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Department Of Pharmacology Faculty Of Pharmaceutical Sciences Nagasaki University | 論文
- Modulation of Morphine Action by Lauric Acid
- Physical Dependence Produced by Dihydroetorphine in Mice
- Amino Acids and Peptides. X. : Leu-Enkephalin Analogues Containing a Fluorinated Aromatic Amino Acid
- Amino Acids and Peptides. IX. : Synthetic Studies on Leu-Enkephalin Analogues Containing a Ureylene Bond
- NOVEL AND POTENT INHIBITORS SPECIFIC FOR PROLYL ENDOPEPTIDASE AND THEIR ANTI-AMNESIC EFFECT
- SPECIFIC INHIBITORS FOR PROLYL ENDOPEPTIDASE AND THEIR ANTI-AMNESIC EFFECT
- A COMPARISON OF URIDINE DIPHOSPHATE-GLUCURONOSYL-TRANSFERASE AND OTHER DRUG METABOLIZING ENZYME ACTIVITIES BETWEEN TWO MUTANT STRAINS OF WISTAR RATS WITH A GENETIC DEFICIENCY IN BILIRUBIN OR ANDROSTERONE GLUCURONIDATION
- Behavioral and Pharmacological Studies on Gluten Exorphin A5, a Newly Isolated Bioactive Food Protein Fragment, in Mice
- Effects of Tyr-MIF-1 on Stress-Induced Analgesia and the Blockade of Development of Morphine Tolerance by Stress in Mice
- A Non-opioid Mechanism in the Inhibitory Effect of Ginseng Saponins on Electrically Evoked Contractions of Guinea-Pig Ileum and Mouse vas Deferens
- BRAIN LEVEL OF PENTOBARBITAL IS THE PRIMARY DETERMINANT FOR THE DEVELOPMENT OF HYPNOTIC TOLERANCE IN MICE
- 摘出モルモット回腸縦走筋標本におけるOpioidに対する耐性,依存の形成:その受容体モデルとしての有用性
- A Potent Mu-Opioid Receptor Agonist, Dihydroetorphine, Fails to Produce the Conditioned Place Preference in Mice
- Antinociceptive Effect of Dihydroetorphine Following Various Routes of Administration : a Comparative Study with Morphine
- INVOLVEMENT OF DIFFERENT MECHANISMS, OPIOID AND NON-OPIOID FORMS, IN THE ANALGESIA INDUCED BY FOOTSHOCK (FS) AND IMMOBILIZED-WATER IMMERSION (IW) STRESS
- Further Evidence for the Participation of an α_2-Adrenoceptor Mediated Mechanism in the Production of Forced Swimming-Stress Induced Analgesia in Mice
- PARTICIPATION OF AN α2-MEDIATED MECHANISM IN THE PRODUCTION OF FORCED SWIMMINGSTRESS INDUCED ANALGESIA IN MICE
- The Opioid Activity and Receptor Selectivity of Fluorinated Leu^5 Enkephalin Analogues in Vitro and in Vivo
- The Opioid Receptor Selectivity for Trimebutine in Isolated Tissues Experiments and Receptor Binding Studies
- Selectivity for Opioid Receptor Subtypes of Enkephalin Analogues in Isolated Smooth Muscle and in the Analgesic Effect in Mice