Research theme for competitive and other funds (7):
2019 - 2024 マウス核移植技術の開発による正常クローン胚・胎盤の構築
2020 - 2023 Study on the mechanism of sperm and embryo transport in oviduct in situ
2017 - 2020 卵管内の精子移行を制御する母体側メカニズムの解明
2014 - 2015 受精能賦活化処理によるマウス未成熟精子の生理的機能変化の促進化
2012 - 2014 Study on chromosomal stability and developmental potential of mouse second polar bodies
2012 - 2013 第二極体に由来するマウス混倍数性受精卵の作出と 発生に関する研究
2010 - 2011 マウス受精卵の第二極体における半数体ゲノムの 安定性に関する研究
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Papers (27):
Toshiaki Hino, Hirokazu Kusakabe. A reliable technique for karyotyping mouse oocytes prepared by a gradual fixation/air-drying method followed by multicolour FISH. Biology open. 2023. 12. 12
Seiya Oura, Toshiaki Hino, Takashi Satoh, Taichi Noda, Takayuki Koyano, Ayako Isotani, Makoto Matsuyama, Shizuo Akira, Kei-Ichiro Ishiguro, Masahito Ikawa. Trim41 is required to regulate chromosome axis protein dynamics and meiosis in male mice. PLoS genetics. 2022. 18. 6. e1010241
Narumi Ogonuki, Hirohisa Kyogoku, Toshiaki Hino, Yuki Osawa, Yasuhiro Fujiwara, Kimiko Inoue, Tetsuo Kunieda, Seiya Mizuno, Hiroyuki Tateno, Fumihiro Sugiyama, et al. Birth of mice from meiotically arrested spermatocytes following biparental meiosis in halved oocytes. EMBO reports. 2022. e54992
T. Hino, H. Kusakabe, H. Tateno. FOR HOW LONG DOES THE SECOND POLAR BODY OF THE MOUSE-FERTILIZED EGG RETAIN GENETIC STABILITY?. FERTILITY AND STERILITY. 2012. 98. 3. S163-S163
R. Ono, M. Naruse, K. Nakamura, T. Hino, R. Suzuki-Migishima, T. Usami, J. C. Cross, T. Kaneko-Ishino, F. Ishino. Peg10, A. Retrotransposon-derived imprinted gene, acts cell autonomousely in mouse spongiotrophoblast development. PLACENTA. 2007. 28. 8-9. A62-A62
Amazingly active peristaltic moments and fluid production of the mouse oviduct: their roles in fluid and sperm transport and fertilization
(52nd annual conference, Society for the study of the repruduction 2019)