| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/S00232-007-9046-8 |
| P698 | PubMed publication ID | 17661127 |
| P2093 | author name string | Nicholas J Severs | |
| Emmanuel Dupont | |||
| Robert Weingart | |||
| Thomas Desplantez | |||
| P2860 | cites work | Basic Mechanisms of Cardiac Impulse Propagation and Associated Arrhythmias | Q22337019 |
| Gating properties of heterotypic gap junction channels formed of connexins 40, 43, and 45. | Q24675707 | ||
| Cardiac connexins Cx43 and Cx45: formation of diverse gap junction channels with diverse electrical properties | Q28574578 | ||
| Gap junction channels formed by coexpressed connexin40 and connexin43 | Q28576324 | ||
| Emerging issues of connexin channels: biophysics fills the gap. | Q30167614 | ||
| Three-dimensional reconstruction of the rabbit atrioventricular conduction axis by combining histological, desmin, and connexin mapping data | Q30892809 | ||
| Altered patterns of gap junction distribution in ischemic heart disease. An immunohistochemical study of human myocardium using laser scanning confocal microscopy | Q33237793 | ||
| Gap junction distribution in adult mammalian myocardium revealed by an anti-peptide antibody and laser scanning confocal microscopy | Q33240036 | ||
| Chamber-related differences in connexin expression in the human heart. | Q33862875 | ||
| Species-specific voltage-gating properties of connexin-45 junctions expressed in Xenopus oocytes | Q33907175 | ||
| Gating of mammalian cardiac gap junction channels by transjunctional voltage | Q34091471 | ||
| Biophysical properties of gap junction channels formed by mouse connexin40 in induced pairs of transfected human HeLa cells | Q34129586 | ||
| Structural and functional diversity of connexin genes in the mouse and human genome | Q34137753 | ||
| Immunocytochemical analysis of connexin expression in the healthy and diseased cardiovascular system | Q34141781 | ||
| Heterotypic docking of Cx43 and Cx45 connexons blocks fast voltage gating of Cx43 | Q34176322 | ||
| Quantitative analysis of dual whole-cell voltage-clamp determination of gap junctional conductance | Q34465625 | ||
| Connexin30.2 containing gap junction channels decelerate impulse propagation through the atrioventricular node | Q34596202 | ||
| Diversity of connexin expression patterns in the atrioventricular node: vestigial consequence or functional specialization? | Q34728775 | ||
| Remodelling of gap junctions and connexin expression in heart disease | Q35700153 | ||
| Gap junction alterations in human cardiac disease. | Q35750004 | ||
| Kinetic properties of a voltage-dependent junctional conductance | Q36408444 | ||
| Biophysical properties of connexin-45 gap junction hemichannels studied in vertebrate cells | Q36445082 | ||
| Alterations in cardiac connexin expression in cardiomyopathies | Q36463264 | ||
| The spatial distribution and relative abundance of gap-junctional connexin40 and connexin43 correlate to functional properties of components of the cardiac atrioventricular conduction system | Q36754421 | ||
| Formation of heteromeric gap junction channels by connexins 40 and 43 in vascular smooth muscle cells | Q37213790 | ||
| The cardiac gap junction and intercalated disc | Q38141923 | ||
| Cardiac electrophysiology in the light of recent morphological findings | Q40048069 | ||
| Junctional intercellular communication: the cell-to-cell membrane channel | Q40126503 | ||
| Cx40 and Cx43 expression ratio influences heteromeric/ heterotypic gap junction channel properties | Q40733455 | ||
| Voltage-dependent gating of gap junction channels in embryonic chick ventricular cell pairs | Q41229088 | ||
| Properties of gap junction channels formed of connexin 45 endogenously expressed in human hepatoma (SKHep1) cells | Q41378023 | ||
| Gap junction shape and orientation at the cardiac intercalated disk | Q41998307 | ||
| Conductances and selective permeability of connexin43 gap junction channels examined in neonatal rat heart cells | Q42654756 | ||
| Connexin43 and connexin45 form heteromeric gap junction channels in which individual components determine permeability and regulation | Q44011981 | ||
| Restricted distribution of connexin40, a gap junctional protein, in mammalian heart. | Q46544653 | ||
| Differential connexin distribution accommodates cardiac function in different species | Q46690042 | ||
| Architectural and functional asymmetry of the His-Purkinje system of the murine heart. | Q47352047 | ||
| Connexin 43 expression and distribution in compensated and decompensated cardiac hypertrophy in patients with aortic stenosis | Q47741490 | ||
| Mathematical model of vertebrate gap junctions derived from electrical measurements on homotypic and heterotypic channels | Q47977183 | ||
| Relative contributions of connexins 40 and 43 to atrial impulse propagation in synthetic strands of neonatal and fetal murine cardiomyocytes. | Q50710952 | ||
| The electrophysiology of gap junctions and gap junction channels and their mathematical modelling. | Q52023273 | ||
| The diffusion of radiopotassium across intercalated disks of mammalian cardiac muscle. | Q54704648 | ||
| Distribution and three-dimensional structure of intercellular junctions in canine myocardium | Q69485568 | ||
| Reduced content of connexin43 gap junctions in ventricular myocardium from hypertrophied and ischemic human hearts | Q70470418 | ||
| The electrical constants of Purkinje fibres | Q72990538 | ||
| Gap junction remodeling and altered connexin43 expression in the failing human heart | Q73085637 | ||
| Altered connexin expression in human congestive heart failure | Q73404402 | ||
| Formation of heterotypic gap junction channels by connexins 40 and 43 | Q73427333 | ||
| Electrical conductance of mouse connexin45 gap junction channels is modulated by phosphorylation | Q74059547 | ||
| Electrical properties of gap junction hemichannels identified in transfected HeLa cells | Q74211772 | ||
| Connexin45 (alpha 6) expression delineates an extended conduction system in the embryonic and mature rodent heart | Q74609476 | ||
| Heterotypic gap junction channel formation between heteromeric and homomeric Cx40 and Cx43 connexons | Q74618902 | ||
| Expression and regulation of connexins in cultured ventricular myocytes isolated from adult rat hearts | Q77755012 | ||
| Connexin45, a major connexin of the rabbit sinoatrial node, is co-expressed with connexin43 in a restricted zone at the nodal-crista terminalis border | Q77901217 | ||
| Junctional communication between isolated pairs of canine atrial cells is mediated by homogeneous and heterogeneous gap junction channels | Q78021026 | ||
| Heterogeneous loss of connexin43 protein in nonischemic dilated cardiomyopathy with ventricular tachycardia | Q78375776 | ||
| Up-regulation of connexin45 in heart failure | Q79369581 | ||
| Intercellular Communication: Renal, Urinary Bladder, Sensory, and Salivary Gland Cells | Q81203869 | ||
| P433 | issue | 1-3 | |
| P1104 | number of pages | 16 | |
| P304 | page(s) | 13-28 | |
| P577 | publication date | 2007-07-28 | |
| P1433 | published in | Journal of Membrane Biology | Q6295550 |
| P1476 | title | Gap junction channels and cardiac impulse propagation | |
| P478 | volume | 218 |
| Q44282411 | Activation of RISK and SAFE pathways is not involved in the effects of Cx43 deficiency on tolerance to ischemia-reperfusion injury and preconditioning protection. |
| Q50735272 | Advantage of four-electrode over two-electrode defibrillators. |
| Q27319376 | An electrostatic mechanism for Ca(2+)-mediated regulation of gap junction channels |
| Q59594720 | Anatomical and molecular mapping of the left and right ventricular His–Purkinje conduction networks |
| Q58764685 | Cardiac Arrhythmias as Manifestations of Nanopathies: An Emerging View |
| Q36260704 | Cardiac Cx43, Cx40 and Cx45 co-assembling: involvement of connexins epitopes in formation of hemichannels and Gap junction channels |
| Q38194340 | Cardiac to cancer: connecting connexins to clinical opportunity. |
| Q35985036 | Channeling diversity: gap junction expression in the heart |
| Q39958151 | Coexpression of connexin 45 with connexin 43 decreases gap junction size. |
| Q34149773 | Common variants in 22 loci are associated with QRS duration and cardiac ventricular conduction |
| Q39334534 | Connexin 43 and Mitochondria in Cardiovascular Health and Disease |
| Q34888171 | Connexin 43 connexon to gap junction transition is regulated by zonula occludens-1. |
| Q36141133 | Connexin 43 is an emerging therapeutic target in ischemia/reperfusion injury, cardioprotection and neuroprotection |
| Q35839115 | Connexin43 ablation in foetal atrial myocytes decreases electrical coupling, partner connexins, and sodium current |
| Q39914592 | Contractile properties of esophageal striated muscle: comparison with cardiac and skeletal muscles in rats |
| Q28117555 | Coxsackievirus and adenovirus receptor (CAR) mediates atrioventricular-node function and connexin 45 localization in the murine heart |
| Q33856632 | Cx43 associates with Na(v)1.5 in the cardiomyocyte perinexus. |
| Q42387807 | Cytoplasm resistivity of mammalian atrial myocardium determined by dielectrophoresis and impedance methods |
| Q43161457 | Effects of substitution of Cx43 by Cx32 on myocardial energy metabolism, tolerance to ischaemia and preconditioning protection. |
| Q38815309 | Engineered Cx40 variants increased docking and function of heterotypic Cx40/Cx43 gap junction channels |
| Q38206259 | Engineering cardiac cell junctions in vitro to study the intercalated disc |
| Q45068847 | Ephaptic coupling rescues conduction failure in weakly coupled cardiac tissue with voltage-gated gap junctions. |
| Q50977783 | Functional Characterization and Comparison of Intercellular Communication in Stem Cell-Derived Cardiomyocytes. |
| Q54982339 | Functional Characterization of Novel Atrial Fibrillation-Linked GJA5 (Cx40) Mutants. |
| Q40960229 | Illuminating Myocyte-Fibroblast Homotypic and Heterotypic Gap Junction Dynamics Using Dynamic Clamp. |
| Q43272688 | Immunomodulation by atorvastatin upregulates expression of gap junction proteins in coxsackievirus B3 (CVB3)-induced myocarditis |
| Q88734607 | Improving electrical properties of iPSC-cardiomyocytes by enhancing Cx43 expression |
| Q34751220 | Influence of v5/6-His tag on the properties of gap junction channels composed of connexin43, connexin40 or connexin45. |
| Q92680956 | Interaction of α Carboxyl Terminus 1 Peptide With the Connexin 43 Carboxyl Terminus Preserves Left Ventricular Function After Ischemia-Reperfusion Injury |
| Q35565852 | Isolation and characterization of embryonic stem cell-derived cardiac Purkinje cells |
| Q53692125 | Junctional delay, frequency, and direction-dependent uncoupling of human heterotypic Cx45/Cx43 gap junction channels. |
| Q58764728 | Loss of Side-to-Side Connections Affects the Relative Contributions of the Sodium and Calcium Current to Transverse Propagation Between Strands of Atrial Myocytes |
| Q41913416 | Low-after-high glucose down-regulated Cx43 in H9c2 cells by autophagy activation via cross-regulation by the PI3K/Akt/mTOR and MEK/ERK1/2 signal pathways |
| Q37979142 | Mathematical modeling and simulation of ventricular activation sequences: implications for cardiac resynchronization therapy. |
| Q40036400 | MicroRNA- 1 represses Cx43 expression in viral myocarditis |
| Q27026670 | Modeling defibrillation of the heart: approaches and insights |
| Q64093981 | Multifractal Desynchronization of the Cardiac Excitable Cell Network During Atrial Fibrillation. II. Modeling |
| Q46376541 | Neonatal rat cardiomyocytes show characteristics of nonhomotypic gap junction channels |
| Q89876177 | Non-ohmic tissue conduction in cardiac electrophysiology: Upscaling the non-linear voltage-dependent conductance of gap junctions |
| Q48172096 | On the Evolution of the Cardiac Pacemaker |
| Q36686452 | Pharyngeal pumping in Caenorhabditis elegans depends on tonic and phasic signaling from the nervous system |
| Q36980034 | Phosphorylation of connexin43 induced by Src: regulation of gap junctional communication between transformed cells |
| Q35885268 | Prevention of postoperative atrial fibrillation: novel and safe strategy based on the modulation of the antioxidant system |
| Q38820838 | Relating specific connexin co-expression ratio to connexon composition and gap junction function |
| Q36870641 | Remodelling of gap junctions and connexin expression in diseased myocardium. |
| Q38532371 | Role of connexins and pannexins in cardiovascular physiology |
| Q34062431 | S-diclofenac protects against doxorubicin-induced cardiomyopathy in mice via ameliorating cardiac gap junction remodeling |
| Q60957747 | SIN-3 as a key determinant of lifespan and its sex dependent differential role on healthspan in C |
| Q37032381 | Shox2 influences mesenchymal stem cell fate in a co-culture model in vitro |
| Q35095049 | The Purkinje cell; 2008 style |
| Q26851277 | The infrahisian conduction system and endocavitary cardiac structures: relevance for the invasive electrophysiologist |
| Q39581161 | The noncanonical functions of Cx43 in the heart |
| Q38089420 | The perinexus: sign-post on the path to a new model of cardiac conduction? |
| Q34443546 | The role of gap junctions in stretch-induced atrial fibrillation |
| Q41480706 | Three-dimensional structure of the intercalated disc reveals plicate domain and gap junction remodeling in heart failure |
| Q50002400 | Transplantation of mesenchymal stem cells modulated Cx43 and Cx45 expression in rats with myocardial infarction |
| Q38685887 | Ventricular arrhythmias and the His-Purkinje system. |
| Q42363682 | Ventricular myocardium development and the role of connexins in the human fetal heart |
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