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Cardiomyocyte differentiation by gata-4 deficient es cells
N. Narita, M. Bielinska,
D. Wilson
Roy and Diana Vagelos Division of Biology & Biomedical Sciences (DBBS)
Institute of Clinical and Translational Sciences (ICTS)
Siteman Cancer Center
Division of Hematology & Oncology
DBBS - Developmental, Regenerative and Stem Cell Biology
DBBS - Biochemistry, Biophysics, and Structural Biology
Research output
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Keyphrases
Embryonic Stem Cells
100%
GATA4
100%
Gata
100%
Cardiomyocyte Differentiation
100%
Cardiomyocytes
46%
Embryoid Body
30%
Transcription Factor
15%
In Situ Hybridization
15%
Myocardium
15%
GATA6
15%
Morula
15%
Transgenic Lines
7%
Null Mice
7%
Endocardium
7%
LacZ
7%
Myosin Heavy Chain (MyHC)
7%
Rosa26
7%
X-gal Staining
7%
Chimeric Mice
7%
Cardiac Tissue
7%
Indirect Immunofluorescence
7%
Lineage Commitment
7%
Cardiac Myosin
7%
Promoter Analysis
7%
Chimeric Embryos
7%
GATA Binding Protein
7%
Tissue Culture Plate
7%
Myosin Light Chain
7%
GATA5
7%
Cardiac Troponin C
7%
Hanging Drop Method
7%
Immunology and Microbiology
Cardiac Muscle Cell
100%
Transcription Factor GATA 4
55%
Embryoid Body
44%
Wild Type
22%
Transcription Factor GATA 6
22%
Morula
22%
In Situ Hybridization
22%
Myosin
22%
Transcription Factors
11%
Transgenics
11%
Protein Binding
11%
Promoter Region
11%
Immunofluorescence
11%
Lineages
11%
Knockout Mouse
11%
Tissue Culture
11%
Endocardium
11%
Heavy Chain
11%
Light Chain
11%
Transcription Factor GATA 5
11%
Cardiac Troponin
11%
Biochemistry, Genetics and Molecular Biology
Cardiac Muscle Cell
100%
GATA4
55%
Embryoid Body
44%
Wild Type
22%
GATA6
22%
Morula
22%
In Situ Hybridization
22%
Knockout Mouse
11%
Promoter Region
11%
Transgenics
11%
Transcription Factors
11%
Binding Protein
11%
Immunofluorescence
11%
RNA
11%
Tissue Culture
11%
Heavy Meromyosin
11%
Myosin Light Chain
11%
Cardiac Troponin
11%
GATA5
11%
Troponin C
11%
X-Gal
11%
Veterinary Science and Veterinary Medicine
Morula
22%