Isoprenaline Enhances Both Voltage-Dependent Ba^<2+> and K^+ Currents in Guinea-Pig Vas Deferens
スポンサーリンク
概要
- 論文の詳細を見る
- 1998-04-01
著者
-
Wakui Makoto
Department Of Physiology Hirosaki University Graduate School Of Medicine
-
Mimata Tomofumi
Department Of Applied Physiology Tohoku University School Of Medicine
-
INOMATA HACHIRO
College of Allied Medical Science, Akita University
-
Inomata Hachiro
College Of Allied Medical Science Akita University
-
WAKUI Makoto
Department of Physiology, Hirosaki University School of Medicine
関連論文
- Staphylococcal enterotoxin a modulates intracellular Ca^2+ signal pathway in human intestinal epithelial cells
- Cellular function in multicellular system for hormone-secretion : electrophysiological aspect of studies on α-, β- and δ-cells of the pancreatic islet
- Role of Mitochondrial NADH Shuttle System in Acute Amylase Secretion by Acetylcholine from Mouse Pancreatic Acinar Cells
- Stimulated Ca^ Entry Activates Cl^- Currents after Releasing Ca^ from the Intracellular Store in Submandibular Gland Cells of the Rat
- Depletion of Ryanodine-Sensitive Ca^ Store Activates Ca^ Entry in Rat Submandibular Gland Acinar Cells
- Sr^ can Pass through Ca^ Entry Pathway Activated by Ca^ Depletion, but can be Hardly Taken up by the Ca^ Stores in the Rat Salivary Acinar Cells
- Isoprenaline Enhances Both Voltage-Dependent Ba^ and K^+ Currents in Guinea-Pig Vas Deferens
- Mechanisms of Ionic Currents Involved in Suppressive Effect of Isoprenaline on the Action Potential of Guinea-Pig Vas Deferens in Normal Krebs Solution.