Tomohisa Yamamoto, Takeshi Tsuge, Makoto Araki, Masatomo Maeda. Cyclic AMP (cAMP)-dependent proteolysis of GATA6 by proteasome: Zinc-finger domain of GATA6 has signals for nuclear export and proteolysis, both of which are responsive to cAMP. Drug discoveries & therapeutics. 2023
Yumei Yokura-Yamada, Makoto Araki, Masatomo Maeda. Ectopic expression of Id1 or Id3 inhibits transcription of the GATA-4 gene in P19CL6 cells under differentiation condition. Drug discoveries & therapeutics. 2021
Takanari Wakayama, Kazuaki Ohashi, Yasuyuki Fujimoto, Masatomo Maeda. The cytomegalovirus enhancer induces an immediate response to the myosin light chain 2v promoter during P19CL6 cell differentiation. American Journal of Molecular Biology. 2017. 7. (4). 1068-1081
Hironori Ushijima, Kimika Endo, Yuki Nakanome, Masatomo Maeda. Proteolytic mechanisms of GATA-6 facilitated by activation of JNK signaling pathway. PROTEIN SCIENCE. 2012. 21. 229-229
Masatomo Maeda. H+-transporting ATP Synthases: Insights into How Their Electrochemically Driven Motor Might Serve as a Drug Target. YAKUGAKU ZASSHI-JOURNAL OF THE PHARMACEUTICAL SOCIETY OF JAPAN. 2010. 130. 2. 191-197
Medical biochemistry (6th Ed.)
Elsevier 2022 ISBN:9780323834506
コンパス生化学 改訂第2版
南江堂 2019
ベインズ・ドミ二チャク 生化学 原著4版
丸善出版 2018
コンパス分子生物学 -創薬・テーラーメード医療に向けて- 改訂第2版
南江堂 2015
受賞 (3件):
1995/10 - 日本生化学会 日本生化学会欧文誌(JB)論文賞 Conserved Glu-181 and Arg-182 residues of Escherichia coli H<SUP>+</SUP>-ATPase (ATP synthase) β subunit are essential for catalysis: properties of thirty six mutants between βGlu-161 and βLys-201 residues.