"Akihiko Nakamura,Takashi Kanazawa,Tadaomi Furuta,Minoru Sakurai,Markku Saloheimo,Masahiro Samejima,Anu Koivula,Kiyohiko Igarashi","Role of tryptophan 38 in loading substrate chain into the active-site tunnel of cellobiohydrolase I from Trichoderma reesei",,"J. Appl. Glycosci.",,"vol. 68","no. 1","pp. 19-29",2021,Mar.
"Akihiko Nakamura,Kei-ichi Okazaki,Tadaomi Furuta,Minoru Sakurai,Jun Ando,Ryota Iino","Crystalline chitin hydrolase is a burnt-bridge Brownian motor",,"Biophys. Physicobiol.",,"vol. 17",,"pp. 51-58",2020,July
"中村彰彦,岡崎圭一,古田忠臣,櫻井実,飯野亮太","セラチア菌由来キチン加水分解酵素の運動機構",,"応用糖質科学",,"vol. 10","no. 2","pp. 89-95",2020,May
"中村彰彦,岡崎圭一,古田忠臣,櫻井実,飯野亮太","キチン加水分解酵素は熱ゆらぎを利用して1方向に動きながら結晶性バイオマスを分解する",,"生物物理",,"vol. 59","no. 6","pp. 330-333",2019,Nov.
"Akihiko Nakamura,Kei-ichi Okazaki,Furuta Tadaomi,Minoru Sakurai,Ryota Iino","New horizon in molecular observation through high-dimensional data-driven and measurement informatics approaches","The 57th Annual Meeting of the Biophysical Society of Japan",,,,,,2019,Sept.
"中村彰彦,岡崎圭一,古田忠臣,櫻井実,飯野亮太","結晶性キチン加水分解酵素は背水の陣で進むブラウニアンモーターである","第57回日本生物物理学会年会",,,,,,2019,Sept.
"中村彰彦,岡崎圭一,古田忠臣,櫻井実,飯野亮太","プロセッシブなキチン加水分解酵素はなぜ結晶を壊せるのか","2019年度（第68回）日本応用糖質科学会大会・応用糖質科学シンポジウム",,,,,,2019,Sept.
"Akihiko Nakamura,Kei-ichi Okazaki,Tadaomi Furuta,Minoru Sakurai,Ryota Iino","Processive chitinase is burnt-bridge Brownian motor operated by fast catalysis after peeling rail from crystalline chitin","The 63rd Annual Meeting of the Biophysical Society","Biophys. J.",,"vol. 116","no. 3","p. 486a",2019,Mar.
"中村彰彦,岡崎圭一,古田忠臣,櫻井実,飯野亮太","キチン加水分解酵素の運動メカニズムの解明","第8回名古屋大学シンクロトロン光研究センターシンポジウム",,,,,,2019,Jan.
"Akihiko Nakamura,Takeshi Tsukada,Sanna Auer,Tadaomi Furuta,Masahisa Wada,Anu Koivula,Kiyohiko Igarashi,Masahiro Samejima","Molecular mechanisms for cellulose hydrolysis of glycoside hydrolase family 7 cellobiohydrolases from fungi","Gordon Research Conference: Cellulosomes, Cellulases & Other Carbohydrate Modifying Enzymes",,,,,,2013,Aug.
"Akihiko Nakamura,Takeshi Tsukada,Sanna Auer,Tadaomi Furuta,Masahisa Wada,Anu Koivula,Kiyohiko Igarashi,Masahiro Samejima","Molecular mechanisms for cellulose hydrolysis of glycoside hydrolase family 7 cellobiohydrolases from fungi","Gordon Research Seminar: Cellulosomes, Cellulases & Other Carbohydrate Modifying Enzymes (GRS)",,,,,,2013,Aug.