114 results on '"Magoski, Neil S."'
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2. Modulation of a Calcium-Sensitive Nonspecific Cation Channel by Closely Associated Protein Kinase and Phosphatase Activities
3. Use-dependent facilitation of electrical transmission involves changes to postsynaptic K+ current.
4. Cholinergic depolarization recruits a persistent Ca2+ current in Aplysia bag cell neurons.
5. Hydrogen peroxide and phosphoinositide metabolites synergistically regulate a cation current to influence neuroendocrine cell bursting
6. Hydrogen Peroxide Gates a Voltage-Dependent Cation Current in Aplysia Neuroendocrine Cells
7. Ca2+-dependent regulation of a non-selective cation channel from Aplysia bag cell neurones
8. A Closely Associated Phospholipase C Regulates Cation Channel Function through Phosphoinositide Hydrolysis
9. Protein Kinase C Enhances Electrical Synaptic Transmission by Acting on Junctional and Postsynaptic Ca2+ Currents
10. Diacylglycerol‐mediated regulation of Aplysia bag cell neuron excitability requires protein kinase C
11. Diacylglycerol-mediated regulation ofAplysiabag cell neuron excitability requires protein kinase C
12. Ca2+ removal by the plasma membrane Ca2+-ATPase influences the contribution of mitochondria to activity-dependent Ca2+ dynamics in Aplysia neuroendocrine cells
13. Nicotine inhibits potassium currents in Aplysia bag cell neurons
14. Protein Kinase C Enhances Electrical Synaptic Transmission by Acting on Junctional and Postsynaptic Ca2+ Currents.
15. Ca2+-induced uncoupling of Aplysia bag cell neurons
16. Electrical coupling between Aplysia bag cell neurons: characterization and role in synchronous firing
17. Ca2+-dependent regulation of a non-selective cation channel from Aplysia bag cell neurones
18. A potentially novel nicotinic receptor inAplysianeuroendocrine cells
19. Decreased Response to Acetylcholine during Aging of Aplysia Neuron R15
20. Ca2+ removal by the plasma membrane Ca2+-ATPase influences the contribution of mitochondria to activity-dependent Ca2+ dynamics in Aplysia neuroendocrine cells.
21. Acetylcholine-evoked afterdischarge inAplysiabag cell neurons
22. Mitochondrial Ca2+Activates a Cation Current inAplysiaBag Cell Neurons
23. Persistent Ca2+Current Contributes to a Prolonged Depolarization inAplysiaBag Cell Neurons
24. Regulation of Cation Channel Voltage and Ca2+ Dependence by Multiple Modulators
25. Ca2+-Induced Ca2+Release inAplysiaBag Cell Neurons Requires Interaction Between Mitochondrial and Endoplasmic Reticulum Stores
26. Flufenamic Acid Affects Multiple Currents and Causes Intracellular Ca2+ Release in Aplysia Bag Cell Neurons
27. Activity-Dependent Initiation of a Prolonged Depolarization in Aplysia Bag Cell Neurons: Role for a Cation Channel
28. PKC Enhances the Capacity for Secretion by Rapidly Recruiting Covert Voltage-Gated Ca2+ Channels to the Membrane.
29. Ca2+-induced uncoupling of Aplysia bag cell neurons.
30. A Store-Operated Ca2+Influx Pathway in the Bag Cell Neurons ofAplysia
31. Ca2+-dependent regulation of a non-selective cation channel fromAplysiabag cell neurones
32. Association/Dissociation of a Channel–Kinase Complex Underlies State-Dependent Modulation
33. The Appearance of a Protein Kinase A-regulated Splice Isoform of slo Is Associated with the Maturation of Neurons That Control Reproductive Behavior
34. Prolonged Activation of Ca2+-Activated K+Current Contributes to the Long-Lasting Refractory Period ofAplysiaBag Cell Neurons
35. Protein Kinase Modulation of a Neuronal Cation Channel Requires Protein–Protein Interactions Mediated by an Src homology 3 Domain
36. Activation of a Ca2+‐permeable cation channel produces a prolonged attenuation of intracellular Ca2+release inAplysiabag cell neurones
37. A potentially novel nicotinic receptor in Aplysia neuroendocrine cells.
38. Dopamine Activates Two Different Receptors to Produce Variability in Sign at an Identified Synapse
39. Trophic and Contact Conditions Modulate Synapse Formation Between Identified Neurons
40. Direct and indirect regulation of a single ion channel
41. Separate Ca2+ Sources Are Buffered by Distinct Ca2+ Handling Systems in Aplysia Neuroendocrine Cells.
42. Persistent Ca2+ Current Contributes to a Prolonged Depolarization in Aplysia Bag Cell Neurons.
43. Ca2+-dependent regulation of a non-selective cation channel from Aplysia bag cell neurones.
44. Activation of a Ca2+-permeable cation channel produces a prolonged attenuation of intracellular Ca2+ release in Aplysia bag cell neurones.
45. Activation of a Ca2+‐permeable cation channel produces a prolonged attenuation of intracellular Ca2+release in Aplysiabag cell neurones
46. This Week in The Journal: Protein Kinase C Enhances Electrical Transmission in Aplysia.
47. Decreased Response to Acetylcholine during Aging of Aplysia Neuron R15.
48. The Appearance of a Protein Kinase A-regulated Splice Isoform of slo Is Associated with the Maturation of Neurons That Control Reproductive Behavior.
49. Use-dependent facilitation of electrical transmission involves changes to postsynaptic K + current.
50. Cholinergic depolarization recruits a persistent Ca 2+ current in Aplysia bag cell neurons.
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