Project description:To map the chromatin binding sites for various factors in OE19 cells, we performed CUT&TAG.

Project description:To investigate enhancer activity in OE19 cells, we performed CUT&Tag_STARR-seq using antibodies against H3K27ac, BRD4 and MED1 .

Project description:To investigate enhancer activity in OE19 cells, we performed ATAC_STARR-seq and CUT&Tag_STARR-seq using antibodies against H3K27ac, BRD4 and MED1 .

Project description:Heat shock rapidly induces expression of a small set of genes while globally repressing transcription, making it an attractive system for studying alterations in the chromatin landscape that accompany changes in gene regulation. We have characterized these changes using low-salt extraction of intact micrococcal nuclease (MNase)-treated Drosophila S2 cell nuclei to determine the active nucleosomal and subnucleosomal chromatin landscapes. The low-salt-soluble fraction corresponds to classical "active" chromatin and includes distinct size fractions of MNase-protected particles that can be precisely mapped by paired-end sequencing. After heat shock, the distribution of low-salt-soluble nucleosomes showed an overall reduction over gene bodies, consistent with down-regulation of transcription. No global changes were detected in the subnucleosomal landscape upstream of transcriptional start sites, however, we observed a genome-wide reduction of paused RNA Polymerase II from the active chromatin fraction. Furthermore, nucleosome turnover decreased within gene bodies in a pattern similar to that observed when transcription elongation was artificially inhibited. These observations suggest that reduced Pol II affinity and processivity is the dominant nuclear mechanism for genome-wide repression during heat shock. Our ability to precisely map both nucleosomal and subnucleosomal particles directly from classical active chromatin extracts to assay changes in the chromatin landscape provides a simple general strategy for epigenome characterization. High-throughput sequencing (Illumina HiSeq 2000) We have characterized changes to the active nucleosomal and subnucleosomal landscape during the heat shock response in Drosophila cells by genome-wide profiling of low-salt extracted micrococcal nuclease-treated nuclei, paused RNA Polymerase II and CATCH-IT nucleosome turnover.

Project description:To investigate changes to eRNA transcripts in the presence and the absence of lapatinib in OE19 cells, we performed KAS-seq on OE19 cells treat with 500 nM lapatinib for 1 day.

Project description:To identify eRNA transcripts in OE19 cells, we performed KAS-seq.

Project description:To investigate changes to eRNA transcripts in OE19 cells

Project description:Sequencing the nuclear RNA in OE19 cells by RNA-seq

Project description:To identify DNA binding sites of KLF5 in CP-A and OE19 cells, we carried out ChIP-seq.

Project description:To investigate the effect on chromatin accessibility with reduced ERBB2 signalling in oesophageal adenocarcinoma, we performed ATAC-seq in OE19 cells treated with either siNT or siERBB2.