| scholarly article | Q13442814 |
| P2093 | author name string | Hua Xiao | |
| Shu Lin | |||
| Song Peng | |||
| Yong-Jun Yang | |||
| Zhi-Yuan Song | |||
| Yi-Zhang Lin | |||
| P2860 | cites work | Identification of a gene encoding a hyperpolarization-activated pacemaker channel of brain | Q24336296 |
| Gating properties of heterotypic gap junction channels formed of connexins 40, 43, and 45. | Q24675707 | ||
| Human mesenchymal stem cells make cardiac connexins and form functional gap junctions | Q24678071 | ||
| Bone marrow cells regenerate infarcted myocardium | Q28210640 | ||
| MiRP1 modulates HCN2 channel expression and gating in cardiac myocytes | Q28571262 | ||
| The hyperpolarization-activated channel HCN4 is required for the generation of pacemaker action potentials in the embryonic heart | Q28585488 | ||
| Formation of the sinus node head and differentiation of sinus node myocardium are independently regulated by Tbx18 and Tbx3 | Q28594589 | ||
| Cellular expression and functional characterization of four hyperpolarization-activated pacemaker channels in cardiac and neuronal tissues | Q43542437 | ||
| I(f) current and spontaneous activity in mouse embryonic ventricular myocytes | Q43542922 | ||
| Properties of the hyperpolarization-activated current (I(f)) in isolated mouse sino-atrial cells | Q43737605 | ||
| Distribution of the pacemaker HCN4 channel mRNA and protein in the rabbit sinoatrial node. | Q46036929 | ||
| Molecular architecture of the human sinus node: insights into the function of the cardiac pacemaker | Q46535702 | ||
| Model clamp and its application to synchronization of rabbit sinoatrial node cells. | Q52292691 | ||
| Single-cell analysis of the fate of c-kit-positive bone marrow cells. | Q52729623 | ||
| Junctional delay, frequency, and direction-dependent uncoupling of human heterotypic Cx45/Cx43 gap junction channels. | Q53692125 | ||
| Electromagnetic fields and nanomagnetic particles increase the osteogenic differentiation of human bone marrow-derived mesenchymal stem cells. | Q54312757 | ||
| Formation of the Venous Pole of the Heart From an Nkx2-5-Negative Precursor Population Requires Tbx18 | Q56000972 | ||
| Organisation of the mouse sinoatrial node: structure and expression of HCN channels | Q59594730 | ||
| Differential Expression of Ion Channel Transcripts in Atrial Muscle and Sinoatrial Node in Rabbit | Q59594734 | ||
| [Sino-atrial node transplantation: an experimental study] | Q71778003 | ||
| Differential expression of gap junction proteins in the canine sinus node | Q74405494 | ||
| Adult cardiac stem cells are multipotent and support myocardial regeneration | Q29620122 | ||
| Heterotypic gap junction channels as voltage-sensitive valves for intercellular signaling | Q30489929 | ||
| Bone marrow mesenchymal stem cells stimulate cardiac stem cell proliferation and differentiation | Q30523741 | ||
| Direct conversion of quiescent cardiomyocytes to pacemaker cells by expression of Tbx18. | Q30544927 | ||
| Funny current downregulation and sinus node dysfunction associated with atrial tachyarrhythmia: a molecular basis for tachycardia-bradycardia syndrome. | Q33157216 | ||
| Differentiation of bone marrow stromal cells into the cardiac phenotype requires intercellular communication with myocytes. | Q33208043 | ||
| Cardiomyocytes can be generated from marrow stromal cells in vitro | Q33843659 | ||
| Chamber-related differences in connexin expression in the human heart. | Q33862875 | ||
| T-targets: clues to understanding the functions of T-box proteins | Q34124665 | ||
| Direct conversion of human fibroblasts to multilineage blood progenitors. | Q34148584 | ||
| A family of hyperpolarization-activated mammalian cation channels | Q34472604 | ||
| Direct activation of cardiac pacemaker channels by intracellular cyclic AMP. | Q34580492 | ||
| Pacemaker current (I(f)) in the human sinoatrial node. | Q34682132 | ||
| Cardioprotective c-kit+ cells are from the bone marrow and regulate the myocardial balance of angiogenic cytokines | Q34698821 | ||
| Cardiac HCN channels: structure, function, and modulation | Q34772597 | ||
| Functional role of inward rectifier current in heart probed by Kir2.1 overexpression and dominant-negative suppression | Q34997952 | ||
| Hyperpolarization-activated cation currents: from molecules to physiological function | Q35019781 | ||
| Phospholamban: a crucial regulator of cardiac contractility | Q35167969 | ||
| The funny current in the context of the coupled-clock pacemaker cell system. | Q35705710 | ||
| HCN4 provides a 'depolarization reserve' and is not required for heart rate acceleration in mice | Q36116647 | ||
| Pathophysiology of HCN channels | Q36840738 | ||
| Implantation of sinoatrial node cells into canine right ventricle: biological pacing appears limited by the substrate | Q36954373 | ||
| Shox2 influences mesenchymal stem cell fate in a co-culture model in vitro | Q37032381 | ||
| Calmodulin kinase II is required for fight or flight sinoatrial node physiology | Q37153688 | ||
| The cardiac pacemaker current | Q37547401 | ||
| Development of the pacemaker tissues of the heart. | Q37687712 | ||
| Stem cell-based biological pacemakers from proof of principle to therapy: a review | Q38212017 | ||
| Targeting pleiotropic signaling pathways to control adult cardiac stem cell fate and function. | Q38234910 | ||
| In situ investigation of allografted mouse HCN4 gene-transfected rat bone marrow mesenchymal stromal cells with the use of patch-clamp recording of ventricular slices | Q38548248 | ||
| Canine bone marrow mesenchymal stromal cells with lentiviral mHCN4 gene transfer create cardiac pacemakers | Q38549177 | ||
| Heteromeric HCN1-HCN4 channels: a comparison with native pacemaker channels from the rabbit sinoatrial node | Q38553626 | ||
| Electric-Pulse Current Stimulation Increases If Current in mShox2 Genetically Modified Canine Mesenchymal Stem Cells | Q41183899 | ||
| Specific permeability and selective formation of gap junction channels in connexin-transfected HeLa cells | Q41665390 | ||
| Reprogramming paces the heart | Q42082753 | ||
| High basal protein kinase A-dependent phosphorylation drives rhythmic internal Ca2+ store oscillations and spontaneous beating of cardiac pacemaker cells | Q42489642 | ||
| HCN2 overexpression in newborn and adult ventricular myocytes: distinct effects on gating and excitability | Q42506846 | ||
| Coupling an HCN2-expressing cell to a myocyte creates a two-cell pacing unit | Q43279831 | ||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | mesenchymal stem cell | Q1922379 |
| P304 | page(s) | 2511-2528 | |
| P577 | publication date | 2018-01-01 | |
| P1433 | published in | American Journal of Translational Research | Q4744272 |
| P1476 | title | Transcription factor Tbx18 induces the differentiation of c-kit canine mesenchymal stem cells (cMSCs) into SAN-like pacemaker cells in a co-culture model in vitro | |
| P478 | volume | 10 |
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