127 results on '"Nenquin, Myriam"'
Search Results
2. In vitro insulin secretion by pancreatic tissue from infants with diazoxide-resistant congenital hyperinsulinism deviates from model predictions
3. Metabolic amplifying pathway increases both phases of insulin secretion independently of [beta]-cell actin microfilaments
4. Activators of PKA and Epac Distinctly Influence Insulin Secretion and Cytosolic Ca2+ in Female Mouse Islets Stimulated by Glucose and Tolbutamide
5. Glucose Stimulates Ca2+ Influx and Insulin Secretion in 2-Week-old β-Cells Lacking ATP-sensitive K+ Channels
6. Congenital Hyperinsulinism Caused by Hexokinase I Expression or Glucokinase-Activating Mutation in a Subset of β-Cells
7. cAMP-Mediated and Metabolic Amplification of Insulin Secretion Are Distinct Pathways Sharing Independence of β-Cell Microfilaments
8. Glucose Controls Cytosolic Ca2+ and Insulin Secretion in Mouse Islets Lacking Adenosine Triphosphate-Sensitive K+ Channels Owing to a Knockout of the Pore-Forming Subunit Kir6.2
9. Nutrient Control of Insulin Secretion in Isolated Normal Human Islets
10. In Vivo and In Vitro Glucose-Induced Biphasic Insulin Secretion in the Mouse: Pattern and Role of Cytoplasmic Ca2+ and Amplification Signals in β-Cells
11. No evidence for a role of reverse Na+-Ca2+ exchange in insulin release from mouse pancreatic islets
12. SERCA3 Ablation Does Not Impair Insulin Secretion but Suggests Distinct Roles of Different Sarcoendoplasmic Reticulum Ca2+ Pumps for Ca2+ Homeostasis in Pancreatic β-cells
13. Signals and Pools Underlying Biphasic Insulin Secretion
14. Inhibition of Protein Synthesis Sequentially Impairs Distinct Steps of Stimulus-secretion Coupling in Pancreatic β Cells*
15. Tolbutamide and Diazoxide Influence Insulin Secretion by Changing the Concentration but Not the Action of Cytoplasmic Ca sup 2+ in beta-Cells
16. Tolbutamide and diazoxide influence insulin secretion by changing the concentration but not the action of cytoplasmic Ca2+ in beta-cells
17. Mechanisms of the stimulation of insulin release by saturated fatty acids: a study of palmitate effects in mouse beta-cells
18. Immaturity of insulin secretion by pancreatic islets isolated from one human neonate
19. Pharmacological approach to understanding the control of insulin secretion in human islets
20. Dynamics and Regulation of Insulin Secretion in Pancreatic Islets from Normal Young Children
21. Dynamics of glucose-induced insulin secretion in normal human islets
22. Immaturity of insulin secretion by pancreatic islets isolated from one human neonate.
23. Disruption and stabilization of β-cell actin microfilaments differently influence insulin secretion triggered by intracellular Ca 2+ mobilization or store-operated Ca 2+ entry
24. Inhibition of protein synthesis sequentially impairs distinct steps of stimulus-secretion coupling in pancreatic beta cells
25. Amplification of insulin secretion by acetylcholine or phorbol ester is independent of β-cell microfilaments and distinct from metabolic amplification
26. Disruption and stabilization of β‐cell actin microfilaments differently influence insulin secretion triggered by intracellular Ca2+ mobilization or store‐operated Ca2+ entry
27. Metabolic amplification of insulin secretion by glucose is independent of β-cell microtubules
28. Metabolic amplifying pathway increases both phases of insulin secretion independently of β-cell actin microfilaments
29. Glucose Controls Cytosolic Ca2+ and Insulin Secretion in Mouse Islets Lacking Adenosine Triphosphate-Sensitive K+ Channels Owing to a Knockout of the Pore-Forming Subunit Kir6.2
30. Insulin secretion in islets from mice with a double knockout for the dense core vesicle proteins islet antigen-2 (IA-2) and IA-2β
31. Glucose-induced Cytosolic pH Changes in β-Cells and Insulin Secretion Are Not Causally Related
32. Overnight Culture Unmasks Glucose-induced Insulin Secretion in Mouse Islets Lacking ATP-sensitive K+ Channels by Improving the Triggering Ca2+ Signal
33. Both Triggering and Amplifying Pathways Contribute to Fuel-induced Insulin Secretion in the Absence of Sulfonylurea Receptor-1 in Pancreatic β-Cells
34. The Elevation of Glutamate Content and the Amplification of Insulin Secretion in Glucose-stimulated Pancreatic Islets Are Not Causally Related
35. The Oscillatory Behavior of Pancreatic Islets from Mice with Mitochondrial Glycerol-3-phosphate Dehydrogenase Knockout
36. Unbound rather than total concentration and saturation rather than unsaturation determine the potency of fatty acids on insulin secretion
37. Relative contribution of Ca2+-dependent and Ca2+-independent mechanisms to the regulation of insulin secretion by glucose
38. Mechanisms of the Stimulation of Insulin Release by Saturated Fatty Acids: A Study of Palmitate Effects in Mouse β-cells
39. Disruption and stabilization of β-cell actin microfilaments differently influence insulin secretion triggered by intracellular Ca2+ mobilization or store-operated Ca2+ entry
40. Overnight Culture Unmasks Glucose-induced Insulin Secretion in Mouse Islets Lacking ATP-sensitive K+ Channels by Improving the Triggering Ca2+ Signal.
41. Glucose Stimulates Ca2+ Influx and Insulin Secretion in 2-Week-old β-CelIs Lacking ATP-sensitive K+ Channels.
42. In vivo and in vitro glucose-induced biphasic insulin secretion in the mouse: pattern and role of cytoplasmic Ca2+ and amplification signals in beta-cells.
43. SERCA3 ablation does not impair insulin secretion but suggests distinct roles of different sarcoendoplasmic reticulum Ca(2+) pumps for Ca(2+) homeostasis in pancreatic beta-cells.
44. Activators of PKA and Epac Distinctly Influence Insulin Secretion and Cytosolic Ca2+in Female Mouse Islets Stimulated by Glucose and Tolbutamide
45. Magnesium uptake by pancreatic islet cells is modulated by stimulators and inhibitors of the B-cell function.
46. Relative contribution of Ca 2+-dependent and Ca 2+-independent mechanisms to the regulation of insulin secretion by glucose
47. Stimulation of insulin release by benzoic acid derivatives related to the non-sulphonylurea moiety of glibenclamide: Structural requirements and cellular mechanisms
48. Dynamics of glucose-induced insulin secretion in normal human islets.
49. Metabolic amplification of insulin secretion by glucose is independent of β-cell microtubules.
50. Insulin secretion in islets from mice with a double knockout for the dense core vesicle proteins islet antigen-2 (IA-2) and IA-2beta.
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.