Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures
10.1038/srep31068
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2020
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sg-nus-scholar.10635-1749402024-11-10T12:53:41Z Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures Yeo, H.C Ting, S Brena, R.M Koh, G Chen, A Toh, S.Q Lim, Y.M Oh, S.K.W Lee, D.-Y CHEMICAL & BIOMOLECULAR ENGINEERING collagen forkhead transcription factor laminin matrigel proteoglycan Wnt protein animal binding site biological model cardiac muscle cell cell culture cell culture technique cell differentiation cytology drug combination feeder cell gene expression profiling genetic epigenesis genetics genome-wide association study human human embryonic stem cell mesoderm metabolism mouse physiology procedures signal transduction Animals Binding Sites Cell Culture Techniques Cell Differentiation Cells, Cultured Collagen Drug Combinations Epigenesis, Genetic Feeder Cells Forkhead Transcription Factors Gene Expression Profiling Genome-Wide Association Study Human Embryonic Stem Cells Humans Laminin Mesoderm Mice Models, Cardiovascular Myocytes, Cardiac Proteoglycans Signal Transduction Wnt Proteins 10.1038/srep31068 Scientific Reports 6 31068 2020-09-09T01:28:57Z 2020-09-09T01:28:57Z 2016 Article Yeo, H.C, Ting, S, Brena, R.M, Koh, G, Chen, A, Toh, S.Q, Lim, Y.M, Oh, S.K.W, Lee, D.-Y (2016). Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures. Scientific Reports 6 : 31068. ScholarBank@NUS Repository. https://doi.org/10.1038/srep31068 20452322 https://scholarbank.nus.edu.sg/handle/10635/174940 Nature Publishing Group Unpaywall 20200831 |
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collagen forkhead transcription factor laminin matrigel proteoglycan Wnt protein animal binding site biological model cardiac muscle cell cell culture cell culture technique cell differentiation cytology drug combination feeder cell gene expression profiling genetic epigenesis genetics genome-wide association study human human embryonic stem cell mesoderm metabolism mouse physiology procedures signal transduction Animals Binding Sites Cell Culture Techniques Cell Differentiation Cells, Cultured Collagen Drug Combinations Epigenesis, Genetic Feeder Cells Forkhead Transcription Factors Gene Expression Profiling Genome-Wide Association Study Human Embryonic Stem Cells Humans Laminin Mesoderm Mice Models, Cardiovascular Myocytes, Cardiac Proteoglycans Signal Transduction Wnt Proteins |
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collagen forkhead transcription factor laminin matrigel proteoglycan Wnt protein animal binding site biological model cardiac muscle cell cell culture cell culture technique cell differentiation cytology drug combination feeder cell gene expression profiling genetic epigenesis genetics genome-wide association study human human embryonic stem cell mesoderm metabolism mouse physiology procedures signal transduction Animals Binding Sites Cell Culture Techniques Cell Differentiation Cells, Cultured Collagen Drug Combinations Epigenesis, Genetic Feeder Cells Forkhead Transcription Factors Gene Expression Profiling Genome-Wide Association Study Human Embryonic Stem Cells Humans Laminin Mesoderm Mice Models, Cardiovascular Myocytes, Cardiac Proteoglycans Signal Transduction Wnt Proteins Yeo, H.C Ting, S Brena, R.M Koh, G Chen, A Toh, S.Q Lim, Y.M Oh, S.K.W Lee, D.-Y Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures |
| description |
10.1038/srep31068 |
| author2 |
CHEMICAL & BIOMOLECULAR ENGINEERING |
| author_facet |
CHEMICAL & BIOMOLECULAR ENGINEERING Yeo, H.C Ting, S Brena, R.M Koh, G Chen, A Toh, S.Q Lim, Y.M Oh, S.K.W Lee, D.-Y |
| format |
Article |
| author |
Yeo, H.C Ting, S Brena, R.M Koh, G Chen, A Toh, S.Q Lim, Y.M Oh, S.K.W Lee, D.-Y |
| author_sort |
Yeo, H.C |
| title |
Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures |
| title_short |
Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures |
| title_full |
Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures |
| title_fullStr |
Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures |
| title_full_unstemmed |
Genome-Wide Transcriptome and Binding Sites Analyses Identify Early FOX Expressions for Enhancing Cardiomyogenesis Efficiency of hESC Cultures |
| title_sort |
genome-wide transcriptome and binding sites analyses identify early fox expressions for enhancing cardiomyogenesis efficiency of hesc cultures |
| publisher |
Nature Publishing Group |
| publishDate |
2020 |
| url |
https://scholarbank.nus.edu.sg/handle/10635/174940 |
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1821224676785913856 |