scholarly article | Q13442814 |
P2093 | author name string | Kenneth R Chien | |
Atsushi Nakano | |||
Susumu Minamisawa | |||
Masahiko Hoshijima | |||
Mika Sasaki | |||
Haruko Nakano | |||
Estrelania Williams | |||
P2860 | cites work | Electrophysiological breakthroughs from the left atrium to the pulmonary veins. | Q54030199 |
Two Distinct Pools of Mesenchyme Contribute to the Development of the Atrial Septum | Q56000971 | ||
Formation of the Venous Pole of the Heart From an Nkx2-5-Negative Precursor Population Requires Tbx18 | Q56000972 | ||
A focal source of atrial fibrillation treated by discrete radiofrequency ablation | Q73047603 | ||
Cardiac muscle cell formation after development of the linear heart tube | Q73285398 | ||
Conotruncal myocardium arises from a secondary heart field | Q77102388 | ||
The arterial pole of the mouse heart forms from Fgf10-expressing cells in pharyngeal mesoderm | Q77153201 | ||
Isl1 expression at the venous pole identifies a novel role for the second heart field in cardiac development | Q81464504 | ||
Secondary heart field contributes myocardium and smooth muscle to the arterial pole of the developing heart | Q81680192 | ||
Human ISL1 heart progenitors generate diverse multipotent cardiovascular cell lineages | Q24310167 | ||
Characterization of the gene encoding human sarcolipin (SLN), a proteolipid associated with SERCA1: absence of structural mutations in five patients with Brody disease | Q24336206 | ||
KCNQ potassium channel mutations cause cardiac arrhythmias in Drosophila that mimic the effects of aging | Q24681227 | ||
Generalized lacZ expression with the ROSA26 Cre reporter strain | Q27860837 | ||
Isl1 identifies a cardiac progenitor population that proliferates prior to differentiation and contributes a majority of cells to the heart | Q28190508 | ||
Multipotent embryonic isl1+ progenitor cells lead to cardiac, smooth muscle, and endothelial cell diversification | Q28275356 | ||
Pitx2c and Nkx2-5 are required for the formation and identity of the pulmonary myocardium | Q28589895 | ||
In vivo genetic ablation of the periotic mesoderm affects cell proliferation survival and differentiation in the cochlea | Q28591405 | ||
Human cardiovascular progenitor cells develop from a KDR+ embryonic-stem-cell-derived population | Q29616533 | ||
Building the mammalian heart from two sources of myocardial cells | Q29618590 | ||
Spontaneous initiation of atrial fibrillation by ectopic beats originating in the pulmonary veins | Q29620720 | ||
Atrial chamber-specific expression of sarcolipin is regulated during development and hypertrophic remodeling. | Q34184625 | ||
Multipotent flk-1+ cardiovascular progenitor cells give rise to the cardiomyocyte, endothelial, and vascular smooth muscle lineages | Q34579177 | ||
Development and structures of the venous pole of the heart | Q36271891 | ||
The mechanisms of atrial fibrillation | Q36661210 | ||
A common progenitor at the heart of development | Q36686596 | ||
The heart-forming fields: one or multiple? | Q36854392 | ||
Specification of multipotential cardiovascular progenitor cells during embryonic stem cell differentiation and embryonic development | Q36971032 | ||
Islet1 cardiovascular progenitors: a single source for heart lineages? | Q37044342 | ||
Lives of a heart cell: tracing the origins of cardiac progenitors | Q37132482 | ||
Differential expression of sarcolipin protein during muscle development and cardiac pathophysiology | Q37252432 | ||
Multipotent islet-1 cardiovascular progenitors in development and disease | Q37388905 | ||
The role of secondary heart field in cardiac development | Q37616278 | ||
A spatiotemporal evaluation of the contribution of the dorsal mesenchymal protrusion to cardiac development | Q37730021 | ||
Atrial myocardium derives from the posterior region of the second heart field, which acquires left-right identity as Pitx2c is expressed. | Q38293562 | ||
Mouse in red: red fluorescent protein expression in mouse ES cells, embryos, and adult animals. | Q40481521 | ||
The outflow tract of the heart is recruited from a novel heart-forming field | Q42819988 | ||
Islet 1 is expressed in distinct cardiovascular lineages, including pacemaker and coronary vascular cells | Q43243916 | ||
Mef2c is a direct transcriptional target of ISL1 and GATA factors in the anterior heart field during mouse embryonic development | Q46350581 | ||
Reconstruction of the patterns of gene expression in the developing mouse heart reveals an architectural arrangement that facilitates the understanding of atrial malformations and arrhythmias | Q50139453 | ||
Developmental origin of a bipotential myocardial and smooth muscle cell precursor in the mammalian heart. | Q50707208 | ||
Regionalized sequence of myocardial cell growth and proliferation characterizes early chamber formation. | Q53607310 | ||
P433 | issue | 2 | |
P304 | page(s) | 337-345 | |
P577 | publication date | 2010-10-23 | |
P1433 | published in | Journal of Molecular and Cellular Cardiology | Q2061932 |
P1476 | title | Cardiac origin of smooth muscle cells in the inflow tract | |
P478 | volume | 50 |
Q90725507 | Atrial GIRK Channels Mediate the Effects of Vagus Nerve Stimulation on Heart Rate Dynamics and Arrhythmogenesis |
Q35054076 | Complete atrial-specific knockout of sodium-calcium exchange eliminates sinoatrial node pacemaker activity |
Q36021595 | Hematopoietic progenitors are required for proper development of coronary vasculature |
Q46421083 | Heterozygous deletion of sarcolipin maintains normal cardiac function |
Q30837543 | Light-sheet fluorescence imaging to localize cardiac lineage and protein distribution |
Q89576527 | Na/Ca exchange in the atrium: Role in sinoatrial node pacemaking and excitation-contraction coupling |
Q44275789 | Origin of non-cardiac endothelial cells from an Isl1+ lineage. |
Q37354707 | Rigid microenvironments promote cardiac differentiation of mouse and human embryonic stem cells |
Q37157499 | Simplified three-dimensional tissue clearing and incorporation of colorimetric phenotyping |
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