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Department of Pharmacology, Faculty of Pharmaceutical Sciences, Science University of Tokyo | 論文
- COMPARISON OF EFFECTS OF EXTERNAL Ca^ ON ANTIOXYTOCIN ACTIONS OF ANTISPASMODICS IN OVARIECTOMIZED AND ESTRADIOL-TREATED RAT UTERI
- 神経可塑性と神経変性におけるポストゲノム研究戦略
- STUDIES ON MECHANISMS OF DIARRHEA INDUCED BY FUSARENON-X, A TRICHOTHECENE MYCOTOXIN FROM FUSARIUM SPECIES : CHARACTERISTICS OF INCREASED INTESTINAL ABSORPTION RATE INDUCED BY FUSARENON-X
- RNA Interference With Small Hairpin RNAs Transcribed From a Human U6 Promoter-Driven DNA Vector
- MECHANISM OF RELAXANT ACTION OF PAPAVERINE. II. DIFFERENCES BETWEEN MODES OF RELAXANT EFFECTS OF PAPAVERINE AND AMYTAL IN GUINEA-PIG TAENIA COLI
- ACTIONS OF PAPAVERINE, ASPAMINOL AND BILE SALTS AND INTRACELLULAR CYCLIC AMP LEVEL
- MECHANISM OF RELAXANT ACTION OF PAPAVERINE. III. COMPARISON OF SODIUM ION DEPENDENCIES ON THE RELAXANT EFFECTS OF PAPAVERINE, ASPAMINOL AND BENACTYZINE IN GUINEA-PIG TAENIA COLI
- Characteristics of contractile response and calcium mobilization in the stomach fundus of spontaneously hypertensive rats
- MECHANISMS OF SPASMOLYTIC ACTION OF BILE SALTS IN DEPOLARIZED GUINEA-PIG TAENIA COLI
- INTERACTION BETWEEN CHOLECYSTOKININ AND BENZODIAZEPINE RECEPTOR LIGANDS
- MECHANISM OF RELAXANT ACTION OF PAPAVERINE. EFFECT ON CAFFEINE-INDUCED CONTRACTION OF GUINEA PIG TAENIA COLI
- REVERSAL OF ANTINOCICEPTIVE EFFECT OF CAERULEIN BY BENZODIAZEPINE
- EFFECTS OF PAPAVERINE, BENACTYZINE AND D600 ON Ca2+ EFFLUX, DETERMINED BY MEANS OF A Ca2+-SELECTIVE ELECTRODE, FROM GUINEA PIG TAENIA COLI INTO A Ca2+-FREE PHYSIOLOGICAL SOLUTION
- Neuronal expression of arylalkylamine N-acetyltransferase (AANAT) mRNA in the rat brain
- EFFECTS OF HIGH POTASSIUM DEPOLARIZATION, CARBACHOL AND OXYTOCIN ON THE LANTHANUM-RESISTANT 45Ca FRACTION IN RAT MYOMETRIUM
- Possible Involvement of the CCK Receptor in the Benzodiazepine Antagonism to CCK in the Mouse Brain
- Characteristics of Antinociception Induced by Noncatecholic Phenylethylamine Derivatives: The Involvement of Alpha-2-Adrenoceptors.
- Reversal of antinociceptive effect of cholecystokinin by benzodiazepines and a benzodiazepine antagonist, Ro 15-1788.
- 2S,3R 3-Amino-2-hydroxy-4-phenylbutanoic acid derivatives, enkephalinase inhibitors, augment met5-enkephalin-induced antinociception.
- Caerulein antagonism by benzodiazepines in the food intake in mice.
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