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Epigenome regulation during epidermal lineage commitment
PubMed Full text in PMC Similar studies
Epigenome regulation during epidermal lineage commitment [ChIP-seq]
PubMed Full text in PMC Similar studies SRA Run Selector
Epigenome regulation during epidermal lineage commitment [RNA-seq]
PubMed Full text in PMC Similar studies Analyze with GEO2RSRA Run Selector
Epigenome regulation during epidermal lineage commitment [ATAC-seq, RNA-seq]
BAF controls genome accessibility
Genome-wide transcription factor binding and histone mark profiling in pluripotent and lineage-committed cells
RNA-seq profiles of pluripotent and surface ectoderm cells with and without p63
Cohesin HiChIP datasets of pluripotent and surface ectoderm cells with and without p63
RA and BMP4 cooperate with p63 to alter chromatin dynamics during surface epithelial commitment
Genome-wide chromatin accessibility in pluripotent and surface ectoderm cells with and without p63
UMI-4C in wild-type and p63-null surface ectoderm cells
Chromatin landscape instructs precise transcription factor regulome during embryonic lineage specification
PubMed Similar studies
Chromatin Landscape Instructs Precise Transcription Factor Regulome during Embryonic Lineage Specification [RNA-seq]
Chromatin Landscape Instructs Precise Transcription Factor Regulome during Embryonic Lineage Specification [CUT&RUN]
ChIP-seq analysis of genome wide Brg1 binding in mouse primary keratinocytes
Global microarray analysis of changes of gene expression in the epidermis of Brg1(i)ep-/- mice at E16.5
PubMed Full text in PMC Similar studies Analyze with GEO2R
p63 controls the enhancer landscape during keratinocyte differentiation
PubMed Similar studies Analyze with GEO2RSRA Run Selector
Genome wide identification of p63 binding sites in human neonatal foreskin keratinocytes
Evolutionary re-wiring of p63 regulatory landscape has both epigenetic and transcriptomic implications and is the underlying cause for epidermal differences between mouse and human
Evolutionary re-wiring of p63 regulatory landscape has both epigenetic and transcriptomic implications and is the underlying cause for epidermal differences between mouse and human [RNA-seq]
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