A possible role for the adenylcyclase system in insulin secretion
about
Cyclic AMP dynamics in the pancreatic β-cellCritical role of cAMP-GEFII--Rim2 complex in incretin-potentiated insulin secretionPiccolo, a Ca2+ sensor in pancreatic beta-cells. Involvement of cAMP-GEFII.Rim2. Piccolo complex in cAMP-dependent exocytosisDistinct actions of Rab3 and Rab27 GTPases on late stages of exocytosis of insulin.Cyclic adenosine 3':5'-monophosphate-stimulated phosphorylation of isolated neurotubule subunitsEvidence for a role of cyclic AMP in neuromuscular transmission.Interference of glycogenolysis with glycolysis in pancreatic islets from glucose-infused rats.Effect of adrenergic-blocking or -stimulating agents on plasma growth hormone, immunoreactive insulin, and blood free fatty acid levels in manHypoalaninemia: a concomitant of ketotic hypoglycemia.Effect of nicotinic acid-induced insulin resistance on pancreatic B cell function in normal and streptozocin-treated baboons.The stimulus-secretion coupling of glucose-induced insulin release. VII. A proposed site of action for adenosine-3',5'-cyclic monophosphate.Evidence for delayed development of the glucagon receptor of adenylate cyclase in the fetal and neonatal rat heartThe role of carbohydrate and oral agents in the treatment of diabetes mellitusThe pancreatic beta-cell recognition of insulin secretagogues: does cyclic AMP mediate the effect of glucose?Biosynthesis of proinsulin and insulin in newborn rat pancreas. Interaction of glucose, cyclic AMP, somatostatin, and sulfonylureas on the (3H) leucine incorporation into immunoreactive insulin.Glucose-Dependent Insulin Secretion in Pancreatic β-Cell Islets from Male Rats Requires Ca2+ Release via ROS-Stimulated Ryanodine Receptors.Isolation and properties of secretory granules from rat islets of Langerhans. 3. Studies of the stability of the isolated beta granules.Colchicine binding in tissue slices. Decrease by calcium and biphasic effect of adenosine-3', 5'-monophosphateInsulin secretion: mechanism of the stimulation by glucose.Mechanisms of glucose stimulated insulin secretion in health and in diabetes: some re-evaluations and proposals.Essentiality of circulating fatty acids for glucose-stimulated insulin secretion in the fasted rat.Perifusion of rat pancreatic tissue in vitro: substrate modification of theophylline-induced biphasic insulin release.The interplay between cyclic AMP and ions in the stimulus-secretion coupling in pancreatic B-cells.Is Type 2 Diabetes a Glycogen Storage Disease of Pancreatic β Cells?Inhibition of pancreatic islet monoamine oxidase by adrenergic antagonists and ethanol.cAMP signalling in insulin and glucagon secretion.The purinergic nerve hypothesis and insulin secretion.Microtubules, cyclic AMP, calcium, and secretion.The pathogenesis of diabetes mellitus.Insulin secretion and food intake.The role of cyclic AMP and calcium in cell activation.Enzymatic acitivity in tubulin preparations: cyclic-AMP dependent protein kinase activity of brain microtubule protein.The stimulus-secretion coupling of glucose-induced insulin release. Does glycolysis control calcium transport in the B-cell?The role of cyclic AMP in insulin release.Islet cell interactions with pancreatic B-cells.Nutrient metabolism in islet cells.Effect of synthetic C-terminal fragments of hGH on insulin release by isolated islets.Effect of tolbutamide on plasma renin activity.Effects of glucagon, dibutyryl cyclic 3',5'-adenosine monophosphate, and theophylline on calcitonin secretion in vitro.Cholinergic modification of glucose-induced biphasic insulin release in vitro.
P2860
Q27008275-306F6070-AB3D-4BD3-8BB8-AF0E4ABBED09Q28510313-65511976-5E68-4263-93FD-7AA10B1BD57CQ28586557-DA39D8BA-A74D-46ED-A579-33B4F93A685BQ30404192-8388746E-2B61-441A-ABE3-6A6E941BD46DQ33705270-777BD039-0C9D-4740-B636-EE8A571D1BB9Q33817467-248C87F3-F226-433F-88E9-3DD678CBAAE3Q33889169-ACF7E81D-9CBE-4917-93A1-375FB7801690Q34060871-60D50547-2D55-4BA4-9C14-B87F6C132593Q34070503-297D87C0-5BEE-4B31-A1E3-64D776BCA539Q34184528-0CF8ED15-31F3-45C8-A318-A49D491B57E9Q34491591-1D29A372-7A3F-4EDC-B9C0-67BB32261BC4Q34503387-53410D10-7A6B-43C6-93D3-8A37569ECCA0Q34584973-096BA66B-D217-4B2A-8026-B594BAA7EF63Q35111801-E72112BA-469E-44A1-B0CE-9877B5F0615EQ35196738-8BCB19A9-5141-4E5A-87AA-47158212518AQ35653939-4F114254-9DB8-4191-8A82-77C84D799F47Q36190726-F8103CDE-F16C-4F79-8D64-DB404B8FE253Q36192777-1BC9942A-7958-4F2A-B186-32C278B9C835Q36460914-EAF99731-4BF9-4146-BF98-1375654E4F6CQ36475442-652D2A58-5F43-47E6-A1C4-6AFD41D257AEQ37356303-4A8EFC43-EA1C-4B07-A770-EC1F434C2C2CQ37710724-0198EE5A-5A94-4E84-8D64-E5BDEB306200Q38149977-BCBC9097-98E5-46DF-AE0A-E407410805F6Q38690897-AF229FAB-1C46-44AE-8AE2-7D7B9C6585A1Q39088886-55B30642-8875-4B8E-97CE-C1A2B9DE948AQ39280145-0839D882-3650-4D49-A5FE-EDA5F35F683BQ39295497-0596809D-250A-405D-A2BF-A815BBE9DD63Q39335745-70DA1D11-C47D-4170-9F58-CB91D264D0ABQ39892966-61F39DF6-0692-4C03-8B04-ECCFBC826EE0Q39896597-831664FB-B77A-4629-B666-C2F71839152DQ39897439-49EE5F37-CFC3-47CB-AAA7-A9084B3E87BAQ39916929-1D4BB725-5B00-4AC1-B4DC-CEC956E9790EQ40005773-76C43709-08B1-41BD-A5EB-F9CACD8BA821Q40078293-013EA3D3-F73E-40CE-B44F-D52CBAF880E5Q40095496-8672C9EB-CCF9-4C09-8C28-9C6709A8CFDFQ40118229-CC70E3A6-327E-4C6D-BF3D-6A4F76166046Q40143863-AFB31FAD-8EF9-4026-BBF4-43953D27F168Q40221537-EA4F9423-1662-46EF-A2C5-47F0FA244F76Q40474842-2FBCB4EA-B10B-4982-AF6F-6C5C8F8973F3Q40528426-917E57D0-E099-4793-905A-9D26FA557A9E
P2860
A possible role for the adenylcyclase system in insulin secretion
description
1967 nî lūn-bûn
@nan
1967年の論文
@ja
1967年論文
@yue
1967年論文
@zh-hant
1967年論文
@zh-hk
1967年論文
@zh-mo
1967年論文
@zh-tw
1967年论文
@wuu
1967年论文
@zh
1967年论文
@zh-cn
name
A possible role for the adenylcyclase system in insulin secretion
@en
type
label
A possible role for the adenylcyclase system in insulin secretion
@en
prefLabel
A possible role for the adenylcyclase system in insulin secretion
@en
P2093
P2860
P356
P1476
A possible role for the adenylcyclase system in insulin secretion
@en
P2093
Malaisse WJ
Malaisse-Lagae F
P2860
P304
P356
10.1172/JCI105663
P407
P577
1967-11-01T00:00:00Z