Project description:We performed DNase-seq on root tissue, root epidermal cell types, seed coat epidermal cells at two developmental stages, and open and closed flowers. Root: We performed chromatin profiling (DNase-seq) on whole root (all cell types), or root epidermal cell types (hair cell, non-hair cell). Seed coat: We performed chromatin profiling on seed coat epidermal cells from siliques at two developmental stages (4 days past anthesis, 7 days past anthesis). We preformed chromatin profiling (DNase-seq) on flowers at two developmental time points (open and closed flowers). All plants were grown on plates (roots only) or in soild in LD conditions (16hr light 22°C, 8hr dark 20°C). The following processed data files are pooled short read data from 2 biological replicates (GSM1289379 [DS21306] and GSM1824051 [DS20134]): Col-0.Seed_Coat.Seed_Coat_7DPA.DNase.pooled.6.8M.signal.bw Col-0.Seed_Coat.Seed_Coat_7DPA.DNase.pooled.6.8M.peaks.bed Col-0.Seed_Coat.Seed_Coat_7DPA.DNase.pooled.6.65M.signal.bw Col-0.Seed_Coat.Seed_Coat_7DPA.DNase.pooled.6.65M.peaks.bed The following processed data files are pooled short read data from 2 biological replicates (GSM1824052 [DS20131] and GSM1824053 [DS20132]): Col-0.Seed_Coat.Seed_Coat_4DPA.DNase.pooled.6.8M.signal.bw Col-0.Seed_Coat.Seed_Coat_4DPA.DNase.pooled.6.8M.peaks.bed Col-0.Seed_Coat.Seed_Coat_4DPA.DNase.pooled.6.65M.signal.bw Col-0.Seed_Coat.Seed_Coat_4DPA.DNase.pooled.6.65M.peaks.bed The following processed data files are pooled pooled short read data from 2 biological replicates (GSM1824054 [DS19056] and GSM1824055 [DS21512]): Col-0.Root.Hair.DNase.pooled.6.8M.signal.bw Col-0.Root.Hair.DNase.pooled.6.8M.peaks.bed

Project description:We performed DNase-seq on 7-day-old seedlings from four A. thaliana accessions: Bur-0, Tsu-0, Bay-0, Est-1 using INTACT constructs (Deal and Henikoff, Developmental Cell, 2010) driven by the UBQ10 promoter. Chromatin accessibility profiling (Dnase I-seq) of 7-day-old seedlings of A. thaliana accessions: Bur-0, Tsu-0, Bay-0 & Est-1 grown in LD conditions (16hr light 22°C, 8hr dark 20°C).

Project description:We mapped DNaseI hypersensitive sites (DHSs) and applied genomic footprinting to define in vivo transcription factor (TF) occupancy at nucleotide resolution across the A. thaliana genome in whole seedlings during heat- and light-response states. We find that trait-associated variation localizes within DHSs, and that extensive TF occupancy within protein-coding exons has shaped A. thaliana codon usage. Analysis of >700,000 TF footprints disclosed an extensive cis-regulatory lexicon, and enabled construction of large-scale TF cross-regulatory networks. Although the cis- and trans-regulatory repertoire is markedly distinct from mammals, the architecture of A. thaliana TF networks is strikingly similar to those of human. Analysis of the DHS landscape and TF network dynamics during heat shock and photomorphogenesis revealed thousands of conditionally-sensitive elements and enabled mapping of key regulatory circuits. Our results provide an extensive resource for understanding and enabling diverse aspects of A. thaliana biology.

Project description:Base-pair level resolution of DNase susceptibility of the native chromatin state. These maps represent and are dependent upon the nature and the specificity of interaction of the DNA with the regulatory/modulatory proteins binding at specific loci in the genome; thus they represent the native chromatin state of the genome under investigation. The deep sequencing approach has been used to define the footprint landscape of the genome by identifying DNA motifs that interact with known or novel DNA-binding proteins 2 replicates of the erythroid cells were generated and profiled by Dnase I.

Project description:Trisomy 21 (T21) is the most frequent genetic cause of cognitive impairment. To assess the perturbations of gene expression in T21, and to eliminate the noise of the genomic variability, we studied the transcriptome of fetal fibroblasts from a pair of monozygotic twins discordant for T21. Here we show that the differential expression between the twins is organized in domains along all chromosomes that are either up- or downregulated. These gene expression dysregulation domains (GEDDs) can be defined by the expression level of their gene content, and are well conserved in induced pluripotent stem cells derived from the twins’ fibroblasts. Comparison of the transcriptome of the Ts65Dn mouse model of DS and wild-type, also showed GEDDs along the mouse chromosomes that were syntenic in human. The GEDDs correlate with the lamina-associated (LADs) and replication domains of mammalian cells. The overall LADs position was not altered in trisomic cells. However, the H3K4me3 profile of the trisomic fibroblasts was modified and accurately followed the GEDD pattern. These results suggest that the nuclear compartments of trisomic cells undergo modifications of the chromatin environment influencing the overall transcriptome and that GEDDs may therefore contribute to some T21 phenotypes. DNaseI HS mapping in monozygotic twins discordant for trisomy 21 (2 replicates of each).

Project description:We report corresponding gene expression, promoter methylation patterns of differential DHSs as well as differentially occupied TF binding motifs using surrounding DNAseI cut profiles. Overall, our study provides a framework for model studies of HL and NHL pathologies. Examination of genome-wide DNaseI hypersensitive sites in L1236, L428, L591, Reh and Namalwa cell lines.

Project description:This data includes regulatory factor profiling using DNase and ChIP-seq and methylation profiling using bisulfite-seq. We investigated CTCF occupancy in the context of reduced methylation by performing genome-wide profiling with chromatin immunoprecipitation (ChIP-seq) in HCT116 cells and DNMT1 and DNMT3B double knockout (DKO) HCT116 cells. We also profiled HCT116 and DKO using DNaseI-seq and ChIP-seq for trimethylation of histone 3 lysine 4 (H3K4me3) and acetylation of histone 3 lysine 27 (H3K27ac), Finally, we performed ChIP-seq on 3 replicates of mock-treated and 2 replicates of 5-aza-CdR-treated K562 cells.

Project description:We performed genome-wide DNaseI hypersensitive site in FLT3-ITD and WT patient samples. We report corresponding gene expression, promoter methylation patterns of differential DHSs as well as differentially occupied TF binding motifs using surrounding DNAseI cut profiles. We examined association patterns of FLT3 ITD and WT AMLs and found that FLT3-ITD signaling is associated with common gene expression and chromatin signature. Examination of Runx1 binding sites in FLT3 ITD AML.

Project description:We performed genome-wide DNaseI hypersensitive site in FLT3-ITD and WT patient samples. We report corresponding gene expression, promoter methylation patterns of differential DHSs as well as differentially occupied TF binding motifs using surrounding DNAseI cut profiles. We examined association patterns of FLT3 ITD and WT AMLs and found that FLT3-ITD signaling is associated with common gene expression and chromatin signature. Examination of genome-wide DNaseI hypersensitivite sites in FLT3 ITD and WT AML.

Project description:We report corresponding gene expression, promoter methylation patterns of differential DHSs as well as differentially occupied TF binding motifs using surrounding DNAseI cut profiles. Overall, our study provides a framework for model studies of HL and NHL pathologies. Examination of DNA Methylation in L1236, L428, Reh and Namalwa cell lines.