Pharmaceutical Sciences

Acquisition process of pro-arrhythmic substrate responsible for atrial fibrillation https://global.toho-u.ac.jp/research/pr-1201/
Platelet-activating factor (PAF), a bioactive phospholipid, strongly enhances contractile functions of urinary bladder smooth muscles https://global.toho-u.ac.jp/research/pr-1190/
Discovery of a “novel feruloylated acylglycerol” from Wikstroemia pilosa – Expected to be used as a derivative to improve the solubility of ferulic acid https://global.toho-u.ac.jp/research/pr-1197/
Docosahexaenoic Acid Potently Inhibits the Prostanoid TP Receptor-Mediated Contractile Response of Tracheal Smooth Muscle https://global.toho-u.ac.jp/research/pr-1185/
Elucidation of the mechanism whereby prostanoids enhance bladder contractile activity https://global.toho-u.ac.jp/research/pr-1175/
Discovery of an anti-HIV active substance from Wikstroemia lamatsoensis https://global.toho-u.ac.jp/research/pr-1164/
Reorientation of Protein-Bound Water Regulates the Magnetic Compass of Organisms -Electron Transfer Mechanism of Photoreceptor Cryptochromes https://global.toho-u.ac.jp/research/pr-1159/
Chiral Crystallization of Optically Inactive Indolyl Sulfonamides Caused Through the Combination of Specific Intermolecular Interactions https://global.toho-u.ac.jp/research/pr-1155/
Docosahexaenoic Acid (DHA) Immediately Inhibits the Contractile Response of Coronary and Basilar Arteries by Inhibiting Prostanoid TP Receptors https://global.toho-u.ac.jp/research/pr-1152/
Docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA) inhibit the contractile response of smooth muscle in the lower gastrointestinal tract https://global.toho-u.ac.jp/research/pr-1151/