Regulation of glucagon release in mouse -cells by KATP channels and inactivation of TTX-sensitive Na+ channels.
about
Glucagon secretion and signaling in the development of diabetesCFTR and Anoctamin 1 (ANO1) contribute to cAMP amplified exocytosis and insulin secretion in human and murine pancreatic beta-cellsNicotinic acid-adenine dinucleotide phosphate-sensitive calcium stores initiate insulin signaling in human beta cells.Low doses of bisphenol A and diethylstilbestrol impair Ca2+ signals in pancreatic alpha-cells through a nonclassical membrane estrogen receptor within intact islets of Langerhans.Synaptotagmin-7 is a principal Ca2+ sensor for Ca2+ -induced glucagon exocytosis in pancreasTargeting microglial K(ATP) channels to treat neurodegenerative diseases: a mitochondrial issueCharacterization of voltage-dependent sodium and calcium channels in mouse pancreatic A- and B-cells.Roles of Voltage-Gated Tetrodotoxin-Sensitive Sodium Channels NaV1.3 and NaV1.7 in Diabetes and Painful Diabetic NeuropathyUnifying concepts in stimulus-secretion coupling in endocrine cells and some implications for therapeutics.Per-arnt-sim (PAS) domain-containing protein kinase is downregulated in human islets in type 2 diabetes and regulates glucagon secretionModels of glucagon secretion, their application to the analysis of the defects in glucagon counterregulation and potential extension to approximate glucagon action.Pancreatic network control of glucagon secretion and counterregulation.Different metabolic responses in alpha-, beta-, and delta-cells of the islet of Langerhans monitored by redox confocal microscopy.Capacitance measurements of exocytosis in mouse pancreatic alpha-, beta- and delta-cells within intact islets of Langerhans.A K ATP channel-dependent pathway within alpha cells regulates glucagon release from both rodent and human islets of Langerhans.Modelling the electrical activity of pancreatic alpha-cells based on experimental data from intact mouse islets.CFTR is involved in the regulation of glucagon secretion in human and rodent alpha cells.Glucose suppression of glucagon secretion: metabolic and calcium responses from alpha-cells in intact mouse pancreatic islets.ATP-sensitive potassium channelopathies: focus on insulin secretionReversible changes in pancreatic islet structure and function produced by elevated blood glucose.Glucose decouples intracellular Ca2+ activity from glucagon secretion in mouse pancreatic islet alpha-cellsInhibition of ATP-sensitive potassium channels by haloperidol.TASK-1 Potassium Channels Limit Pancreatic α-Cell Calcium Influx and Glucagon Secretion.Glucose- and hormone-induced cAMP oscillations in α- and β-cells within intact pancreatic islets.The isolated pancreatic islet as a micro-organ and its transplantation to cure diabetes: celebrating the legacy of Paul Lacy.Glucose-mediated control of ghrelin release from primary cultures of gastric mucosal cellsA computational systems analysis of factors regulating α cell glucagon secretion.Intra-islet glucagon secretion and action in the regulation of glucose homeostasis.Tolbutamide controls glucagon release from mouse islets differently than glucose: involvement of K(ATP) channels from both α-cells and δ-cells.Adiponectin, Leptin, and Fatty Acids in the Maintenance of Metabolic Homeostasis through Adipose Tissue Crosstalk.Regulating glucagon secretion: somatostatin in the spotlight.Glucose and pharmacological modulators of ATP-sensitive K+ channels control [Ca2+]c by different mechanisms in isolated mouse alpha-cellsSodium channel beta1 regulatory subunit deficiency reduces pancreatic islet glucose-stimulated insulin and glucagon secretion.Cell type-specific deletion in mice reveals roles for PAS kinase in insulin and glucagon productionInsulin as a physiological modulator of glucagon secretion.Inhibitory effects of leptin on pancreatic alpha-cell function.Foxa2 regulates multiple pathways of insulin secretion.Role of KATP channels in glucose-regulated glucagon secretion and impaired counterregulation in type 2 diabetes.Modeling the pancreatic α-cell: dual mechanisms of glucose suppression of glucagon secretion.Functional identification of islet cell types by electrophysiological fingerprinting.
P2860
Q21129250-06FEAB6A-DDCF-410E-B017-9FBAFCD71A61Q24298624-AFD52753-E993-4449-AD31-EB3864057911Q24540403-9BDE9F7F-2221-417C-9612-AD8D0B36BB1CQ24815176-4AA8BD0B-3176-4138-9F0F-DCA57F3515B5Q26269929-DB529316-8CC5-4020-9751-D750319CE578Q26852041-71AC0D61-E132-465E-8389-29F515620676Q27863914-0955BC38-E1E0-4607-BEB3-65036EF241E8Q28072725-88C4B906-2754-4799-963F-CA00B4D3C18EQ28258117-73B22E04-EA9A-4C4B-9C80-C3ABAE3C7977Q28511272-DAABB4DC-C039-4508-BA47-787EBF56894AQ30429992-D23BA2AB-BD1C-4914-A2D3-B14F79CF635EQ30432736-CE38DA89-92B6-422D-8898-AF9924A63922Q30806234-996B1F02-AFC6-4C84-A56F-B61E73E5F1B7Q33198296-E0DEBF7C-0172-4D06-8B80-B806A6F29AEAQ33284703-EF5E56EA-1344-42C9-BB02-1AF5769B3F02Q33492423-8556D1E9-C784-4242-8824-75B91F33C7D0Q33671461-3B33A71D-F264-4116-B0D0-6D0B35E31513Q33825190-AE36A7BC-8A5F-472F-8EED-D5F9DF845318Q33905803-214928AF-E3D7-4B5A-BDA5-F3F7699CA5F9Q34086567-E29BF215-8D09-4556-98B8-4F99849E8293Q34450543-0DD59526-B766-4DF6-8407-89913B371A70Q35048471-8612FA94-6DC5-4630-9C7B-5522C629750FQ35555683-D4526793-64B2-403E-A33B-6678A8BA799AQ35797008-D9C6F4F0-2BA2-4C60-9EAD-4485F086D8B7Q35878665-9EFBBE9E-E912-4969-8EA3-F4377F1FB466Q35993674-96BBA825-00B8-4812-AF58-F6B351D9E6A1Q36394674-24399F0C-9D0A-42F7-AF43-C93C39D83B93Q36516806-AE58A889-784D-4136-8767-DEC4EB6C2748Q36796117-F8E24577-8120-41B5-BB98-F3BB4A39BA0FQ36895502-1F7D2C44-C597-4575-8D37-82391A5D4D7BQ37066848-149C147A-7A15-41A4-936D-8192BD24E1C6Q37066906-959522E0-B0DB-4103-BE47-B65FB2F0EB35Q37125999-37DE6BF9-3B10-4C75-9BFE-5B4DF49CAA97Q37143861-1E05EC29-8A5D-4718-9056-6FB846F127FAQ37224066-104AFE2C-7CCE-4853-85DC-5F86782CE911Q37236295-3BC21F41-5CD1-4514-8E45-33BA1987A075Q37286330-EC65DD30-7986-4A2C-B7F7-B972564ECFE6Q37365285-3BF0F458-0074-4349-9B3F-61632F8E83DCQ37621734-594E7E16-FC02-4E1C-B6A8-1E665D13D5F0Q37735475-4FE70337-463E-4FF7-92FF-0C981B1D8FA8
P2860
Regulation of glucagon release in mouse -cells by KATP channels and inactivation of TTX-sensitive Na+ channels.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
Regulation of glucagon release ...... of TTX-sensitive Na+ channels.
@en
Regulation of glucagon release ...... of TTX-sensitive Na+ channels.
@nl
type
label
Regulation of glucagon release ...... of TTX-sensitive Na+ channels.
@en
Regulation of glucagon release ...... of TTX-sensitive Na+ channels.
@nl
prefLabel
Regulation of glucagon release ...... of TTX-sensitive Na+ channels.
@en
Regulation of glucagon release ...... of TTX-sensitive Na+ channels.
@nl
P2093
P2860
P1476
Regulation of glucagon release ...... of TTX-sensitive Na+ channels.
@en
P2093
P2860
P304
P356
10.1111/J.1469-7793.2000.00509.X
P407
P577
2000-11-01T00:00:00Z