Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
about
Stress-activated protein kinase-3 interacts with the PDZ domain of alpha1-syntrophin. A mechanism for specific substrate recognitionVoltage-gated Nav channel targeting in the heart requires an ankyrin-G dependent cellular pathwayModulation of the cardiac sodium channel Nav1.5 by fibroblast growth factor homologous factor 1BMolecular cloning of an atypical voltage-gated sodium channel expressed in human heart and uterus: evidence for a distinct gene familyPrimary structure, chromosomal localization, and functional expression of a voltage-gated sodium channel from human brainPrimary structure and functional expression of the human cardiac tetrodotoxin-insensitive voltage-dependent sodium channelCardiac sodium channel Nav1.5 mutations and cardiac arrhythmiaProtein assemblies of sodium and inward rectifier potassium channels control cardiac excitability and arrhythmogenesisNa+ channel function, regulation, structure, trafficking and sequestrationDifferential expression of two sodium channel subtypes in human brainFunctional expression of the rat heart I Na+ channel isoform. Demonstration of properties characteristic of native cardiac Na+ channelsA single residue differentiates between human cardiac and skeletal muscle Na+ channel slow inactivationMouse heart Na+ channels: primary structure and function of two isoforms and alternatively spliced variantsIdentification of PN1, a predominant voltage-dependent sodium channel expressed principally in peripheral neuronsThe glial voltage-gated sodium channel: cell- and tissue-specific mRNA expressionAn antisense oligonucleotide against H1 inhibits the classical sodium current but not ICa(TTX) in rat ventricular cellsExpression pattern of neuronal and skeletal muscle voltage-gated Na+ channels in the developing mouse heartDinucleotide repeat polymorphisms at the SCN4A locus suggest allelic heterogeneity of hyperkalemic periodic paralysis and paramyotonia congenita.Voltage-gated sodium channel Nav 1.5 contributes to astrogliosis in an in vitro model of glial injury via reverse Na+ /Ca2+ exchange.Pharmacological characterisation of the highly NaV1.7 selective spider venom peptide Pn3a.Molecular determinants of drug access to the receptor site for antiarrhythmic drugs in the cardiac Na+ channel.Cloning of a sodium channel alpha subunit from rabbit Schwann cells.Effects of tetrodotoxin on the mammalian cardiovascular systemThe tetrodotoxin-resistant sodium channel SNS has a specialized function in pain pathways.Inherited disorders of voltage-gated sodium channels.Role of the C-terminal domain in inactivation of brain and cardiac sodium channelsMolecular surface of JZTX-V (β-Theraphotoxin-Cj2a) interacting with voltage-gated sodium channel subtype NaV1.4.Comparison of heterologously expressed human cardiac and skeletal muscle sodium channelsDistinct local anesthetic affinities in Na+ channel subtypesGating of cardiac Na+ channels in excised membrane patches after modification by alpha-chymotrypsin.State-dependent block underlies the tissue specificity of lidocaine action on batrachotoxin-activated cardiac sodium channels.An unexpected role for brain-type sodium channels in coupling of cell surface depolarization to contraction in the heart.Expressed Na channel clones differ in their sensitivity to external calcium concentration.Permeation of Na+ through open and Zn(2+)-occupied conductance states of cardiac sodium channels modified by batrachotoxin: exploring ion-ion interactions in a multi-ion channelCompetitive binding interaction between Zn2+ and saxitoxin in cardiac Na+ channels. Evidence for a sulfhydryl group in the Zn2+/saxitoxin binding site.A mutation in the pore of the sodium channel alters gating.Dynamics of sodium channel Nav1.5 expression in astrocytes in mouse models of multiple sclerosisStructural determinants of slow inactivation in human cardiac and skeletal muscle sodium channels.The roles of sodium channels in nociception: Implications for mechanisms of painModulation of cardiac Na+ channels expressed in a mammalian cell line and in ventricular myocytes by protein kinase C
P2860
Q22009443-228E64BE-5D63-4B7A-B214-931132BAFEECQ24305894-74991846-AEA0-40F5-8A5E-0A408200DFF9Q24313401-E4268464-65DC-4C22-B9D5-93DC84C95A70Q24336511-1ABDCB81-AB4A-488C-A582-5CD73AE56E76Q24337133-E6F1E14C-DF2D-403F-8B42-744A5EA257EEQ24563388-77B81F7C-2A05-4295-8F1C-B9B2E4FD2786Q26827778-E7C4E907-5A80-46A4-8DF3-AE751623523BQ26830051-F1BE1BB5-3222-4FA7-9797-DD0D8F2F5837Q27005721-E15B0DA8-435F-47D0-B847-AB4448EBDA28Q28210437-DD54CD4D-C7CF-4931-A2DE-8820ACE89580Q28330780-1274701A-EBDF-4FAF-ACE2-0AE1015CC53FQ28363700-38FE0447-53DF-4A47-9E96-2D44A2626A3DQ28504505-6F8D0E84-A608-4911-B315-0914B954D4E5Q28569751-10898C3F-F478-475B-9213-F2FCD48D7837Q28571448-AB226771-E9E9-4F54-AB10-217CD356F7C5Q28577039-7040A829-9892-4A95-AAD1-D9A44119DB6FQ28588673-5A200D0F-EF8B-41B4-9BEE-50E77E1B8594Q30501632-B80C11A4-FEC4-4A8C-B0DF-24F6BD292536Q30580969-7AC75584-053F-4368-AAC0-8814FFAC929BQ30835612-D9C47175-579A-4E80-B44C-FEA350C1593CQ33727908-82AD6ACD-B6DF-4801-AA0F-B652D7F35CE6Q33751644-1CB0D7D7-A0ED-4848-929B-9DA78DE28880Q33801118-2D115E29-C841-47B8-B709-DB6453655020Q33871067-5277718B-5D2F-45BC-A595-2ED738DAFD15Q33905815-4D7E1D56-B55D-4625-9694-F52349932D9FQ33953193-5699CE7D-267D-4DD5-B74D-106120B272CDQ33963196-041164C3-B3D6-4634-A0A6-768D2E6BD67BQ34016936-96065A6C-3D5E-42C5-BB4C-523D29E8EAF8Q34017596-1BB954C0-4120-4B04-97C8-029E63A65F0BQ34018174-CC874A63-152D-4C12-B816-0C206F1AB3F9Q34019301-340D68F6-F067-4EAE-B570-280BE08CFAB1Q34021734-8C7C98A7-3272-4E3E-A57D-F19A0A8F8A2FQ34088985-49CCBB9C-9C73-48A2-8AF4-B087976530AFQ34114964-33564A78-3669-4F0A-B2F2-483A3F5375EBQ34127152-7FF69F09-2D2F-4A5C-BDD8-77AB5D09D24EQ34129377-8F4AD542-8152-4450-93C6-5EA79538F70EQ34156496-1516C5D9-B621-48CB-BEFA-CF4C8E3A2387Q34171270-E422F1A4-183C-49AD-B5F0-0E1A3DCB8AE0Q34674268-C4373A1E-E281-4DEE-AA79-AF567C16491CQ35167168-7CE615E8-4FEF-4540-9EDB-67C1A1EC88E7
P2860
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
description
1989 nî lūn-bûn
@nan
1989 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1989 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
name
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@ast
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@en
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@nl
type
label
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@ast
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@en
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@nl
prefLabel
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@ast
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@en
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@nl
P2093
P2860
P356
P1476
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform.
@en
P2093
D D Kephart
L K Muglia
L L Cribbs
M W Kaiser
R B Rogart
P2860
P304
P356
10.1073/PNAS.86.20.8170
P407
P577
1989-10-01T00:00:00Z