Project description:Complexes containing INTS3 and either NABP1 or NABP2 were initially characterized in DNA damage responses, but their biochemical function remained unknown. Using affinity purifications and HIV Integration Targeting-Sequencing (HIT-Seq), we find that these complexes are part of the Integrator complex, which binds RNA Polymerase II and regulates specific target genes. Integrator cleaves snRNAs as part of their processing to their mature form in a mechanism that is intimately coupled with transcription termination. However, HIT-Seq reveals that Integrator also binds to the 3’ end of replication-dependent histones and promoter proximal regions of genes with polyadenylated transcripts. Depletion of Integrator subunits results in transcription termination failure, disrupting histone mRNA processing, and leading to polyadenylation of snRNAs and histone mRNAs. Furthermore, promoter proximal binding of Integrator negatively regulates expression of genes whose transcripts are normally polyadenylated. Integrator recruitment to all three gene classes is DSIF-dependent, suggesting that Integrator functions as a termination complex at DSIF-dependent RNA Polymerase II pause sites. HITseq was used to interrogate chromatin binding sites of of proteins in the complex (including INIP, INTS3, INTS9, INTS11, NABP1, NABP2, NELFA, NELFB, NELFCD, NELFE, SPT5). These proteins were fused to LEDGF-IBD and expressed in mouse LEDGF-/-MEF cells. The fusion proteins then target HIV integration to the chromatin binding sites. The HIV integration sites were identified using linker-mediated PCR and highthroughput sequencing and serve as surrogate for chromatin binding sites. Mapping was done using mouse genome mm9.

Project description:We report the sites of protospacer integration into plasmids by Cas1-Cas2. The goal of this study is to determine the role of sequence elements on protospacer integration. Methods: Cas1-Cas2 integration products were fragmented, end-repaired, adapter ligated, PCR amplified, and analyzed by Illumina sequencing. Protospacer-containing reads were selected by Cutadapt and mapped to the plasmid with Bowtie.

Project description:Chromosomal double-strand breaks (DSBs) are resected by 5M-bM-^@M-^Y-nucleases to form 3M-bM-^@M-^Y single-strand DNA (ssDNA) substrates for binding by homologous recombination and DNA damage checkpoint proteins. Two redundant pathways of extensive resection were described both in cells and in vitro, one relying on Exo1 exonuclease and the other on Sgs1 helicase and Dna2 nuclease. However, it remains unknown how resection proceeds within the context of chromatin where histones and histone-bound proteins represent barriers for resection enzymes. Here, we have identified the yeast nucleosome remodeling enzyme Fun30 as novel factor promoting DSB end resection. Fun30 is the major nucleosome remodeler promoting extensive Exo1- and Sgs1-dependent resection of DSBs while the RSC and INO80 chromatin remodeling complexes play redundant roles with Fun30 in resection adjacent to DSB ends. ATPase and helicase domains of Fun30, which are needed for nucleosome remodeling, are also required for resection. Fun30 is robustly recruited to DNA breaks and spreads around the DSB coincident with resection. Fun30 becomes less important for resection in the absence of the histone-bound Rad9 checkpoint adaptor protein known to block 5M-bM-^@M-^Y strand processing and in the absence of either histone H3 K79 methylation or M-NM-3-H2A, which mediate recruitment of the Rad9 . Together these data suggest that Fun30 helps to overcome the inhibitory effect of Rad9 on DNA resection. Genome-wide expression profiling of Yeast gene expression in two cell type including the wild type and a FUN30 knockout cell, each cell type is tested in two duplicates. Test relative gene integration efficiency in yeast genome-wide homozygous diploid deletion mutants.

Project description:Acute myeloid leukemia (AML) results from multiple genetic and epigenetic aberrations, many of which remain unidentified. Frequent loss of large chromosomal regions marks haplo-insufficiency as one of the major mechanisms contributing to leukemogenesis. However, which haplo-insufficient genes (HIGs) are involved in leukemogenesis is largely unknown and powerful experimental strategies aimed at their identification are currently lacking. Here, we present a new approach to discover HIGs, using retroviral integration mutagenesis in mice in which methylated viral integration sites and neighbouring genes were identified. In total we mapped 6 genes which are flanked by methylated viral integration sites (mVIS). Three of these, i.e., Lrmp, Hcls1 and Prkrir, were up regulated and one, i.e., Ptp4a3, was down regulated in the affected tumor. Next, we investigated the role of PTP4A3 in human AML and we show that PTP4A3 expression is a negative prognostic indicator, independent of other prognostic parameters. In conclusion, our novel strategy has identified PTP4A3 to potentially have a role in AML, on one hand as a candidate HIG contributing to leukemogenesis in mice and on the other hand as a prognostic indicator in human AML. We designed a new strategy to specifically identify DNA methylated proviral integrations on a large scale by combining methylated DNA immunoprecipitation (MeDIP), inverse PCR and promoter array hybridization. We used 6 murine leukemia samples from a previous screen that were induced by injecting Gr 1.4 MLV into newborn mice.

Project description:Histone modifications regulate chromatin-dependent processes, yet the mechanisms by which they contribute to specific outcomes remain unclear. H3K4me3 is a prominent histone mark that is associated with active genes and promotes transcription through interactions with effector proteins that include initiation factor TFIID. We demonstrate that H3K4me3-TAF3 interactions direct global TFIID recruitment to active genes, some of which are p53 targets. Further analyses show that (i) H3K4me3 enhances p53-dependent transcription by stimulating preinitiation complex (PIC) formation; (ii) H3K4me3, through TAF3 interactions, can act either independently or cooperatively with the TATA box to direct PIC formation and transcription; and (iii) H3K4me3-TAF3/TFIID interactions regulate gene-selective functions of p53 in response to genotoxic stress. Our findings indicate a mechanism by which H3K4me3 directs PIC assembly for the rapid induction of specific p53 target genes Examination of genome wide binding sites of TAF3 full length protein vs TAF3 PHD domain alone (Full vs PHD), with or without M880A mutation (WT vs mut) in mouse MEF cells using HITseq method (PNAS 2010, 107:3135-3140, PMID: 20133638)

Project description:Human fetal liver fibroblast were reprogrammed to chiPS without exogenous DNA integration using a single episomal vector. The chiPS were then transplanted into SCID mice and HuSCID to form teratomas. We used microarrays to profile the gene expression differences between the teratomas formed by chiPS in SCID and HuSCID mice. Pooled total RNA from two teratomas formed by chiPS in SCID and HuSCID mice respectively were used for hybridization on Affymetrix microarrays.

Project description:ING2 (inhibitor of growth family member 2) is a component of a chromatin-regulatory complex that represses gene expression and is implicated in cellular processes that promote tumor suppression. However, few direct genomic targets of ING2 have been identified and the mechanism(s) by which ING2 selectively regulates genes remains unknown. Here we provide evidence that direct association of ING2 with the nuclear phosphoinositide phosphatidylinositol-5-phosphate (PtdIns(5)P) regulates a subset of ING2 targets in response to DNA damage. At these target genes, the binding event between ING2 and PtdIns(5)P is required for ING2 promoter occupancy and ING2-associated gene repression. Moreover, depletion of PtdIns(5)P attenuates ING2-mediated regulation of these targets in the presence of DNA damage. Taken together, these findings support a model in which PtdIns(5)P functions as a sub-nuclear trafficking factor that stabilizes ING2 at discrete genomic sites. Genome-wide expression profiling of HT1080 cells stably transduced with ING2 or a ING2 lipid binding mutant in the presence of vehicle (DMSO) or etoposide. Each condition is tested in triplicate

Project description:Women are vulnerable to cervical diseases including normal control, HSIL and early stage cervical carcinoma . The parallel reaction monitoring mass spectrometry (PRM-MS) were used to qualitatively and quantitatively analyze the candidate differential proteins identified in our previous studies and to link them with HPV status. The integration of HPV status with candidate serum markers is expected to efficiently narrow down the high risk population and provide sufficient clinical information for early diagnosis and effective therapy.

Project description:Define the sequence requirement for FtsK-driven and XafT-driven Xer recombination reactions

Project description:The Facilitates Chromatin Transcription (FACT) is involved in chromatin remodeling during transcription, replication and DNA repair and is considered to be an ubiquitously expressed complex that has no known associations with any disease. However, we discovered that FACT is expressed in very limited number of cells of adult mammalian organism, mostly presented by stem and undifferentiated cells. Here, we show that FACT is present in poorly differentiated aggressive cancers with an overall low survival rate. FACT acts as an "accelerator" of tumor transformation. It cannot drive transformation like an oncogene, but it increases the efficiency of oncogene-induced transformation. FACT expressing cancer cells cannot grow in the absence of FACT possibly due to the FACT involvement in selective chromatin remodeling of genes that stimulate proliferation, inhibit cell death and differentiation and that are induced in response to cell stress. We propose that FACT is a marker of an aggressive cancer phenotype and Patients with FACT-positive tumors are noted for an overall poorer survival rate. FACT expression in primary tumors may be used as a predictor of metastatic disease. FACT may also be used as a target of anti-cancer therapy because tumor cells expressing FACT are dependent on FACT function, while normal cells either do not express FACT or are not sensitive to FACT inhibition. Examination of AR binding sites of 3 replicates of untreated cells and 3 replicates of curaxin-treated cells, each with 3 replicate controls