about
Pharmacology of airway afferent nerve activityThe hitchhiker's guide to the voltage-gated sodium channel galaxyState-dependent action of grayanotoxin I on Na(+) channels in frog ventricular myocytesPresynaptic resurgent Na+ currents sculpt the action potential waveform and increase firing reliability at a CNS nerve terminal.Regional differences in nerve terminal Na+ channel subtype expression and Na+ channel-dependent glutamate and GABA release in rat CNS.Neurotoxins and their binding areas on voltage-gated sodium channels.Na+ channel-mediated Ca2+ entry leads to glutamate secretion in mouse neocortical preplate.Late cardiac sodium current can be assessed using automated patch-clampMedicinal history of North American Veratrum.From a pump to a pore: how palytoxin opens the gates.Zigadenus poisoning treated with atropine and dopamineRegional differences in the effects of isoflurane on neurotransmitter release.Merging Structural Motifs of Functionalized Amino Acids and α-Aminoamides Results in Novel Anticonvulsant Compounds with Significant Effects on Slow and Fast Inactivation of Voltage-gated Sodium Channels and in the Treatment of Neuropathic Pain.Bursting and calcium oscillations in pancreatic beta-cells: specific pacemakers for specific mechanisms.DOR activation inhibits anoxic/ischemic Na+ influx through Na+ channels via PKC mechanisms in the cortexDevelopment of a Rapid Throughput Assay for Identification of hNav1.7 Antagonist Using Unique Efficacious Sodium Channel Agonist, AntillatoxinIon channels and regulation of insulin secretion in human β-cells: a computational systems analysisNeurotransmitter regulation of c-fos and vasopressin gene expression in the rat supraoptic nucleus.Animal toxins influence voltage-gated sodium channel function.Veratridine produces distinct calcium response profiles in mouse Dorsal Root Ganglia neurons.Bringing new dimensions to drug discovery screening: impact of cellular stimulation technologies.Veratridine block of rat skeletal muscle Nav1.4 sodium channels in the inner vestibule.Comparison of aconitine-modified human heart (hH1) and rat skeletal (mu1) muscle Na+ channels: an important role for external Na+ ions.Early life adversity in piglets induces long-term upregulation of the enteric cholinergic nervous system and heightened, sex-specific secretomotor neuron responses.Intrathecal veratridine administration increases minimum alveolar concentration in rats.Sodium channels as targets for volatile anestheticsIn vivo evaluation of antimyotonic efficacy of β-adrenergic drugs in a rat model of myotonia.Expression of skeletal muscle Na(V)1.4 Na channel isoform in canine cardiac Purkinje myocytes.Alkaloids from Veratrum taliense Exert Cardiovascular Toxic Effects via Cardiac Sodium Channel Subtype 1.5.Comprehensive review of cardiovascular toxicity of drugs and related agents.Voltage-Gated Sodium Channels as Insecticide Targets.Sodium Channel-Dependent and -Independent Mechanisms Underlying Axonal Afterdepolarization at Mouse Hippocampal Mossy Fibers
P2860
Q24792133-E9661D5A-4C2D-4285-BDE3-5C1245875A84Q26771787-DC1DF268-9CE1-448B-971B-42D4E2F7B5C2Q28345152-E6D40635-461D-4C2B-A612-62DE7B493E6AQ30499407-2658A3E0-DCF2-4514-AAE4-37FED8BD6354Q34039148-E4E7C4AB-A291-42FC-847B-EF79F01975CBQ34232755-FCC42B13-EAF8-4588-9140-9D61A59D63D0Q34244894-F5435FF9-EA6E-4F2C-98D8-1326B97C419CQ34433632-BC9E1FA3-335E-4D37-8DE4-7EAF21353515Q34441529-6486CE77-B2D4-4611-AF23-562EF2A3A7CEQ34469407-D1A86489-B271-4B35-8BE6-6E2AB94AAC6AQ35010503-2A74BF55-8ACB-4851-B8ED-AF1CCF9E8B73Q35087505-A46E2ECE-5E4A-4E81-BEFA-86912499383AQ35099293-3C939FDC-D034-47E5-9F66-FC3122507A13Q36093228-1C610508-E0D5-4E5B-9B2A-51F1C438EE60Q36301628-4D99EAE5-6565-4B3D-80BE-2D16EE89171AQ36633107-B6F62738-A9B7-47E1-8182-65985714BFB4Q36870356-2B3E046C-5C50-4238-B130-A54D5965F857Q37344762-1B0F4A8B-104F-4F30-8A48-118C4D4070B5Q38204930-AEDF795F-6CB5-4569-B3D9-8989E8E4E1F2Q38880243-EB5096FE-12C0-449C-AC7C-98C2A10B2AD7Q39126913-CCFDBDB5-09E1-46A3-B5A4-F8AF2DA808D3Q40665411-5EB71277-BF2F-47A0-A09A-C1C1D7EFF610Q40752935-96E718C3-FEFE-4005-BE1F-B75D1AAE0828Q40961305-98B2E1FB-9842-438D-AEEB-D5F3C64B87EBQ41649379-B8478371-073C-4964-9658-A3F9BBF4670BQ41956489-5757E79F-A98B-4C3A-A70E-C8559656D96DQ42742246-029525A8-9AB1-4BE9-AE75-04E20AFCF16FQ42857299-9EB89A57-BD5C-4B04-9FFB-04C6D47A6619Q43066439-F5E4616A-2F38-4ABF-A47B-1580B8564D39Q47556269-2D88C940-2566-48E8-8B91-6943087B3499Q55280224-D3B07C4A-495B-4F74-B56F-E526F0A4502AQ58710987-DD6F4D46-C30B-44AA-BCFC-8EF91B4D30C9
P2860
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年学术文章
@wuu
1998年学术文章
@zh-cn
1998年学术文章
@zh-hans
1998年学术文章
@zh-my
1998年学术文章
@zh-sg
1998年學術文章
@yue
1998年學術文章
@zh
1998年學術文章
@zh-hant
name
Effects of veratridine on sodium currents and fluxes.
@en
Effects of veratridine on sodium currents and fluxes.
@nl
type
label
Effects of veratridine on sodium currents and fluxes.
@en
Effects of veratridine on sodium currents and fluxes.
@nl
prefLabel
Effects of veratridine on sodium currents and fluxes.
@en
Effects of veratridine on sodium currents and fluxes.
@nl
P356
P1476
Effects of veratridine on sodium currents and fluxes
@en
P2093
W Ulbricht
P2888
P356
10.1007/BFB0000612
P577
1998-01-01T00:00:00Z