| scholarly article | Q13442814 |
| P50 | author | Eric C. Beyer | Q37370738 |
| P2093 | author name string | Xianming Lin | |
| Joanna Gemel | |||
| Aaron Glass | |||
| Christian W Zemlin | |||
| Richard D Veenstra | |||
| P2860 | cites work | Functional Characterization of aGJA1Frameshift Mutation Causing Oculodentodigital Dysplasia and Palmoplantar Keratoderma | Q60585241 |
| Heterogeneous Expression of Gap Junction Channels in the Heart Leads to Conduction Defects and Ventricular Dysfunction | Q63425482 | ||
| Expression of multiple connexins in cultured neonatal rat ventricular myocytes | Q72553617 | ||
| Gap junction protein connexin40 is preferentially expressed in vascular endothelium and conductive bundles of rat myocardium and is increased under hypertensive conditions | Q72560527 | ||
| Gap junction localization and connexin expression in cytochemically identified endothelial cells of arterial tissue | Q73248772 | ||
| Differential expression of gap junction proteins in the canine sinus node | Q74405494 | ||
| Association of human connexin40 gene polymorphisms with atrial vulnerability as a risk factor for idiopathic atrial fibrillation | Q80422539 | ||
| Basic Mechanisms of Cardiac Impulse Propagation and Associated Arrhythmias | Q22337019 | ||
| Somatic mutations in the connexin 40 gene (GJA5) in atrial fibrillation | Q24294428 | ||
| Connexin40 imparts conduction heterogeneity to atrial tissue | Q28508423 | ||
| Unique conductance, gating, and selective permeability properties of gap junction channels formed by connexin40 | Q28584221 | ||
| Functional properties of mouse connexin30.2 expressed in the conduction system of the heart | Q28586647 | ||
| Mice lacking connexin40 have cardiac conduction abnormalities characteristic of atrioventricular block and bundle branch block | Q28588926 | ||
| Cardiac conduction abnormalities in mice lacking the gap junction protein connexin40 | Q28591560 | ||
| Reduced cardiac conduction velocity and predisposition to arrhythmias in connexin40-deficient mice | Q28593966 | ||
| A cardiac sodium channel mutation cosegregates with a rare connexin40 genotype in familial atrial standstill | Q33148470 | ||
| Chamber-related differences in connexin expression in the human heart. | Q33862875 | ||
| A subpopulation of cells with unique electrophysiological properties in the deep subepicardium of the canine ventricle. The M cell | Q34108342 | ||
| Voltage-dependent blockade of connexin40 gap junctions by spermine | Q34180081 | ||
| Differential distribution of cardiac ion channel expression as a basis for regional specialization in electrical function | Q34642598 | ||
| Gap junction channel gating | Q35700096 | ||
| Biophysical properties of homomeric and heteromultimeric channels formed by cardiac connexins | Q35749969 | ||
| Effect of transjunctional KCl gradients on the spermine inhibition of connexin40 gap junctions | Q35851014 | ||
| Enhancement of ventricular gap-junction coupling by rotigaptide | Q36952968 | ||
| Dynamic model for ventricular junctional conductance during the cardiac action potential | Q37364303 | ||
| Focal gap junction uncoupling and spontaneous ventricular ectopy. | Q37374412 | ||
| Voltage clamp limitations of dual whole-cell gap junction current and voltage recordings. I. Conductance measurements | Q40182890 | ||
| Action potential modulation of connexin40 gap junctional conductance | Q40604455 | ||
| pH-dependent intramolecular binding and structure involving Cx43 cytoplasmic domains | Q44085071 | ||
| Amino terminal glutamate residues confer spermine sensitivity and affect voltage gating and channel conductance of rat connexin40 gap junctions | Q44859209 | ||
| A dynamic model of the cardiac ventricular action potential. I. Simulations of ionic currents and concentration changes | Q46410988 | ||
| Restricted distribution of connexin40, a gap junctional protein, in mammalian heart. | Q46544653 | ||
| Opposite voltage gating polarities of two closely related connexins | Q49110748 | ||
| Relative contributions of connexins 40 and 43 to atrial impulse propagation in synthetic strands of neonatal and fetal murine cardiomyocytes. | Q50710952 | ||
| Conduction disturbances and increased atrial vulnerability in Connexin40-deficient mice analyzed by transesophageal stimulation. | Q51469223 | ||
| Mathematical analysis of canine atrial action potentials: rate, regional factors, and electrical remodeling. | Q52073425 | ||
| Selectivity of connexin-specific gap junctions does not correlate with channel conductance. | Q52204658 | ||
| Regulation of connexin43 gap junctional conductance by ventricular action potentials. | Q53919217 | ||
| Distinct gap junction protein phenotypes in cardiac tissues with disparate conduction properties. | Q54193717 | ||
| P433 | issue | 1 | |
| P304 | page(s) | 238-245 | |
| P577 | publication date | 2009-05-30 | |
| P1433 | published in | Journal of Molecular and Cellular Cardiology | Q2061932 |
| P1476 | title | Connexin40 and connexin43 determine gating properties of atrial gap junction channels | |
| P478 | volume | 48 |
| Q36260268 | Acetylation mediates Cx43 reduction caused by electrical stimulation |
| Q39145011 | An atrial-fibrillation-linked connexin40 mutant is retained in the endoplasmic reticulum and impairs the function of atrial gap-junction channels |
| Q38039083 | An introduction to murine models of atrial fibrillation |
| Q35922458 | Atrial Anti-Arrhythmic Effects of Heptanol in Langendorff-Perfused Mouse Hearts |
| Q38795205 | Atrial fibrillation-associated connexin40 mutants make hemichannels and synergistically form gap junction channels with novel properties |
| Q95851347 | Circulating extracellular vesicles from patients with acute chest syndrome disrupt adherens junctions between endothelial cells |
| Q93105156 | Connecting Exosomes and Connexins |
| Q45872188 | Connexin 43 gene therapy prevents persistent atrial fibrillation in a porcine model |
| Q36958996 | Connexin diversity in the heart: insights from transgenic mouse models |
| Q34604320 | Connexin40 abnormalities and atrial fibrillation in the human heart |
| Q47770967 | Connexins in Cardiovascular and Neurovascular Health and Disease: Pharmacological Implications |
| Q34055972 | Degradation of a connexin40 mutant linked to atrial fibrillation is accelerated. |
| Q41279312 | Functional formation of heterotypic gap junction channels by connexins-40 and -43. |
| Q35993730 | Gating of connexin 43 gap junctions by a cytoplasmic loop calmodulin binding domain. |
| Q39830669 | Histone deacetylase inhibition reduces cardiac connexin43 expression and gap junction communication. |
| Q36410895 | Inducible coexpression of connexin37 or connexin40 with connexin43 selectively affects intercellular molecular transfer |
| Q36260699 | Intermittent hypoxia causes NOX2-dependent remodeling of atrial connexins |
| Q37690877 | Localisation Microscopy of Breast Epithelial ErbB-2 Receptors and Gap Junctions: Trafficking after γ-Irradiation, Neuregulin-1β, and Trastuzumab Application. |
| Q38190331 | Mix and match: investigating heteromeric and heterotypic gap junction channels in model systems and native tissues |
| Q47263257 | Newly Identified NO-Sensor Guanylyl Cyclase/Connexin 43 Association Is Involved in Cardiac Electrical Function |
| Q40482937 | Note on a possible proarrhythmic property of antiarrhythmic drugs aimed at improving gap-junction coupling. |
| Q28679989 | Prediction of gene-phenotype associations in humans, mice, and plants using phenologs |
| Q35693797 | Residual Cx45 and its relationship to Cx43 in murine ventricular myocardium |
| Q38764348 | Specificity of the connexin W3/4 locus for functional gap junction formation |
| Q37294982 | The presence of two rare genomic syndromes, 1q21 deletion and Xq28 duplication, segregating independently in a family with intellectual disability |
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