988 - 1992 Osaka University School of Science

Professional career (1)：

博士(医学) (大阪大学)

Work history (8)：

2017 - 現在 Kindai University Faculty of Agriculture
2007 - 2017 Osaka University Institute for Protein Research
2004 - 2007 Osaka University Institute for Protein Research
2001 - 2004 Hiroshima University RIRBM
2000 - 2001 株)WDB 派遣研究員

Show all

Committee career (8)：

2022/07 - 現在日本放射線影響学会学術委員会・賞等選考委員会副委員長
2021/04 - 現在日本遺伝学会評議員
2021 - 現在日本学術会議遺伝学分科会委員
2020/04 - 現在酵母研究会運営委員
2017/10 - 現在日本学術会議連携会員

Show all

Awards (6)：

2023/11 - 日本放射線影響学会女性研究者顕彰岩崎民子賞 DNA二本鎖切断修復の多様性とその制御メカニズムの解明
2022/10 - The Genetics Society of Japan Best Paper Award 2022 Analysis of intracellular energy environment and DNA repair pathway selection
2015/07 - 大阪大学総長顕彰
2008/03 - 大阪大学教育・研究功労賞
2007/09 - 日本遺伝学会奨励賞

Show all

Association Membership(s) (5)：

THE GENETICS SOCIETY OF JAPAN , THE MOLECULAR BIOLOGY SOCIETY OF JAPAN , 日本ゲノム編集学会 , THE JAPANESE CANCER ASSOCIATION , THE JAPANESE RADIATION RESEARCH SOCIETY

※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

Return to Previous Page