| scholarly article | Q13442814 |
| P2093 | author name string | Yanding Zhang | |
| Zhen Huang | |||
| Yiping Chen | |||
| Wenduo Ye | |||
| Yingnan Song | |||
| P2860 | cites work | The Form and Nature of the Muscular Connections between the Primary Divisions of the Vertebrate Heart | Q24534713 |
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| Not so fast! Sick sinus syndrome is a complex and incompletely understood disease that might prove hard to model in animals | Q84596244 | ||
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| Pitx2c and Nkx2-5 are required for the formation and identity of the pulmonary myocardium | Q28589895 | ||
| Formation of the sinus node head and differentiation of sinus node myocardium are independently regulated by Tbx18 and Tbx3 | Q28594589 | ||
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| Direct conversion of quiescent cardiomyocytes to pacemaker cells by expression of Tbx18. | Q30544927 | ||
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| HCN4 dynamically marks the first heart field and conduction system precursors | Q33598169 | ||
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| Mechanistic links between Na+ channel (SCN5A) mutations and impaired cardiac pacemaking in sick sinus syndrome. | Q33982881 | ||
| Pitx2 prevents susceptibility to atrial arrhythmias by inhibiting left-sided pacemaker specification | Q34006337 | ||
| Baf250a orchestrates an epigenetic pathway to repress the Nkx2.5-directed contractile cardiomyocyte program in the sinoatrial node | Q34289875 | ||
| New insights into pacemaker activity: promoting understanding of sick sinus syndrome | Q34617500 | ||
| A comparative encyclopedia of DNA elements in the mouse genome | Q34700119 | ||
| Co-occupancy by multiple cardiac transcription factors identifies transcriptional enhancers active in heart. | Q34805195 | ||
| The short stature homeobox 2 (Shox2)-bone morphogenetic protein (BMP) pathway regulates dorsal mesenchymal protrusion development and its temporary function as a pacemaker during cardiogenesis | Q35002797 | ||
| RNA sequencing of mouse sinoatrial node reveals an upstream regulatory role for Islet-1 in cardiac pacemaker cells | Q35132359 | ||
| Epigenetic priming of enhancers predicts developmental competence of hESC-derived endodermal lineage intermediates. | Q35772142 | ||
| A common Shox2-Nkx2-5 antagonistic mechanism primes the pacemaker cell fate in the pulmonary vein myocardium and sinoatrial node | Q35878118 | ||
| Transcription factor ISL1 is essential for pacemaker development and function. | Q36040426 | ||
| TBX5 drives Scn5a expression to regulate cardiac conduction system function | Q36068330 | ||
| SCN5A and sinoatrial node pacemaker function. | Q36763211 | ||
| Visualization and functional characterization of the developing murine cardiac conduction system | Q36778773 | ||
| Shox2 is essential for the differentiation of cardiac pacemaker cells by repressing Nkx2-5. | Q37222054 | ||
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| Development of the pacemaker tissues of the heart. | Q37687712 | ||
| A spatiotemporal evaluation of the contribution of the dorsal mesenchymal protrusion to cardiac development | Q37730021 | ||
| The cardiac pacemaker and conduction system develops from embryonic myocardium that retains its primitive phenotype. | Q37761020 | ||
| Normal and abnormal development of pulmonary veins: State of the art and correlation with clinical entities | Q37776810 | ||
| Genetic variation in T-box binding element functionally affects SCN5A/SCN10A enhancer | Q38324392 | ||
| Pitx2 confers left morphological, molecular, and functional identity to the sinus venosus myocardium | Q40412634 | ||
| The transcriptional repressor Tbx3 delineates the developing central conduction system of the heart. | Q40553027 | ||
| Single-cell ATAC-seq: strength in numbers | Q40621656 | ||
| Development of the cardiac conduction tissue in human embryos using HNK-1 antigen expression: possible relevance for understanding of abnormal atrial automaticity | Q40824226 | ||
| Shox2 mediates Tbx5 activity by regulating Bmp4 in the pacemaker region of the developing heart | Q42382110 | ||
| Multiple transcriptional domains, with distinct left and right components, in the atrial chambers of the developing heart | Q42637996 | ||
| Translational medicine. Improving cardiac rhythm with a biological pacemaker | Q43131470 | ||
| The sinus venosus progenitors separate and diversify from the first and second heart fields early in development | Q44464144 | ||
| Nkx2-5 suppresses the proliferation of atrial myocytes and conduction system | Q46051748 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 4 | |
| P304 | page(s) | 282-298 | |
| P577 | publication date | 2015-11-30 | |
| P1433 | published in | Journal of cardiovascular development and disease | Q27726300 |
| P1476 | title | Genetic Regulation of Sinoatrial Node Development and Pacemaker Program in the Venous Pole | |
| P478 | volume | 2 |
| Q59133289 | A loss-of-function mutation underlying familial atrial fibrillation |
| Q37120535 | A unique stylopod patterning mechanism by Shox2-controlled osteogenesis. |
| Q36859198 | Coding and non-coding variants in the SHOX2 gene in patients with early-onset atrial fibrillation |
| Q89661624 | Comparative study of hyperpolarization-activated currents in pulmonary vein cardiomyocytes isolated from rat, guinea pig, and rabbit |
| Q38987999 | Development of the cardiac pacemaker |
| Q90461383 | Differences in Expression of Genes Involved in Bone Development and Morphogenesis in the Walls of Internal Thoracic Artery and Saphenous Vein Conduits May Provide Markers Useful for Evaluation Graft Patency |
| Q92240317 | Functional Characterization of Rare Variants in the SHOX2 Gene Identified in Sinus Node Dysfunction and Atrial Fibrillation |
| Q88651515 | Interplay between cardiac transcription factors and non-coding RNAs in predisposing to atrial fibrillation |
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