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Department of Pharmacology I, Osaka University School of Medicine | 論文
- ASCORBIC ACID, AN ENDOGENOUS FACTOR REQUIRED FOR ACETYLCHOLINE RELEASE FROM THE SYNAPTIC VESICLES
- REGULATION OF THE ALPHA-ADRENERGIC SYSTEM IN RAT VAS DEFERENS
- Mechanism and Properties of Inhibition of Purified Rat Brain Adenylate Cyclase by G Protein βγ - Subunits
- INCREASE IN ACh RELEASE FROM THE RAT BRAIN CORTEX SLICES BY 3, 5-CYCLIC ADENOSINE MONOPHOSPHATE
- F--INDUCED CHANGES AND ITS REVERSAL BY ITP IN MEMBRANE TURBIDITY AND ADENYLATE CYCLASE ACTIVITY OF CHICK BRAIN MICROSOMES
- SUBCELLULAR ASCORBIC ACID IN SCORBUTIC GUINEA PIG BRAIN
- ROLE OF α-ADRENERGIC RECEPTORS IN DENERVATION SUPERSENSITIVITY OF RAT VAS DEFERENS
- CHANGES IN α-ADRENERGIC RECEPTORS IN RAT BRAIN IN VITRO BY PREINCUBATION WITH α-ADRENERGIC LIGANDS
- MUSCARINIC CHOLINERGIC RECEPTORS IN MAMMALIAN BRAIN: DIFFERENCES BETWEEN BINDINGS OF ACETYLCHOLINE AND ATROPINE
- Regulation of Guanylate Cyclase by ATP and Dithiothreitol in Rat Lung Membrane : Involvement of an Insensitive and a Sensitive State to ATP/Dithiothreitol-Stimulation
- THE INFLUENCE OF AGING ON α-ADRENOCEPTORS IN RAT HEART AND VAS DEFERENS
- STUDIES ON THE FUNCTIONAL ROLE OF ADENOSINE 3, 5-MONOPHOSPHATE, HISTAMINE AND PROSTAGLANDIN E1 IN THE CENTRAL NERVOUS SYSTEM
- INHIBITORY EFFECT OF MICROTUBULE-DISRUPTING AGENTS ON POTASSIUM STIMULATED 45Ca UPTAKE BY RAT BRAIN SLICES
- EFFECTS OF Na+ AND OTHER MONOVALENT CATIONS ON Ca-EFFLUX FROM SYNAPTOSOMES
- Effects of La+++, Mn++ and ruthenium red on Mg-Ca-ATPase activity and ATP-dependent Ca-binding of the synaptic plasma membrane.
- Role of PGE2 in Neurotransmission from Pre- to Post-Ganglionic Hypogastric Nerves of Guinea Pigs.
- Cooperation of ATP and norepinephrine in inducing contractile responses in guinea pig vas deferens.
- Changes in density of muscarinic cholinergic receptor by adrenergic denervation with guanethidine.
- CALCIUM BINDING OF ISOLATED SYNAPTIC MEMBRANES FROM RAT CEREBRAL CORTEX
- Inhibitory effect of endogenous macromolecule on the Ca++-stimulated acetylcholine release from the crude synaptic vesicles.