大学共同利用機関法人 自然科学研究機構




山本 正幸
山本 正幸
YAMAMOTO, Masayuki


1992年11月16日-1998年3月31日 細胞増殖研究部門 客員教授(東京大学理学部教授)
2013年10月1日-2019年3月31日 基礎生物学研究所 第8代所長
2019年4月 基礎生物学研究所 名誉教授



Aoi, Y., Kawashima, S.A., Simanis, V., Yamamoto, M., and Sato, M. (2014). Optimization of the analogue-sensitive Cdc2/Cdk1 mutant by in vivo selection eliminates physiological limitations to its use in cell cycle analysis. Open biology 4, 140063.

Arata, M., Sato, M., Yamashita, A., and Yamamoto, M. (2014). The RNA-binding protein Spo5 promotes meiosis II by regulating cyclin Cdc13 in fission yeast. Genes Cells 19, 225-238.

Hirai, H., Arai, K., Kariyazono, R., Yamamoto, M., and Sato, M. (2014). The kinetochore protein Kis1/Eic1/Mis19 ensures the integrity of mitotic spindles through maintenance of kinetochore factors Mis6/CENP-I and CENP-A. PloS one 9, e111905.

Okada, N., Toda, T., Yamamoto, M., and Sato, M. (2014). CDK-dependent phosphorylation of Alp7-Alp14 (TACC-TOG) promotes its nuclear accumulation and spindle microtubule assembly. Mol. Biol. Cell 25, 1969-1982.

Otsubo, Y., Yamashita, A., Ohno, H., and Yamamoto, M. (2014). S. pombe TORC1 activates the ubiquitin-proteasomal degradation of the meiotic regulator Mei2 in cooperation with Pat1 kinase. J Cell Sci. 127, 2639-2646.

Shichino, Y., Yamashita, A., and Yamamoto, M. (2014). Meiotic long non-coding meiRNA accumulates as a dot at its genetic locus facilitated by Mmi1 and plays as a decoy to lure Mmi1. Open biology 4, 140022.

Togashi, N., Yamashita, A., Sato, M., and Yamamoto, M. (2014). Functional significance of nuclear export and mRNA binding of meiotic regulator Spo5 in fission yeast. BMC microbiology 14, 188.