Regulation of calcium in pancreatic α- and β-cells in health and disease.
about
Glucagon secretion and signaling in the development of diabetesQuercetin induces insulin secretion by direct activation of L-type calcium channels in pancreatic beta cellsMembrane Potential and Calcium Dynamics in Beta Cells from Mouse Pancreas Tissue Slices: Theory, Experimentation, and AnalysisRedox homeostasis in pancreatic β cellsPhysiology of proglucagon peptides: role of glucagon and GLP-1 in health and diseaseGlucose-stimulated calcium dynamics in islets of Langerhans in acute mouse pancreas tissue slicesPolychlorinated biphenyls and links to cardiovascular diseaseLipotoxicity disrupts incretin-regulated human β cell connectivityImproving the physiological realism of experimental models.Assessment of re-aggregated human pancreatic islets for secondary drug screeningControl of insulin secretion by cholinergic signaling in the human pancreatic islet.Adipsin is an adipokine that improves β cell function in diabetes.Optical control of insulin release using a photoswitchable sulfonylureaWhole genome SNP genotyping and exome sequencing reveal novel genetic variants and putative causative genes in congenital hyperinsulinism.Progressive glucose stimulation of islet beta cells reveals a transition from segregated to integrated modular functional connectivity patterns.The relationship between membrane potential and calcium dynamics in glucose-stimulated beta cell syncytium in acute mouse pancreas tissue slices.Genome-wide DNA methylation analysis of human pancreatic islets from type 2 diabetic and non-diabetic donors identifies candidate genes that influence insulin secretion.Optogenetic control of insulin secretion by pancreatic β-cells in vitro and in vivo.The Anthocyanin Delphinidin 3-Rutinoside Stimulates Glucagon-Like Peptide-1 Secretion in Murine GLUTag Cell Line via the Ca2+/Calmodulin-Dependent Kinase II Pathway.Mathematical Modeling of Interacting Glucose-Sensing Mechanisms and Electrical Activity Underlying Glucagon-Like Peptide 1 SecretionPancreatic Beta Cell G-Protein Coupled Receptors and Second Messenger Interactions: A Systems Biology Computational AnalysisHigh cortisol in 5-year-old children causes loss of DNA methylation in SINE retrotransposons: a possible role for ZNF263 in stress-related diseases.Optogenetic control of insulin secretion in intact pancreatic islets with β-cell-specific expression of Channelrhodopsin-2.A computational systems analysis of factors regulating α cell glucagon secretion.Tolbutamide controls glucagon release from mouse islets differently than glucose: involvement of K(ATP) channels from both α-cells and δ-cells.Ion channels and regulation of insulin secretion in human β-cells: a computational systems analysisProtein malnutrition potentiates the amplifying pathway of insulin secretion in adult obese mice.Diminished adenosine A1 receptor expression in pancreatic α-cells may contribute to the pathology of type 1 diabetes.Modeling the pancreatic α-cell: dual mechanisms of glucose suppression of glucagon secretion.Uncoupling of Cav1.2 from Ca(2+)-induced Ca(2+) release and SK channel regulation in pancreatic β-cells.Imaging beta-cell mass and function in situ and in vivo.Npas4 Transcription Factor Expression Is Regulated by Calcium Signaling Pathways and Prevents Tacrolimus-induced Cytotoxicity in Pancreatic Beta CellsIdentification of an early transcriptomic signature of insulin resistance and related diseases in lymphomonocytes of healthy subjects.Glucose control of glucagon secretion-'There's a brand-new gimmick every year'.The Ia-2β intronic miRNA, miR-153, is a negative regulator of insulin and dopamine secretion through its effect on the Cacna1c gene in mice.Modulation of Ionic Channels and Insulin Secretion by Drugs and Hormones in Pancreatic Beta Cells.Evidence for Ca(2+)-regulated ATP release in gastrointestinal stromal tumorsLocal and regional control of calcium dynamics in the pancreatic islet.The triggering pathway to insulin secretion: Functional similarities and differences between the human and the mouse β cells and their translational relevance.cAMP-independent effects of GLP-1 on β cells.
P2860
Q21129250-733FA149-E3E4-42CF-B3BC-2F0DC13FCDF2Q24606210-5DB7F097-B766-445E-AC6F-A141929D17BFQ26777794-DFC29B53-3EA3-416D-8AE1-36167C4EA8B2Q27021930-0DEA0288-1763-4EEC-B579-9A8B21FF8035Q27027920-9FC7F09E-5927-475D-9737-58C93DE9F250Q27318567-B785957F-B22D-419C-8B78-27E3B992BB00Q28391417-17A50A18-8171-44DE-BA56-749011B49639Q30634760-BF56ACF8-D3CA-40B1-9F22-EF7D3411BDB7Q30714211-80A2F5B4-5EDB-4E0A-A4DB-6430134E18FFQ33746847-A3D5E3BF-6F60-4AA9-BEB2-B539A52C0DF1Q33959750-96E280BC-5D6B-4128-813F-CD7566E74070Q34025740-829019BB-97DA-421B-8D61-DCF94F91D787Q34397447-2213E469-91A4-4BE6-BB1A-1C12BA52D159Q34837985-970F32D3-8949-413E-A92D-EE907704CCFEQ34981003-6064FC4A-C79E-40CE-9820-28C4FC54F3D7Q35064162-73C4ADEC-15E5-4FB3-A93F-D9A350D6DBD6Q35112943-B0594BFF-BC91-4504-9CA4-919E2CD9DD65Q35586931-E78F0D4D-85B2-4DCA-995F-7EF166A40ECDQ35593684-77950FAA-724A-4959-B8A1-949D62CB579FQ35858749-36DA1D25-9F32-4F12-972C-3D2198C2613CQ36006492-E477C6B7-0796-4518-9A62-77D8F55D265FQ36024968-15650BAA-4297-4D56-AFBE-187C785A5F61Q36121997-EE3B56A0-BFD2-4950-B74B-B198534C71D4Q36394674-746A12A6-A78C-4FC6-ABFD-2278E3DC0307Q36796117-AF461536-186A-4A5F-9A55-195125E664F8Q36870356-81A83BD6-3139-47E9-86AE-75EB886FB37FQ37261033-8DA610A7-0806-448A-B243-1F37E3B3384BQ37333575-4A5A3B6E-308F-4515-970F-6465FB39E238Q37621734-A77923FE-E116-4A79-A887-D4EDCF3EDDFFQ37670109-6BBC97F9-B9C3-4F9D-B3AB-9D745D45EDCCQ38108757-CC0344EE-D0D6-449B-9D7B-BD7123339F10Q38265450-D550AEBF-68B9-43E5-B573-0C9FBC11703DQ38640616-BF7F31C5-7D88-4FBD-B724-4E4AE5147EFAQ38798115-247E4E15-3A05-43EF-B059-052D6C4DF018Q38856816-4042EDB2-F4E2-4B74-8709-63AC9C8B190EQ38902592-FE910047-9C3B-4424-8182-D7AB872302D1Q39180294-AD810764-3917-4030-8D01-74B152DD5C9CQ39280087-3A633257-6597-44EE-85BD-247B74C2FFACQ39405181-64313210-D895-42DC-BA80-51B3EDC44E59Q41775173-9B4B9D30-93BF-415E-8DCF-EB0FB43C9E25
P2860
Regulation of calcium in pancreatic α- and β-cells in health and disease.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Regulation of calcium in pancreatic α- and β-cells in health and disease.
@en
Regulation of calcium in pancreatic α- and β-cells in health and disease.
@nl
type
label
Regulation of calcium in pancreatic α- and β-cells in health and disease.
@en
Regulation of calcium in pancreatic α- and β-cells in health and disease.
@nl
prefLabel
Regulation of calcium in pancreatic α- and β-cells in health and disease.
@en
Regulation of calcium in pancreatic α- and β-cells in health and disease.
@nl
P2860
P921
P1433
P1476
Regulation of calcium in pancreatic α- and β-cells in health and disease.
@en
P2093
Matthias Braun
Quan Zhang
P2860
P304
P356
10.1016/J.CECA.2011.11.006
P5008
P577
2011-12-15T00:00:00Z