Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Keisuke Sanematsu Last modified date:2021.06.28

Lecturer / Oral Biological Sciences / Department of Dental Science / Faculty of Dental Science


Presentations
1. 山田 優、高井 信吾、渡邉 雄、尾崎 礼奈、川端 由子、尾池 麻未、平山 彩夏、岩田 周介、實松 敬介、西村 正太郎、田畑 正 志、重村 憲徳, Gene expression profiling of Gustducin-expressing cells in mouse fungiform papillae and circumvallate papillae, 第98回日本生理学会大会, 2021.03.
2. Yuko Kawabata,Shingo Takai,Ryusuke Yoshida,@Keisuke Sanematsu,Kawabata Fuminori,Noriatsu Shigemura, The effects of flecainide on taste bud organoid growth and behavioral sour taste response in mice., ISOT2020, 2020.08.
3. Keisuke Sanematsu, Yuzo Ninomiya, Noriatsu Shigemura, Molecular mechanism for the suppressing effect of low pH on the sweet receptor sensitivity, 第97回日本生理学会大会, 2020.03.
4. @Keisuke Sanematsu,Yuzo Ninomiya,Noriatsu Shigemura, Molecular mechanisms of suppressing and modifying effects on sweet taste receptor sensitivity, ECRO2019, 2019.09.
5. 實松 敬介, 北川 昌幸, 吉田 竜介, 韮澤 悟, 重村 憲徳, 二ノ宮 裕三, Intracellular acidification is involved in full activation of the sweet taste receptor by miraculin., 17th International Symposium on Olfaction and Taste, 2016.06.
6. Ryusuke Yoshida, Keiko Nakano (Yasumatsu), Keisuke Sanematsu, 重村 憲徳, Yuzo Ninomiya, Gustatory responses of taste receptor cells expressing fluorescent proteins in transgenic mice., 17th International Symposium on Olfaction and Taste, 2016.06.
7. 實松 敬介, 二ノ宮 裕三, 甘味受容細胞の感受性抑制機構, 病態生理学会, 2012.08.
8. 實松 敬介, 北川 昌幸, 中村 由紀, 野村 政壽, 重村 憲徳, 二ノ宮 裕三, Lack of diurnal variation of sweet recognition thresholds in over-weight and obese humans., ISOT XVI, 2012.06.
9. 實松 敬介, 北川 昌幸, 中村 由紀, 野村 政壽, 重村 憲徳, 二ノ宮 裕三, Diurnal variation of plasma leptin levels and taste recognition thresholds in over-weight and obese subjects., AChemS 2012, 2012.04.
10. Interaction site for taste modifiers at the sweet taste receptor T1R2/T1R3.
11. Molecular mechanism of the sweet taste inhibitor: gurmarin.
12. Interaction site for grumarin at the sweet taste receptor T1R2/T1R3.
13. Molecular mechanism for sweet suppressing effect of grumarin.
14. Molecular mechanism for the sweet suppressing effect of gymnemic acid.