Project description:ChIP-seq analysis of AR, Sp1, H3K27Ac, and H3K4me1; The genime-wide distribution of AR, Sp1, H3K27Ac, and H3K4me1 druing murine embryonic external genitalia (eExG) sex differentiation was shown.
Project description:To understand the transcription regulation in prostate cancer cell line Vcap, we performed H3K4me1 and H3K27ac ChIP-seq with specific antibody.
Project description:ChIP profiling of transcription factor Etv4 (Pea3) Gabpa, Histone deacetylase HDAC2, Ep300 and Histone tails H3K4me1 and H3K27ac in E11.5 limb derived cell line (14Fp ) across the ZRS and a selection of limb development genes
Project description:OCI-AML3 Acute myeloid leukemia cell line was used for ChIP-sequencing profiling of H3K4me3, H3K4me1, H3K9ac and H3K27ac histone post-translational modifications to identify active promoter and enhancer regions.
Project description:Profiling H3K4me1 & H3K27ac histone modifications across the ZRS and a selection of limb development genes within Mouse E11.5 distal limb bud tissue.
Project description:Considered as fundamental epigenetic regulators controlling many key cellular processes, histone modifications are a well-conserved and widely studied class of epigenetic modifications. Genome-wide studies have identified enhancers as DNA sequences that bind to H3K4me1 and H3K27ac and promoters as DNA sequences that bind to H3K4me3. To explore how the Twist1 complex (Twist1/YY1/p300) regulates miR-9 expression, we performed ChIP-seq in PLC-PRF-5 cells, providing a panorama of p300, H3K4me3, H3K4me1, and H3K27ac.
Project description:H3K4me1 (ab8895 Abcam) and H3K27ac (ab4729 Abcam) antibodies were used for ChIP-seq in Ring1a-/- mouse ES cells and after 48h tamoxifen treatment in conditional knock-out of Ring1b in the Ring1a -/- background.
Project description:Temporal and spatial gene expression patterns are regulated by enhancer-specific histone modifications H3K4me1 and H3K27ac. To better understand age-dependent alteration of these enhancer marks, we analysed their genome-wide profiles and compared against changes in gene expression in the head tissues harvested from young Day 10 and D50 male Drosophila. The genome-wide binding patterns of H3K4me1 and H3K27ac remain highly similar (>85%) during ageing with marginally higher signals for both marks in older Day 50 flies. Signals were significantly higher in Day 50 flies near the transcription start sites for H3K4me1 whereas for H3K27ac, signals were significantly higher in Day 50 flies globally. Interestingly, analysis using MACS bdgdiff identified “x” H3K4me1 and “y” H3K27ac differential peaks that correlated with distinct sets of age-dependent differential expressed genes (DEG). Most of the H3K4me1 differential peaks (percentage of x) are located within the gene body of DEGs that are associated with RNA and metabolic processes. On the other hand, majority of differential H3K27ac peaks (percentage of y) are located 5 kb upstream of TSS of DEG enriched for various immune responses. Our results suggest that while both enhancer marks do not undergo significant global reconfiguration during aging, they are likely to be involved in activating independent sets of genes through distinct transcription activators.