Research field (2):
Pathobiochemistry
, Medical biochemistry
Research theme for competitive and other funds (5):
2023 - 核膜孔タンパク質が関わる発がん機構の解明
2017 - 2020 核膜孔タンパク質の質的変化による細胞運命の決定
2017 - 核膜孔タンパク質によるmicroRNA輸送制御と細胞がん化
2012 - 2015 核内外輸送の異常が関わる細胞がん化機構の分子基盤
2008 - 2009 核膜孔タンパク質の発現異常による細胞がん化の分子機構の解析
Papers (19):
C.Kiong Ho, Thomas Mayers, Kazuya Morikawa, Yukihide Watanabe, Ryosuke Ohniwa, Shoko Saito, Masafumi Muratani, Hiroshi Hasegawa, Dang Thi, Phuong Thao, et al. Advanced Topics in Biotechnology and Medicine : An intensive literature-based course to encourage critical thinking in science and build academic English skills. 2021. 20. 3. 39-46
Sadik Cigdem, Shoko Saito, Daiki Nishikata, Kyosuke Nagata, Mitsuru Okuwaki. SET-NUP214 and MLL cooperatively regulate the promoter activity of the HoxA10 gene. Genes to cells : devoted to molecular & cellular mechanisms. 2021. 26. 10. 830-837
Mitsuru Okuwaki, Ai Saotome-Nakamura, Masashi Yoshimura, Shoko Saito, Hiroko Hirawake-Mogi, Takeshi Sekiya, Kyosuke Nagata. RNA-recognition motifs and glycine and arginine-rich region cooperatively regulate the nucleolar localization of nucleolin. The Journal of Biochemistry. 2020. 169. 1. 87-100
Aberrant nuclear-cytoplasmic transport by nup214-fusion gene products found in leukemia
(Cold Spring Harbor Laboratory meeting, Nuclear Organization & Function 2014)
Effect of nucleoporin-related fusion proteins found in leukemia on NF-κB pathway
(平成25年度日本生化学会関東支部例会 2013)
