Combined lineage tracing and scRNA-seq reveals unexpected first heart field predominance of human iPSC differentiation
Francisco X. Galdos(Cardiovascular Institute of the South), Sean M. Wu(Palo Alto University), Soah Lee(Sungkyunkwan University), William R. Goodyer(Cardiovascular Institute of the South), Aimee Beck(Cardiovascular Institute of the South), Rasmus O. Bak(Aarhus University), Adrija Darsha(MACOM (United States)), Sharon L. Paige(Cytokinetics (United States)), Tahmina Samad(Cardiovascular Institute of the South), Carissa Lee(Cardiovascular Institute of the South), Matthew H. Porteus(Stanford University), Gabriela V Escobar(Cardiovascular Institute of the South), Sidra Xu(MACOM (United States))
Cited by 48
Related Papers
Rapid “Open-Source” Engineering of Customized Zinc-Finger Nucleases for Highly Efficient Gene Modification
|Molecular Cell|2008|709
Wnt Activation and Reduced Cell-Cell Contact Synergistically Induce Massive Expansion of Functional Human iPSC-Derived Cardiomyocytes
|Cell stem cell|2020|232
Spermatogonial Stem Cell Self-Renewal Requires OCT4, a Factor Downregulated During Retinoic Acid-Induced Differentiation
|Stem Cells|2008|219
Phase 2 Study of Aficamten in Patients With Obstructive Hypertrophic Cardiomyopathy
|Journal of the American College of Cardiology|2023|192
Intrinsic Endocardial Defects Contribute to Hypoplastic Left Heart Syndrome
|Cell stem cell|2020|171