Compounds > veratridine
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veratridine and dibucaine

veratridine has been researched along with dibucaine in 4 studies

Research

Studies (4)

TimeframeStudies, this research(%)All Research%
pre-19902 (50.00)18.7374
1990's0 (0.00)18.2507
2000's2 (50.00)29.6817
2010's0 (0.00)24.3611
2020's0 (0.00)2.80

Authors

AuthorsStudies
Balerna, M; Chicheportiche, R; Fosset, M; Lazdunski, M; Lenoir, MC; Schweitz, H; Vincent, JP1
Cohen-Armon, M; Sokolovsky, M1
Benoit, E; Charpentier, G; Kado, R; Luzzati, V; Mateu, L; Vachette, P1
Beart, PM; Callaway, JK; Giardina, SF; Jarrott, B1

Other Studies

4 other study(ies) available for veratridine and dibucaine

ArticleYear
Molecular mechanism of cardiotoxin action on axonal membranes.
    Biochemistry, 1976, Jul-27, Volume: 15, Issue:15

    Topics: 4-Nitrophenylphosphatase; Adenosine Triphosphatases; Axons; Brachyura; Calcium; Detergents; Dibucaine; Heart; Kinetics; Membranes; Peptides; Potassium; Protein Binding; Snake Venoms; Sodium; Veratridine

1976
Interactions between the muscarinic receptors, sodium channels, and guanine nucleotide-binding protein(s) in rat atria.
    The Journal of biological chemistry, 1986, Sep-25, Volume: 261, Issue:27

    Topics: Acetylcholine; Animals; Batrachotoxins; Benzilates; Carbachol; Dibucaine; Dose-Response Relationship, Drug; GTP-Binding Proteins; Guanylyl Imidodiphosphate; Heart Atria; Ion Channels; Kinetics; Male; Mathematics; Myocardium; Oxotremorine; Piperidines; Rats; Receptors, Muscarinic; Sodium; Veratridine

1986
Physical structure of the excitable membrane of unmyelinated axons: X-ray scattering study and electrophysiological properties of pike olfactory nerve.
    Journal of molecular biology, 2000, Nov-17, Volume: 304, Issue:1

    Topics: Anesthetics, Local; Animals; Axons; Cell Membrane; Cytoplasm; Dibucaine; Electrophysiology; Esocidae; Microtubules; Molecular Conformation; Myelin Sheath; Olfactory Nerve; Potassium Chloride; Statistics as Topic; Synchrotrons; Temperature; Tetracaine; Tetrodotoxin; Veratridine; X-Ray Diffraction

2000
Incorporation of sodium channel blocking and free radical scavenging activities into a single drug, AM-36, results in profound inhibition of neuronal apoptosis.
    British journal of pharmacology, 2001, Volume: 132, Issue:8

    Topics: Animals; Apoptosis; Cell Survival; Cells, Cultured; Depression, Chemical; Dibucaine; DNA Fragmentation; Electrophoresis, Agar Gel; Free Radical Scavengers; Immunohistochemistry; In Situ Nick-End Labeling; Mice; Neurons; Neuroprotective Agents; Piperazines; Sodium Channel Agonists; Sodium Channel Blockers; Tetrodotoxin; Veratridine

2001