scholarly article | Q13442814 |
P356 | DOI | 10.1152/AJPHEART.00644.2001 |
P698 | PubMed publication ID | 11834499 |
P50 | author | Christian Bollensdorff | Q47147700 |
P2093 | author name string | Klaus Benndorf | |
Thomas Zimmer | |||
Eckhard Birch-Hirschfeld | |||
Volker Haufe | |||
P2860 | cites work | Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches | Q22337395 |
Molecular cloning of an atypical voltage-gated sodium channel expressed in human heart and uterus: evidence for a distinct gene family | Q24336511 | ||
Primary structure and functional expression of the human cardiac tetrodotoxin-insensitive voltage-dependent sodium channel | Q24563388 | ||
Primary structure of the adult human skeletal muscle voltage‐dependent sodium channel | Q28210170 | ||
On/off regulation of gene expression at the level of splicing | Q28281812 | ||
Characterization of sodium channel alpha- and beta-subunits in rat and mouse cardiac myocytes | Q28580912 | ||
Inactivation of sodium channels in isolated myocardial mouse cells. | Q30321569 | ||
Modulation of cardiac Na+ current phenotype by beta1-subunit expression | Q32031304 | ||
Alterations of sodium channel kinetics and gene expression in the postinfarction remodeled myocardium | Q32090022 | ||
Cellular and molecular biology of voltage-gated sodium channels | Q34238906 | ||
Molecular cloning of a putative tetrodotoxin-resistant rat heart Na+ channel isoform | Q34314458 | ||
Alternative splicing of the sodium channel SCN8A predicts a truncated two-domain protein in fetal brain and non-neuronal cells. | Q34439038 | ||
Expression of diverse Na+ channel messenger RNAs in rat myocardium. Evidence for a cardiac-specific Na+ channel | Q34577727 | ||
Functional association of the beta 1 subunit with human cardiac (hH1) and rat skeletal muscle (mu 1) sodium channel alpha subunits expressed in Xenopus oocytes | Q36435670 | ||
Structure and function of voltage-sensitive ion channels | Q38193558 | ||
Alternative splicing in the control of gene expression | Q38763422 | ||
Inactivation of single cardiac Na+ channels in three different gating modes | Q40129475 | ||
Developmentally regulated alternative RNA splicing of rat brain sodium channel mRNAs | Q40507940 | ||
Electrophysiological characteristics of cloned skeletal and cardiac muscle sodium channels | Q41180157 | ||
Splicing together the unfolded-protein response | Q41397066 | ||
Effect of tetrodotoxin on action potentials of the conducting system in the dog heart | Q41533455 | ||
Properties of single cardiac Na channels at 35 degrees C | Q41937368 | ||
Primary structure and functional expression of a mammalian skeletal muscle sodium channel | Q42189395 | ||
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Characterization of the sodium current in single human atrial myocytes | Q44230496 | ||
A persistent sodium current in rat ventricular myocytes | Q46623765 | ||
Calcium channel splicing: mind your Ps and Qs. | Q48213744 | ||
The cloned cardiac Na channel alpha-subunit expressed in Xenopus oocytes show gating and blocking properties of native channels | Q48428161 | ||
A mutant of TTX-resistant cardiac sodium channels with TTX-sensitive properties | Q48479782 | ||
Sodium current in single myocardial mouse cells. | Q51828035 | ||
Sodium Currents in Segments of Human Heart Cells | Q51854329 | ||
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Multiple levels of native cardiac Na+ channels at elevated temperature measured with high-bandwidth/low-noise patch clamp. | Q54052489 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Sodium channel, voltage-gated, type IV, alpha | Q14905713 |
Sodium channel, voltage-gated, type V, alpha | Q14905733 | ||
P304 | page(s) | H1007–1017 | |
P577 | publication date | 2002-03-01 | |
P1433 | published in | American Journal of Physiology Heart and Circulatory Physiology | Q3193662 |
P1476 | title | Mouse heart Na+ channels: primary structure and function of two isoforms and alternatively spliced variants | |
P478 | volume | 282 |
Q48651379 | A slowly inactivating sodium current (INa2) in the plateau range in canine cardiac Purkinje single cells |
Q33796526 | Alternative splicing of Na(V)1.7 exon 5 increases the impact of the painful PEPD mutant channel I1461T. |
Q33892566 | Alternative splicing of the cardiac sodium channel creates multiple variants of mutant T1620K channels |
Q37936683 | Biology of cardiac sodium channel Nav1.5 expression |
Q36989039 | Cardiac expression of skeletal muscle sodium channels increases longitudinal conduction velocity in the canine 1-week myocardial infarction. |
Q38201409 | Cardiac potassium channel subtypes: new roles in repolarization and arrhythmia |
Q38115058 | Cardiac sodium transport and excitation-contraction coupling |
Q37670013 | Characterization of a novel BmαTX47 toxin modulating sodium channels: the crucial role of expression vectors in toxin pharmacological activity |
Q37187840 | DIFFERENCES IN IONIC CURRENTS BETWEEN CANINE MYOCARDIAL AND PURKINJE CELLS. |
Q34435132 | Distribution and functional characterization of human Nav1.3 splice variants |
Q46601491 | Electrophysiological and molecular identification of voltage-gated sodium channels in murine vascular myocytes |
Q42782031 | Electrophysiological properties of mouse and epitope-tagged human cardiac sodium channel Na v1.5 expressed in HEK293 cells. |
Q42857299 | Expression of skeletal muscle Na(V)1.4 Na channel isoform in canine cardiac Purkinje myocytes. |
Q28588673 | Expression pattern of neuronal and skeletal muscle voltage-gated Na+ channels in the developing mouse heart |
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Q36787316 | Increased late sodium current contributes to long QT-related arrhythmia susceptibility in female mice |
Q26829681 | Ion Channels in the Heart |
Q33290470 | Molecular cloning and analysis of zebrafish voltage-gated sodium channel beta subunit genes: implications for the evolution of electrical signaling in vertebrates |
Q47932254 | Molecular expression of multiple Nav1.5 splice variants in the frontal lobe of the human brain. |
Q33828302 | Multiple Nav1.5 isoforms are functionally expressed in the brain and present distinct expression patterns compared with cardiac Nav1.5. |
Q34536165 | Neuronal differentiation of human mesenchymal stem cells: changes in the expression of the Alzheimer's disease-related gene seladin-1. |
Q37304434 | Novel isoforms of the sodium channels Nav1.8 and Nav1.5 are produced by a conserved mechanism in mouse and rat. |
Q82029865 | Periodic paralysis |
Q37101362 | Post-partum variation in the expression of paternal care is unrelated to urinary steroid metabolites in marmoset fathers |
Q38694637 | Predicting QRS and PR interval prolongations in humans using nonclinical data. |
Q45930155 | Pyramidal cells of rodent presubiculum express a tetrodotoxin-insensitive Na+ current. |
Q34188064 | Reactive oxygen species suppress cardiac NaV1.5 expression through Foxo1. |
Q37687456 | Repolarization of the cardiac action potential. Does an increase in repolarization capacity constitute a new anti-arrhythmic principle? |
Q44978747 | Requirement of neuronal- and cardiac-type sodium channels for murine sinoatrial node pacemaking |
Q24294528 | Sodium channel Scn1b null mice exhibit prolonged QT and RR intervals |
Q34469251 | Sodium current properties of primary skeletal myocytes and cardiomyocytes derived from different mouse strains. |
Q28279905 | Structure and function of splice variants of the cardiac voltage-gated sodium channel Na(v)1.5 |
Q28214636 | Structure of the sodium channel gene SCN11A: evidence for intron-to-exon conversion model and implications for gene evolution |
Q42152097 | The intracellular domain of the beta 2 subunit modulates the gating of cardiac Na v 1.5 channels |
Q37303962 | The sodium channel Nav1.5a is the predominant isoform expressed in adult mouse dorsal root ganglia and exhibits distinct inactivation properties from the full-length Nav1.5 channel. |
Q38972172 | Transmural gradients in ion channel and auxiliary subunit expression |
Q35667228 | Voltage-gated Na+ channels: multiplicity of expression, plasticity, functional implications and pathophysiological aspects |
Q38381248 | Voltage-gated sodium channels in the mammalian heart |
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