Project description:Kidney cancer accounts for more than 100,000 deaths per year world-wide. More than 80% are clear cell tumors (ccRCCs) and the majority are associated with loss of function of the von Hippel Lindau (pVHL) tumor suppressor resulting in upregulation of HIF-{alpha} subunits, and activation of HIF-dependent transcriptional pathways. Recent GWAS studies have discovered RCC-susceptibility loci both within EPAS1 (HIF-2{alpha}) and in an intergenic region of unknown function on 11q13.3. As part of an ongoing study to define the direct transcriptional targets of HIF-2 in renal cancer, we undertook a genome-wide analysis of HIF-2-binding sites in pVHL-defective 786-O cells (that lack functional HIF-1{alpha} due to a truncated transcript) using chromatin immunoprecipitation with antibodies directed against HIF-2{alpha} and its dimerization partner HIF-1{beta}, coupled to high-throughput sequencing (ChIP-seq). Amongst approximately 600 pangenomic HIF-2{beta} ChIP signals, we observed strong binding (ranked 12th by peak height) almost precisely coinciding with the RCC predisposition SNP rs7105934 on 11q13.3. We report binding of HIF-2{alpha} and HIF-1{beta} in 786-O clear cell renal carcinoma cells. 3 samples examined, HIF-2{alpha}, HIF-1{beta} and pre-immune control ChIP.

Project description:The goal of this study was to identify genomic binding sites of the NRSF/REST transcription factor under conditions of basal and increased SF-1 dosage in the H295R human adrenocortical tumor cell line. 4 samples: input DNA (2 replicates) - NRSF/REST ChIP basal SF-1 dosage - NRSF/REST ChIP increased SF-1 dosage

Project description:The goal of this study was to identify chromatin regulatory sites by FAIRE-seq under conditions of basal and increased dosage of transcription factor SF-1 in the H295R human adrenocortical tumor cell line. 4 samples: input DNA in basal SF-1 expression conditions - FAIRE-seq in basal SF-1 expression conditions - input DNA in SF-1 overexpression conditions - FAIRE-seq in SF-1 overexpression conditions

Project description:We found ribosomal transcription factor Ifh1p is dynamically acetylated and phosphorylated in response to nutrient cues. ChIP-seq data revealed dynamic binding to ribosomal genes (RP) during the OX growth phase of the yeast metabolic cycle (YMC) when RP genes are highly induced, and weaker binding in the RC quiescent-like phase. Besides RP genes, our ChIP-seq data also reveals binding of Ifh1p to non-RP genes such as translation factors and metabolic genes. Examination of Ifh1p binding over two timepoints of the YMC (OX, RC) using Input as the control.

Project description:The goal of this study was to identify genomic binding sites of the SF-1 nuclear receptor under conditions of basal and increased dosage in the H295R human adrenocortical tumor cell line. 14 samples: input DNA (2 replicates) - SF-1 ChIP Millipore antibody basal SF-1 dosage (3 replicates) - SF-1 ChIP Millipore antibody increased SF-1 dosage (3 replicates) - SF-1 ChIP Perseus antibody basal SF-1 dosage (3 replicates) - SF-1 ChIP Perseus antibody increased SF-1 dosage (3 replicates)

Project description:Higher-order chromosome structure is assumed to control various DNA-templated reactions in eukaryotes. Meiotic chromosomes implement developed structures called M-bM-^@M-^\axesM-bM-^@M-^] and M-bM-^@M-^\loopsM-bM-^@M-^]; both are suggested to tether each other, activating Spo11 to catalyze meiotic DNA double-strand breaks (DSBs) at recombination hotspots. We found that the Schizosaccharomyces pombe Spo11 homolog Rec12 and its partners form two distinct subcomplexes, DSBC (Rec6-Rec12-Rec14) and SFT (Rec7-Rec15-Rec24). Additionally, Mde2, whose expression is strictly regulated by the replication checkpoint, interacts with a component of each subcomplex. The SFT subcomplex binds to both axes via direct interaction of Rec15 with Rec10 in axes and DSB sites, hence axial Rec10 can partially tether DSB sites located in loops. Importantly, this multiprotein-based tethered axis-loop complex is destabilized in the absence of Mde2. We therefore propose a novel mechanism by which Mde2 functions as a recombination initiation mediator to tether axes and loops, in liaison with the meiotic replication checkpoint. ChIP-chip analyses of Rec10 (in wild type), Mde2 (in wild type and rec15M-bM-^HM-^F), and Rec15 (in wild type, rec10M-bM-^HM-^F, rec24M-bM-^HM-^F and mde2M-bM-^HM-^F) at meiosis 4 hours.

Project description:We found acetyl-CoA levels increase when cells are committed to growth. We also found 3 components of the SAGA complex, Spt7p, Sgf73p and Ada3p as well as histones are dynamically acetylated in tune with the acetyl-CoA levels. ChIP-seq study reveals SAGA and H3K9ac predominantly occupy growth genes at the OX growth phase of the yeast metabolic cycle indicating acetyl-CoA levels may drive growth gene transcription program through acetylation of these proteins. Examination of H3K9ac and SAGA binding over two timepoints using H3 and Input as controls

Project description:ELF4 (also known as MEF) is a member of the ETS family of transcriptional factors. While an oncogenic role has been demonstrated for ELF4 mainly in hematopoietic malignancies, its definitive function in human carcinogenesis is not clear yet. Here we demonstrate that a wide array of human tumors carry somatic, loss-of-function mutations in ELF4 for its transcriptional activity, and restoring its function exerts anti-proliferative effects. To further explore the tumor suppressive function of ELF4, its binding sites were searched among the human genome with the use of chromatin immunoprecipitation coupled with sequencing (ChIP-seq).

Project description:Although well characterized as a transcriptional activator, androgen receptor (AR) can also function as a direct transcriptional repressor in prostate cancer cells. The major targets of the AR repressive function are genes mediating DNA synthesis. In this study, we found that AR was recruited to the majority of these DNA synthesis genes and rapidly repressed their transcription. This direct AR mediated repression was enhanced in prostate cancer cells expressing higher levels of AR, and was mediated by recruitment of hypophosphorylated retinoblastoma protein (Rb). Examination of Rb binding in 4 hours DHT treated prostate cancer cell lines VCaP and LNCaP

Project description:Following implantation, mouse epiblast cells transit from a naïve to a primed state in which they are competent for both somatic and primordial germ cell (PGC) specification. Using mouse embryonic stem cells (mESC) as an in vitro model to study the transcriptional regulatory principles orchestrating peri-implantation development, here we show that the transcription factor Foxd3 is necessary for the exit from naïve pluripotency and the progression to a primed pluripotent state. During this transition, Foxd3 acts as a repressor that dismantles a significant fraction of the naïve pluripotency expression program through the decommissioning of active enhancers associated with key naïve pluripotency and early germline genes. Subsequently, Foxd3 needs to be silenced in primed pluripotent cells to allow the reactivation of relevant genes required for proper PGC specification. Our findings uncover a wave of activation-deactivation of Foxd3 as a crucial step for the exit from naïve pluripotency and subsequent PGC specification. Genome-wide binding profiles for Foxd3 were investigated in mouse embryonic stem cells (mESC). A mESC line (FH-Foxd3 mESC line) expressing exogenous Foxd3 tagged with Flag and HA epitope (FH-Foxd3) at nearly endogenous levels was generated. ChIPs were performed against FH-Foxd3 using anti-HA or anti-Flag antibodies.