Project description:Genome-wide maps of RNA polymerase II occupancy and transcriptome profile in response to expression of ectopic MYC proteins in immortalized MEF cells
Project description:We generated genome-wide chromatin state and RNA Polymerase II binding maps in mouse erythroid cells by ChIP-Seq. Examination of 4 different histone modifications (H3K4me3, H3K4me1, H3K27me3, H3K27ac) and RNA Polymerase II (RNAP2) binding in mouse erythroid cells (Ter119+).
Project description:RUVBL2 is most important AAA+ ATPase for RNA polymerase II assembly and transcription regulation, through DNA remodeling or by directly interaction with PIC,this study will comprehensively to study the promiscuous functions of this proteins through the ChIP-MS, ChIP-seq, RNA-seq and nascent RNA seq and biochemistry analysis. Our study would provide more systematic and novel responsibility of this molecule, especially for the development and carcinomas.
Project description:We report the genome-wide Chd1 co-occupancy with early transcription elongation factors ChIP-seq for Chd1 and elongating RNA polymerase II
Project description:We have examined the roles of yeast mRNA decapping-activators Pat1 and Dhh1 in repressing the translation and abundance of specific mRNAs in nutrient-replete cells using a combination of ribosome profiling, RNA-Seq, CAGE analysis of capped mRNAs, RNA Polymerase II ChIP-Seq, and TMT-mass spectrometry of mutants lacking one or both factors.
Project description:Genome-wide occupancy of PPARbeta/delta in human myofibroblast (WPMY-1 celline) was studied with ChIP-Seq. Additionally, H3K4 trimethylation and RNA polymerase II status was examined.
Project description:Routine methods for assaying steady-state mRNA levels such as RNA-seq and micro-arrays are commonly used as readouts to study the role of transcription factors (TFs) in gene expression regulation. However, cellular RNA levels do not solely depend on activity of TFs and subsequent transcription by RNA polymerase II (Pol II), but are also affected by RNA turnover rate. Here, we demonstrate that integrated analysis of genome-wide TF occupancy, Pol II binding and steady-state RNA levels provide important insights in gene regulatory mechanisms. Pol II occupancy, as detected by Pol II ChIP-seq, was found to correlate better with TF occupancy compared to steady-state RNA levels and is thus a more precise readout for the primary transcriptional mechanisms that are triggered by signal transduction. Furthermore, analysis of differential Pol II occupancy and RNA-seq levels identified genes with high Pol II occupancy and relatively low RNA levels and vice versa. These categories are strongly enriched for genes from different functional classes. Our results demonstrate a complementary value in Pol II chip-seq and RNA-seq approaches for better understanding of gene expression regulation. 3 replicates of RNAPII ChIP-seq and RNA-seq under normal and Wnt suppressed conditions
Project description:We report the application of high throughput sequencing technology for investigating the transcriptional regulatory network of the human innate immune response. With ChIP-seq, we generated genome-wide virus-activated transcription factor and transcription machinery maps of infected and uninfected human Namalwa B cells. Analysis of ChIP-seq data reveals extensive collaboration of IRF3 and NF-κB with Mediator throughout the human genome, and implicates additional transcription factor partners in antiviral responses. Moreover, analysis of Pol II occupancy and elongation status during virus infection indicates that IRF3 and NF-κB drive both de novo polymerase recruitment and mediate polymerase pause-release at their target sites, stimulating the expression of a variety of protein-coding, non-coding, and unannotated loci. Examination of 6 different proteins before and after virus infection in 1 cell type.
