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ASCL1 ChIP-seq of patient-derived-xenograft (PDX) GBM lines
PubMed Full text in PMC Similar studies SRA Run Selector
ASCL1 ChIP-seq of patient-derived-xenograft (PDX) GBM lines and RNA-seq of mouse glioma tumors
PubMed Full text in PMC Similar studies
RNA-seq of mouse glioma tumors with or without ASCL1
Identifying ASCL1-mediated chromatin changes in primary GBM stem cell cultures [ATAC-seq]
PubMed Similar studies SRA Run Selector
Temporal gene expression of human-fetal and glioblastoma stem cell cultures under directed differentiation conditions
PubMed Similar studies Analyze with GEO2R
Identifying ASCL1 target genes in primary GBM stem cell cultures [ChIP-seq]
Identifying ASCL1 target genes in primary GBM stem cell cultures [RNA-seq]
PubMed Similar studies Analyze with GEO2RSRA Run Selector
ASCL1 mediates neuronal differentiation of primary GBM stem cell cultures upon Notch signalling blockade [RNA-seq]
Silencing of ASCL1 in U87MG glioma cells
ASCL1 represses a SOX9+ neural-crest-stem-like state in small cell lung cancer
ASCL1 represses a latent osteogenic program in small cell lung cancer in multiple cells of origin
ASCL1 represses a latent osteogenic program in small cell lung cancer in multiple cells of origin [RNA-Seq]
ASCL1 represses a latent osteogenic program in small cell lung cancer in multiple cells of origin [ChIP-Seq]
MYC drives temporal evolution of small cell lung cancer subtypes by reprogramming neuroendocrine fate [Human SCLC biopsy]
MYC drives temporal evolution of small cell lung cancer subtypes by reprogramming neuroendocrine fate [WGS data]
MYC drives temporal evolution of small cell lung cancer subtypes by reprogramming neuroendocrine fate [SuperSeries]
MYC drives temporal evolution of small cell lung cancer subtypes by reprogramming neuroendocrine fate [Single Cell RNA seq on RPM time-series cells and 4 RPM bulk tumors]
MYC drives temporal evolution of small cell lung cancer subtypes by reprogramming neuroendocrine fate [Bulk RNA-seq of RPM time-series cells]
MYC drives temporal evolution of small cell lung cancer subtypes by reprogramming neuroendocrine fate [Bulk RNA-seq of RPM and RPR2 tumors]
Inhibition of Karyopherin β1-mediated nuclear import of lineage-defining TFs in small cell lung cancer
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