Project description:Fluorescence-Activated Nuclei Sorting (FANS)-assisted Assay for Transposase Accessible Chromatin sequencing (ATAC-seq) This work sought to identify endothelial-specific enhancer elements by applying ATAC-Seq to nuclei isolated from Tg(fli1a:egfp) transgenic zebrafish embryos.

Project description:The assay for transposase-accessible chromatin using sequencing (ATAC-seq) is widely used to identify regulatory regions throughout the genome. However, only a few studies have been done at the single cell level (scATAC-seq) due to technical difficulties. Here we developed a simple and robust plate-based scATAC-seq method, combining upfront bulk tagmentation with single-nuclei sorting, to investigate open chromatin regions. We applied this method on mouse splenocytes and unbiasedly revealed key regulatory regions and transcription factors that define each cell (sub)type.

Project description:The ability to analyze chromatin accessibility at the single-nucleus level is a critical step towards capturing the highly complex mechanisms that regulate gene expression in the human brain, and to functionally characterize the genetic architecture of neuropsychiatric traits. The assay for transposase accessible chromatin (ATAC-seq) has rapidly established itself as a robust means of studying epigenome regulation in bulk tissues and, more recently, at the single-cell level. To facilitate optimal preparation of frozen archival human brain tissue samples for single-nuclear ATAC-seq (snATAC-seq), we assessed the impact of different sample preparation approaches on the quality of snATAC-seq libraries. We tested six conditions, including different fluorescent activated nuclear sorting (FANS) strategies, from nuclei isolated from a sample of human cortical tissue. Using an unbiased computational approach, we were able to identify major cell populations in all snATAC-seq libraries, including those not subjected to FANS. When FANS was used, we observed that the choice of DNA stain impacts the quality of ATAC-seq libraries. Staining samples with DAPI can lead to insufficient detection of open chromatin regions, whereas 7aad provides improved identification of some nuclear sub-populations. We also observed that use of fluorescent dyes (in particular, DAPI) can lead to under-sampling of excitatory neurons. Our work provides guidelines on the trade-offs associated with different nuclear isolation strategies when preparing samples for snATAC-seq.

Project description:Assay for Transposable Accessible Chromatin (ATAC) reveals a genome wide view of areas of open chromatin at very high resolution, which are often associated with regulatory activity. The ATAC-seq technology uses a Tn5 transposase loaded with nex-generation sequencing primers in order to simultaneously fragment areas of open chromatin and ligate adapters.

Project description:We performed the assay for transposase-accessible chromatin using sequencing (ATAC-seq) using 88 tissue samples to profile open chromatin regions in the cattle genome.

Project description:In mammals, extensive chromatin reorganization is essential for reprogramming terminally committed gametes to a totipotent state during preimplantation development. However, the global chromatin landscape and its dynamics in this period remain unexplored. Here we report a genome-wide map of accessible chromatin in mouse preimplantation embryos using an improved assay for transposase-accessible chromatin with high throughput sequencing (ATAC-seq) approach with CRISPR/Cas9-assisted mitochondrial DNA depletion. We show that despite extensive parental asymmetry in DNA methylomes, the chromatin accessibility between the parental genomes is globally comparable after major zygotic genome activation (ZGA). Accessible chromatin in early embryos is widely shaped by transposable elements and overlaps extensively with putative cis-regulatory sequences. Unexpectedly, accessible chromatin is also found near the transcription end sites of active genes. By integrating the maps of cis-regulatory elements and single-cell transcriptomes, we construct the regulatory network of early development, which helps to identify the key modulators for lineage specification. Finally, we find that the activities of cis-regulatory elements and their associated open chromatin diminished before major ZGA. Surprisingly, we observed many loci showing non-canonical, large open chromatin domains over the entire transcribed units in minor ZGA, supporting the presence of an unusually permissive chromatin state. Together, these data reveal a unique spatiotemporal chromatin configuration that accompanies early mammalian development. Mouse preimplantation embryos were obtained from crosses of C57BL/6N and DBA/2N. ATAC-seq was performed in these embryos at various stages in preimplantation development.

Project description:In order to identify the open chromatin profiles in the U2OS cell, ATAC-seq technology was used to determine the accessible chromatin landscape in U2OS cell.

Project description:Identification of open chromatin regions in wildtpye, control knock-down (shCtrl) and ZEB1 knock-down (shZEB1) human breast cancer MDA-MB-231 cells by ATAC(Assay for transposable-accessible chromatin)-seq.

Project description:We describe an assay for transposase-accessible chromatin using sequencing (ATAC-seq), based on direct in vitro transposition of sequencing adaptors into native chromatin, as a rapid and sensitive method for integrative epigenomic analysis. ATAC-seq captures open chromatin sites using a simple two-step protocol with 500–50,000 cells and reveals the interplay between genomic locations of open chromatin, DNA-binding proteins, individual nucleosomes and chromatin compaction at nucleotide resolution. We discovered classes of DNA-binding factors that strictly avoided, could tolerate or tended to overlap with the nucleosome. Using ATAC-seq maps of human CD4+ T cells from a proband obtained on consecutive days, we demonstrated the feasibility of analyzing an individual’s epigenome on a timescale compatible with clinical decision-making. We examined chromatin structure using ATAC-seq in 2 cell types (GM12878 cell line, purified CD4+ T cells).

Project description:Active gene transcription is associated with an open chromatin configuration at gene regulatory regions. However, the relationship between chromatin architecture of somatic cells and transcriptional activation during nuclear reprogramming in oocytes is unclear. We therefore examined changes in open chromatin states before and after transplantation of mouse somatic nuclei into Xenopus laevis oocytes by using the Assay for Transposase-Accessible Chromatin Sequencing (ATAC-seq).