Project description:ChIP-seq analysis was performed in an neuroblastoma cell line to analyze DNA bindings of H3K27ac in GI-MEN DOX-ASCL1 cells and ASCL1-HA in GI-MEN DOX-ASCL1-tag-HA cells.
Project description:Artificial transcription factors (ATFs) and genomic nucleases based on a DNA binding platform consist- ing of multiple zinc finger domains are currently be- ing developed for clinical applications. However, no genome-wide investigations into their binding speci- ficity have been performed. We have created six- finger ATFs to target two different 18 nt regions of the human SOX2 promoter; each ATF is constructed such that it contains or lacks a super KRAB do- main (SKD) that interacts with a complex contain- ing repressive histone methyltransferases. ChIP-seq analysis of the effector-free ATFs in MCF7 breast cancer cells identified thousands of binding sites, mostly in promoter regions; the addition of an SKD domain increased the number of binding sites M-bM-^HM-<5- fold, with a majority of the new sites located out- side of promoters. De novo motif analyses suggest that the lack of binding specificity is due to sub- sets of the finger domains being used for genomic interactions. Although the ATFs display widespread binding, few genes showed expression differences; genes repressed by the ATF-SKD have stronger bind- ing sites and are more enriched for a 12 nt motif. Interestingly, epigenetic analyses indicate that the transcriptional repression caused by the ATF-SKD is not due to changes in active histone modifications. ATF plasmids were designed and stably integrated into MCF7 cells as described in (Stolzenburg et al. 2012). Stable lines were grown at 30M-bM-^@M-^S80% confluency in DulbeccoM-bM-^@M-^Ys Modified EagleM-bM-^@M-^Ys Medium (Corning, Corning, NY) supplemented with 10% heat-inactivated fetal bovine serum (Invitrogen, Life Technologies, Grand Island, NY) and 1% penicillin/streptomycin; cells were selected using 5 M-BM-5g/ml puromycin (VWR, Radnor, PA) and 200 M-BM-5g/ml G418 (VWR, Radnor, PA). ATF expression was induced by treatment with media containing 1M-BM-5g/ml doxycycline (VWR, Radnor, PA) at 0 h, doxycycline media was refreshed at 48 h, and cells were harvested at 72 h. ATF expression was confirmed by hemagglutinin (HA) tag western blot prior to HA ChIP-seq, histone ChIP-seq and RNA-seq analysis. For HA-tag ChIP-seq, stable MCF7 cell lines were induced using 100 ng/ml doxycycline (Sigma) at 0 h, doxycycline media was refreshed at 48 h, and cells were harvested at 72 h by crosslinking in a final concentration of 1% formaldehyde. Crosslinking was stopped after 5 min by adding glycine to a final concentration of 125 mM. Crosslinked cells were washed in cold phosphate buffered saline, lysed using 1 mL low-salt IP buffer (150 mM NaCl, 50 mM Tris-HCl (pH7.5), 5 mM EDTA, NP-40 (0.5%), Triton X-100 (1%) containing protease inhibitors) and aliquoted at 1 M-CM-^W 10M-bM-^HM-'7 cells/mL. Cells are then sonicated to a fragment size range of 500M-bM-^@M-^S800 bp. Samples were then diluted in 1 mL low-salt buffer and incubated with 3 M-BM-5L of anti-HA antibody (Covance, Princeton, NJ). Three-hundred microliter Sepharose A beads (GE Healthcare Life Science) were used for pull-down. Samples were sequenced at the UNC-CH Genome Analysis Facil- ity (Chapel Hill, NC) on an HiSeq (Illumina, San Diego, CA) to read counts of 4.1M-bM-^@M-^S67.3 M total reads. For histone ChIP-seq, antibodies to H3K4me3 (Cell Signaling Tech- nologies CST9751), H3K9Ac (Cell Signaling Technologies CST9649) and H3K9me3 (Diagenode pAb-056-050) were used; samples were prepared as previously described (OM-bM-^@M-^YGeen et al. 2011).
Project description:Cut & Run analysis was performed in an neuroblastoma cell line to analyze DNA bindings of ASCL1-tag-HA in GI-MEN ASCL1-tag-HA cells and GI-MEN ASCL1-tag-HA+4TFs cells; analyze DNA bindings of MYCN, PHOX2B and H3K27ac in, GI-MEN 4TFs cells, and GI-MEN ASCL1-tag-HA+4TFs cells.
Project description:Chip-seq to identify the HrdB (SCO5820) binding sites and regulated genes in Streptomyces coelicolor. The HrdB gene was tagged on genome by HA (Human Influenza hemagglutinin derived) epitope (TAC CCG TAC GAT GTG CCG GAT TAC GCG). We have 3 replicates with HrdB tagged by HA and 2 replicates with wild-type strain as controls. Chip-seq experiment was conducted using antibody against HA tag in vegetative growth phase (see protocols).
Project description:Histone profile for wild type MEF and secondary MEF with Dox-inducible vectors for Klf4, Sox2 and Oct4 (KSO). ChIP-Seq data for H3K4me3, H3K27me3 and H3K9me3
Project description:Genomic imprinting is a critical developmental process characteristic of parent-of-origin- specific gene expression. Here, we have identified the AFF family protein, Aff3, as a factor that functionally interacts with imprinted loci. Indeed, our genome-wide studies demonstrate that Aff3 specifically binds both imprinting control regions (ICRs) and enhancers within imprinted loci in an allele-specific manner. We have identified the molecular regulators involved in the recruitment of Aff3 to ICRs to impede transcription through the ICR, and provide a mechanism requiring Aff3 within the Super Elongation Complex-like 3 (SEC-L3) in the expression of an imprinted polycistronic transcript spanning the Dlk1-Dio3 locus. Our study also shows that DNA methylation at the ICR reinforces silencing of its related enhancers by controlling the binding and activity of Aff3 in an allele-specific manner. This study provides molecular details about the regulation of dosage-critical imprinted gene expression through Aff3âs function in transcriptional elongation control. ChIP-seq of Aff3 in different mES cells. ChIP-seq of Aff3, PolII, H3K9me3 in uniparental MEF cell lines. ChIP-seq of H3K27ac and PolII in mES cells after Aff3 shRNA and non-targeting shRNA. ChIP-seq of H3K27ac in wild type and Zfp57 knockout ES cells. Total RNA-seq and nascent RNA-seq of mES cells after Aff3 shRNA and non-targeting shRNA. Total RNA-seq of uniparental MEF cells after Aff3 shRNA and non-targeting shRNA.
Project description:Enhancers are fundamental to gene regulation. Post-translational modifications by the small ubiquitin-like modifiers (SUMO) modify chromatin regulation enzymes, including histone acetylases and deacetylases. However, it remains unclear whether SUMOylation regulates enhancer marks, acetylation at the 27th lysine residue of the histone H3 protein (H3K27Ac). We hypothesize that SUMOylation regulates H3K27Ac. To test this hypothesis, we performed genome-wide ChIP-seq analyses. We discovered that knockdown (KD) of the SUMO activating enzyme catalytic subunit UBA2 reduced H3K27Ac at most enhancers. Bioinformatic analysis revealed that TFAP2C-binding sites are enriched in enhancers whose H3K27Ac was reduced by UBA2 KD. ChIP-seq analysis in combination with molecular biological methods showed that TFAP2C binding to enhancers increased upon UBA2 KD or inhibition of SUMOylation by a small molecule SUMOylation inhibitor. However, this is not due to the SUMOylation of TFAP2C itself. Proteomics analysis of TFAP2C interactome on the chromatin identified histone deacetylation (HDAC) machinery. TFAP2C KD reduced HDAC binding to chromatin and increased H3K27Ac marks at enhancer regions, suggesting that TFAP2C is involved in recruiting HDAC. Taken together, our findings provide important insights into regulation of enhancer marks by SUMOylation.
Project description:ChIP-seq with anti-HA tag antibody in TC28a2 cells transfected with HA-KLF4.We performed genome-wide analysis for KLF4-DNA association in TC28a2 human chondrocyte cells, to elucidate regulatory mechanisms of chondrogenic genes by KLF4.
Project description:This study describes the epigenetic profiling of the novel interactors of H3K4me3, H3K36me3 or H3K9me3. The interactors were ChIP-Seq profiled by their GFP tag in stably transfected HeLa (Kyoto) cells. The interactors include GATAD1, Sgf29, BAP18, TRRAP, PHF8, N-PAC and LRWD1 (including replicates), as well as an GFP ChIP-Seq profile on non-transfected HeLa cells (negative control). Also included are the profiles of the histone modifications themselves (H3K4me3, H3K27me3, H3K9me3, H3K36me3, H3K9/14Ac and H3K79me3) ChIP-Seq profiling of 8 proteins by their GFP tag in stably transfected cells HeLa (Kyoto) cells, 6 replicas, as well as ChIP-Seq profiling of 6 histone modifications in wt HeLa (Kyoto) cells