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Department Of Pharmacology Faculty Of Pharmaceutical Sciences Kobe Gakuin University | 論文
- Role of Angiotensin II in the Transforming Growth Factor-β1 Expression of Rat Kidney in Anti-Glomerular Basement Membrane Antiserum-Induced Glomerulonephritis
- Activation of the Renin-Angiotensin System in Anti-glomerular Basement Membrane Antibody-Induced Glomerulonephritis
- Angiotensinogen Synthesis in the Liver Is Independent of Physiological Estrogen Levels
- Endotoxin-Induced Enhancement of Angiotensinogen Synthesis in hte Liver : Decreased Response Following Repeated Endotoxin Exposure
- Characteristics of the Time-Resolved Photoluminescence in Microcrystalline Si
- EFFECT OF CYP2C POLYMORPHISMS ON THE PHARMACOKINETICS OF PHENYTOIN IN JAPANESE PATIENTS WITH EPILEPSY
- Population Pharmacokinetics of Phenytoin in Japanese Patients with Epilepsy : Analysis with a Dose-Dependent Clearance Model
- TRANSPORT MECHANISMS OF BESTATIN IN INTESTINAL AND RENAL BRUSH-BORDER MEMBRANES
- TRANSPORT MECHANISMS OF β-LACTAM ANTIBIOTICS IN INTESTINAL BRUSH-BORDER MEMBRANES
- TRANSPORT MECHANISMS OF CATIONIC DRUGS IN RAT RENAL BRUSH-BORDER AND BASOLATERAL MEMBRANES
- TRANSPORT OF DRUGS BY PLASMA MEMBRANE VESICLES ISOLATED FROM RAT KIDNEY CORTEX
- Hydrogenated Amorphous Silicon/Crystalline Silicon Double Heterojunction X-Ray Sensor
- Spot-size Converter Integrated Laser Diodes (SS-LDs) (Special Issue On Devices, Packaging Technology, and Subsystems for the Optical Access Network)
- A New Lignan Glycoside from the Leaves of Sambucus sieboldiana (MIQ.) BLUME ex. GRAEBN
- X-Ray Photoelectron Spectroscopy of Si-As-Te Chalcogenide Glasses Prepared in the Earth's Gravity and in Microgravity
- Valence Band Structure of Si-As-Te Chalcogenide Glasses Prepared in the Gravity Environment of the Earth and in a Microgravity Environment in Space
- Pressure Effects on Electrical and Optical Properties of Si-As-Te Chalcogenide Glasses Fabricated in the Gravity Environment and in a Microgravity Environment
- Fabrication of Si-As-Te Amorphous Semiconductor in a Microgravity Environment
- Temperature Dependence of Hot-Electron-Induced Electroluminescence from Hydrogenated Amorphous Silicon
- Electroluminescence and Avalanche Multiplication at Electric Field Strength Exceeding 1 MV/cm in Hydrogenated Amorphous SiC Alloy