Project description:DamID with sPom121, Nup98 and control proteins (GFP and Cbx1) N-term tag sPom121, Nup98 or GFP and express in HeLa-C cells - conduct deep sequencing

Project description:CEH-60 binding profile by comparison of DNA methylation of a C. elegans strain expression ceh-60::dam to a control strain expressing gfp::dam. Sequencing libraries prepared using NEBNext Singleplex oligos for Illumina®. Data analysis performed with GeneDamIDseq (Sharma, Ritler, and Meister 2016).

Project description:Our study reports the first genome-wide atlas of functional nodes that mediate proviral silencing in ESCs. It provides evidences for the comprehensive, interconnected and multi-layered genetic/epigenetic machineries by which ESCs maintain the repressive state of provirus and ERVs. ChIP-seq analysis of Chaf1a, Trim28, Sumo2 and Zfp809 to demonstrate the mechanism of the silencing of Endogenous retroviruses

Project description:Histone H4ac and Brd4 are critical for ESCs 12 samples: 2 replicates for each ChIP, 2 replicates for each input sample.

Project description:We previously demonstrated by genomic and bioinformatical approaches that human macrophage (MΦ) activation is best described by a spectrum model (Xue et al, Immunity, 2014). MΦ integrate exogenous input signals on transcriptional level in a unique fashion to generate specific functional programs, enabling the plasticity in disease-related pathophysiologies. Such versatile responsiveness requires fast changes of transcription mediated by transcriptional regulators (TRs) or epigenomic changes. To better understand the principles of this regulation during human MΦ activation, we assessed histone modifications including H3K4me1, H3K4me3, H3K27me3, and H3K27Ac by ChIP-sequencing allowing us to characterize the functional state of promoters (active, poised, repressed) and enhancers (active, inactive, intermediate). Using transcriptome data from our MΦ spectrum model, we generated a co-regulation network of all TRs. Next, we overlaid epigenomic information and transcriptional changes of major TRs over time onto the TR network. We observed that input signals like IFNγ or TNFα induce a specific network of TRs that are transcriptionally regulated themselves, the combination of regulated TRs changes over time with a boost of transcriptional regulation of dozens of TRs 4 to 12 hrs post input signal exposure, almost all TRs within the network show active promoters, even if the TR itself is not expressed, and similar results are obtained for enhancers with open or at least intermediated states. These findings strongly suggest that in MΦ, the TR-defined cellular â??switch panelâ?? is always accessible thereby allowing MΦ to quickly respond to the diverse input signal repertoire from the environment. Epigenetic analysis of promoter and enhancer sites in primary human macrophage subtypes and correlation to RNA-seq expression data

Project description:Chronic obstructive pulmonary disease (COPD), the fourth leading cause of death globally, is influenced by both cigarette smoking and genetic determinants. We have previously identified iron-responsive element binding protein 2 (IRP2) as a candidate COPD susceptibility gene based on genetic association studies, with IRP2 increased in the lungs of COPD patients. Here we demonstrate that mice deficient in IRP2 are protected from cigarette smoke (CS)-induced COPD. Using RIP-Seq, RNA-Seq, gene expression and pathway analysis, we identify IRP2 as a regulator of mitochondrial function in the lung. We show that an increase in IRP2 results in a cytochrome c oxidase (COX)-dependent alteration in oxidative capacity and mitochondrial-iron dysfunction involving frataxin. We demonstrate that mice with impaired COX or frataxin activity have altered responses to CS and show that overexpressing IRP2 in vivo alters mitochondrial dynamics. These data suggest a critical role of the mitochondria-iron axis in mediating the pathogenesis of COPD. 1.5 X106 Beas2B cells (purchased from ATCC) with or without 10 μM DFO (16 h) (15 cm2 dishes) were washed with ice cold PBS and collected into 2 ml eppendorfs by scraping. RNA immunoprecipitation was carried out using the Magna RIP� RNA-Binding Protein Immunoprecipitation Kit (Millipore, Billerica, MA). 4 μg of Irp2 (7H6: sc-33682, Santa Cruz, Dallas, Texas) or 4 μg of IgG rabbit control antibody (sc-2749, Santa Cruz) were added to supernatants and incubated overnight at 4°C. RNA was extracted from Magna RIP� beads by Trizol extraction. Samples were prepared for RNA-Seq using the TruSeq RNA-Seq Lib Prep Reagent (Illumina, San Diego, CA) and performed on the Illumina HiSeq2000 platform.

Project description:The COP9 signalosome protein complex has a central role in the regulation of development of multi-cellular organisms. While the function of this complex in ubiquitin-mediated protein degradation is well established, results over the past few years have hinted that the COP9 signalosome may function more broadly in the regulation of gene expression. Here, using DamID technology, we show that COP9 signalosome subunit 7 functionally associates with a large number of genomic loci in the Drosophila genome, and show that the expression of many genes within these loci is COP9 signalosome-dependent. This association is likely direct as we show CSN7 binds DNA in vitro. The genes targeted by CSN7 are preferentially enriched for transcriptionally active regions of the genome, and are involved in the regulation of distinct gene ontology groupings including imaginal disc development and cell-cycle control. DamID experiments were done in Drosophila Kc167 cells. Samples were hybridized to 380k NimbleGen arrays with 300 bp probe spacing. The experiment contains 4 samples, three biological replicates and one reverse dye orientation. For each sample Dam-fusion material was hybridized over Dam-only material.

Project description:The molecular clock is a transcriptional oscillator present in brain and peripheral cells that coordinates behavior and physiology with the solar cycle. Here we reveal that the clock gates insulin secretion through genome-wide transcriptional control of the pancreatic exocyst across species. Clock transcription factors bind to unique enhancer sites in cycling genes in beta cells that diverge from those in liver, revealing the dynamics of inter-tissue clock control of genomic and physiologic processes important in glucose homeostasis. ChIP-Seq in Beta-TC6 mouse beta cells

Project description:Heterochromatin contains repressively modified histones and replicates late in S phase of the cell cycle. Besides the shortage in replication origins, little is known about replication timing regulation in silenced regions. In Drosophila polytene cells, late replication results in under-replication and decreased DNA copy number in heterochromatic regions of the genome. The Suppressor of Under-replication (SUUR) protein controls this feature â?? in its absence the DNA polytenization level in most silenced regions is restored, however the repressive histone marks are lost. We hypothesized that SUUR regulates the re-establishment of repressive histone pattern during replication which results in delayed replication completion of heterochromatin. Measuring DNA copy number in mutants with disrupted repressive pathways, we found that under-replication is directly linked to repressive histone marks supply. DamID-seq and ChIP-seq experiments revealed that SuUR mutation does not affect the establishment of heterochromatin domains. Here, we identified a novel SUUR protein interaction (CG12018) that supports SUUR association with replication complex. SUUR loads onto replication forks shortly after the origin firing and participates in chromatin maintenance rather than its establishment. Thus, our findings provide comprehensive evidence that late replication in Drosophila is caused by the time-consuming process of replication-coupled repressive chromatin renewal. Examination of three chromatin proteins in slivary glands in presence or absence of SuUR mutation using DamID technique.

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series