Project description:We analyzed the genome-wide binding of Sox2 and POU factor partner factors, Oct4 in ESCs (using published datasets PMID:18692474 and GSM307137, GSM307154, GSM307155) and Brn2 in NPCs. We found that Sox2 and Oct4 co-occupied a large subset of promoters and enhancers in ESCs, but that Sox2 and Brn2 co-occupy predominantly enhancers. Further, we overexpressed Brn2 in differentiating ESCs and showed that ectopic Brn2 recruited Sox2 to NPC-specific targets, resulting in skewed differentiation towards the neural lineage. Examination of transcription factor binding in ESCs, NPCs, and differentiating ESCs by ChIP-Seq.
Project description:We analyzed the genome-wide binding of Sox2 and POU factor partner factors, Oct4 in ESCs (using published datasets PMID:18692474 and GSM307137, GSM307154, GSM307155) and Brn2 in NPCs. We found that Sox2 and Oct4 co-occupied a large subset of promoters and enhancers in ESCs, but that Sox2 and Brn2 co-occupy predominantly enhancers. Further, we overexpressed Brn2 in differentiating ESCs and showed that ectopic Brn2 recruited Sox2 to NPC-specific targets, resulting in skewed differentiation towards the neural lineage.
Project description:ESCs and NPCs are two setm cell types which rely on expression of the transcription factor Sox2. We profilled gene expression in ESCs and NPCs to correlate genome-wide Sox2 ChIP-Seq data in these cells with expression of putative targets Three biological replicates each of ESCs and NPCs were prepared and assays using Affymetrix Gene Expression Arrays
Project description:ESCs and NPCs are two setm cell types which rely on expression of the transcription factor Sox2. We profilled gene expression in ESCs and NPCs to correlate genome-wide Sox2 ChIP-Seq data in these cells with expression of putative targets
Project description:We assembled a quantitative map for the abundance and interactions of 16 factors related to PCH in living cells and found that stably bound complexes of the histone methyltransferase Suv39h1/2 demarcate the PCH state. From the experimental data we developed a predictive mathematical model that explains how chromatin-bound Suv39h1/2 complexes act as nucleation sites and propagate a spatially confined PCH domain with elevated histone H3 trimethylation levels via chromatin dynamics. Enrichment of HP1, Suv39h1/h2, H3K9me3 and H3K36me3 was assessed by ChIP-seq in NPCs derived from ESCs showing differential occupation at intergenic major satellite repeats and enrichment of heterochromatin factors. ChIP-seq of HP1, Suv39h1, Suv39h2, H3K9me3, H3K36me3 in NPCs
