"Nomura, K.,Hiyama, T.Y.,Sakuta, H.,Matsuda, T.,Lin, C.-H.,Kobayashi, K.,Kobayashi, K.,Kuwaki, T.,Takahashi, K.,Matsui, S.,Noda, M.,Takashi Matsuda","[Na <sup>+</sup> ] Increases in Body Fluids Sensed by Central Na <inf>x</inf> Induce Sympathetically Mediated Blood Pressure Elevations via H <sup>+</sup> -Dependent Activation of ASIC1a",,"Neuron",,"Vol. 101","No. 1","pp. 60-75.e6",2019,
"Matsuda, T.,Hiyama, T.Y.,Niimura, F.,Matsusaka, T.,Fukamizu, A.,Kobayashi, K.,Kobayashi, K.,Noda, M.,Takashi Matsuda","Distinct neural mechanisms for the control of thirst and salt appetite in the subfornical organ",,"Nature Neuroscience",,"Vol. 20","No. 2","pp. 230-241",2017,
"Doura, T.,Kamiya, M.,Obata, F.,Yamaguchi, Y.,Hiyama, T.Y.,Matsuda, T.,Fukamizu, A.,Noda, M.,Miura, M.,Urano, Y.,Takashi Matsuda","Detection of LacZ-Positive Cells in Living Tissue with Single-Cell Resolution",,"Angewandte Chemie - International Edition",,"Vol. 55","No. 33","pp. 9620-9624",2016,
"Hiyama, T.Y.,Yoshida, M.,Matsumoto, M.,Suzuki, R.,Matsuda, T.,Watanabe, E.,Noda, M.,Takashi Matsuda","Endothelin-3 expression in the subfornical organ enhances the sensitivity of Na<inf>x</inf>, the brain sodium-level sensor, to suppress salt intake",,"Cell Metabolism",,"Vol. 17","No. 4","pp. 507-519",2013,
"Matsuda, T.,Sakaguchi, M.,Tanaka, S.,Yoshimoto, T.,Takaoka, M.,Takashi Matsuda","Prolyl oligopeptidase is a glyceraldehyde-3-phosphate dehydrogenase-binding protein that regulates genotoxic stress-induced cell death",,"International Journal of Biochemistry and Cell Biology",,"Vol. 45","No. 4","pp. 850-857",2013,
"Sakaguchi, M.,Matsuda, T.,Matsumura, E.,Yoshimoto, T.,Takaoka, M.,Takashi Matsuda","Prolyl oligopeptidase participates in cell cycle progression in a human neuroblastoma cell line",,"Biochemical and Biophysical Research Communications",,"Vol. 409","No. 4","pp. 693-698",2011,