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Department of Physiology Faculty of Medicine Kyushu University | 論文
- Enhancement of Ion Channel Formation by Electrostatic Interaction Incorporated in Dimeric Helical Peptide
- Comparison Study of Ion Channel Activities of Homo-Dimerized and Hetero-Dimerized Amphiphilic Helical Model Peptides
- Effect of Ring Size Alteration for Ion Channel Activities of Cyclic Peptides
- Ion-Channel Properties of Cyclic Hexapeptide cyclo(Pro-Xxx-Yyy)_2
- Side Chain Effect on Ion Channel Characters of Aib Rich Peptides
- CATECHOLAMINE-INDUCED DEPOLARIZATION OF GUINEA-PIG MYOCARDIAL CELLS IN POTASSIUM-RICH SOLUTION AND ITS DEPENDENCE ON TEMPERATURE : PROCEEDINGS OF THE 47th ANNUAL SCIENTIFIC MEETING OF THE JAPANESE CIRCULATION SOCIETY : Electrophysiology (II)
- Automaticity and Time-Dependent Conduction Disturbance Produced in Canine Ventricular Myocardium New Aspects for Initiation of Ventricular Arrhythmias : Symposium on Electrophysiological Basis for the Genesis and the Treatment of Arrhythmias
- Electrophysiologic Effects of Diltiazem,a New Slow Channel Inhibitor,on Canine Cardiac Fibers
- Spontaneous electrical activity induced by depolarizing currents in canine ventricular myocardium--A preliminary note
- The prolongation of QRS-duration resulting from delayed recovery of ventricular excitability A new mechanism for intraventricular conduction disturbance(Apreliminary note)
- Molecular Mechanism for Pore-formation in Lipid Membranes by the Hemolytic Lectin CEL-III from Marine Invertebrate Cucumaria echinata
- A SEARCH FOR ENDOGENOUS CHEMICAL DETERMINANTS OF FOOD INTAKE AND ITS CHRONOBIOLOGICAL EVALUATION
- Intracellular Mg^ Depletion Depresses the Delayed Rectifier K^+ Current in Guinea Pig Ventricular Myocytes
- Electrophysiologic Effects of Diltiazem, a New Slow Channel Inhibitor, on Canine Cardiac Fibers
- Spontaneous Electrical Activity Induced by Depolarizing Currents in Canine Ventricular Myocardium : A Preliminary Note
- The Prolongation of QRS-Duration Resulting from Delayed Recovery of Ventricular Excitability : A New Mechanism for Intraventricular Conduction Disturbance A Preliminary Note
- EFFECT OF FREE RADICALS ON INWARD RECIFYING K^+ CHANNEL : A SINGLE CHANNEL STUDY
- FREE RADICAL-INDUCED ACTIVATION OF ATP-SENSITIVE K^+ CHANNEL : A SINGLE CHANNEL STUDY
- Actions of Immune Cytokines on the Glucose-responsive Neurons in the Rat Ventromedial Hypothalamus
- Effects of Interleukin-1 and Interferon-α on Thermosensitive Neurons and Glucoreceptor Neurons in the Hypothalamus