Project description:Knockdown of 30 highest response genes with impact in the Metabolomics/proteomics data

Project description:We report that p53 knockdown changed AR-DNA binding across the genome. We found fewer AR-binding sites in the absence of p53. Examination of AR-DNA binding after p53 knockdown in LNCaP cells

Project description:Chromatin modifications have been implicated in the self-renewal and differentiation of embryonic stem cells (ESCs). However, the function of histone variant H2A.Z in ESCs remains unclear. We show that H2A.Z is highly enriched at promoters and enhancers and is required for both efficient self-renewal and differentiation of murine ESCs. H2A.Z deposition leads to an abnormal nucleosome structure, decreased nucleosome occupancy and increased chromatin accessibility. In self-renewing ESCs, knockdown of H2A.Z compromises OCT4 binding to its target genes and leads to decreased binding of MLL complexes to active genes and of PRC2 complex to repressed genes in self-renewal of ESCs. During differentiation of ESCs, inhibition of H2A.Z also compromises RA-induced RARα binding, activation of differentiation markers and the repression of pluripotency genes. We propose that H2A.Z mediates such contrasting activities by acting as a 'general facilitator' that generates access for a variety of complexes both activating and repressive. ChIP-Seq in murine embryonic stem (mES) cells for H2A.Z and acetylated H2A.Z. ChIP-Seq of H3K4me3, H3K27me3, RbBP5, SUZ12 and OCT4 for mES cells of both H2A.Z RNAi knockdown and shLuc control. ChIP-Seq of RARalpha in H2A.Z knockdown (withdraw of LIF and exposure to RA for 3h) and control cells. MNase-Seq and chromatin accessibility assay using Benzonase digestion followed by next-generation sequencing for mES cells of both H2A.Z RNAi knockdown and shLuc control. ChIP-Seq of H2A.Z and H3K4me3 for mES cells of both MLL4 RNAi knockdown and shLuc control. RNA-Seq for mES cells of H2A.Z knockdown and shluc control. RNA-Seq for embryonic bodies derived from mES cells (H2A.Z knockdown and shLuc control) at day 3 and day 7.

Project description:Whole genome sequencing of ATRX / TP53 knockdown clones of the neuroblastoma cell line SK-N-SH

Project description:Purpose: The aim of this study was to determine the DNA methylation state of wildtype female mouse embryonic fibroblasts with nonsilencing shRNA mediated knockdown and Setdb1 geneTrap heterozygous cells with Setdb1 shRNA mediated knockdown. Methods: Enhanced Reduced Representation Bisulfite Libraries (eRRBS) were produced as previously descirbed (Akalin et al. 2012). Libraries were pooled and sequenced on the Illumina HiSeq 2000 platform for 100 bp single-end reads with dark cycle parameters (Boyle et al. 2012). Image analysis was performed in real time by the HiSeq Control Software (HCS) v1.4.8 and Real Time Analysis (RTA) v1.12.4.2, running on the instrument computer. Real-time base calling on the HiSeq instrument computer was performed with the RTA software. Illumina CASAVA1.8 pipeline was used to generate the sequence data. Determine the DNA methylation state of mouse embryonic fibroblasts (MEFs) with wildtype MEFs and nonsilencing shRNA mediated knockdown or Setdb1 geneTrap heterozygous MEFs with Setdb1 shRNA mediated knockdown. Single-end with dark cycle protocol (Boyle et al. 2012)

Project description:EIF3B knockdown

Project description:Knockdown strains

Project description:Setd2 knockdown.

Project description:TgENT1 Knockdown

Project description:ChIP-seq and RNA-seq of glioblastoma initiating cells and their differentiated counterparts with and without inhibition/knockdown of KDMs.