SeqMatic offers Bulk ATAC-Seq services for efficient detection of chromatin accessibility and its impact on gene regulation, cell fate determination, and disease processes. The Assay for Transposase-Accessible Chromatin with high-throughput sequencing utilizes a hyperactive Tn5 transposase method, which allows for bulk processing. The Tn5 transposase is used to insert sequencing adapters into open chromatin regions. By capturing temporal changes in chromatin accessibility, ATAC-Seq provides valuable insights into the underlying molecular mechanisms that drive biological processes and disease progression.
When analyzing changes over time in ATAC-seq data, a primary focus is on identifying the open chromatin regions (OCRs) that undergo changes throughout the process. In this context, the input for analysis consists of the differential OCRs between each pair
> Learn about SeqMatic’s Bulk ATAC-Seq services

DNA methylation is an important mechanism in the field of epigenetics. This process involves the addition of a methyl group to a molecule, leading to changes that can influence the expression of certain genes and impact biological functions. Gene expression research studies engage SeqMatic methylation services for genome-wide analysis as well as targeted approaches.
SeqMatic’s high-throughput targeted bisulfite sequencing (Methyl-Seq) solutions enable the evaluation of site-specific DNA methylation changes and the identification of 5-methylcytosine (5mC) and 5-hydroxymethylcytosine (5hmC) within genomes.
The SeqMatic comprehensive methylation analyses provide valuable insights into methylation patterns at a single nucleotide level for a number of applications including the study of disease states such as cancer, monitoring embryonic development, and advancing research in the field of agricultural plants.
Learn more about SeqMatic’s Methylation services (Methyl-Seq)
EM-seq and sodium bisulfite conversion methods

Figure Source: New England BioLabs Inc. Technical Note “NEBNext® Enzymatic Methyl-seq (EM-seq™)”
The simplicity and scalability provided by the assay for transposase-accessible chromatin using sequencing (ATAC-Seq) drives the popularity and adoption of this technique for the detection and assessment of genome-wide chromatin accessibility of cell types and how their normal state may be altered by triggers.
> Learn more about SeqMatic’s ATAC-Seq services

ChIP-Seq is a powerful method that combines chromatin immunoprecipitation with Next-Generation Sequencing (NGS) to conduct comprehensive surveys of gene regulation on a genome-wide scale.
The SeqMatic laboratory offers ChIP-Seq as a valuable tool to investigate protein interactions with DNA and the binding sites of transcription factors. This technique is particularly useful in research projects focused on understanding the progression of cancer and other diseases. By generating millions of counts across multiple samples, ChIP-Seq yields important data and insights into gene regulation.
ChIP-Seq Advantages For Epigenome Profile Sequencing:
One of the key advantages of the ChIP-Seq method is its compatibility with various types of input DNA samples. It enables the identification of DNA targets bound by transcription factors and histone modifications throughout an organism’s entire genome. Moreover, when combined with RNA sequencing and methylation analysis, ChIP-Seq unveils intricate gene regulation networks. This approach provides a comprehensive understanding of how transcription factors interact with DNA and the impact on gene expression.

Workflow Image Source: Wikipedia free licensed image
10x Genomics Chromium Single Cell Multiome ATAC + Gene Expression – The SeqMatic facility offers the ability to simultaneously profile gene expression and open chromatin within the same cell, thereby enabling a more comprehensive characterization of cell types and states through dual readouts. This integrated method proves especially valuable in discerning disease subtypes and predicting biomarkers. The multidimensional aspect of the multi-omics solution supports numerous research projects with focus on cancer and other diseases, including the investigation of genetic and phenotypic alterations, as well as resistance mechanisms to target therapies.
> Learn about SeqMatic’s Single Cell ATAC-Seq Services
> Learn about SeqMatic’s Single Cell Gene Expression Services


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Epigenetic Discovery – Expression and Regulation

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The SeqMatic approach starts with proven genomic workflows and proprietary controls that have been refined and optimized over the past decade to deliver considerably more data than Illumina specifications.
The SeqMatic approach starts with proven genomic workflows and proprietary controls that have been refined and optimized over the past decade to deliver considerably more data than Illumina specifications.
View MoreWe learn about the goals of our customer’s scientific research and the type of sequencing data that would be most beneficial to their project.
We learn about the goals of our customer’s scientific research and the type of sequencing data that would be most beneficial to their project.
View MoreThen we modify our workflow to target those specific reads. Couple that effort with world class turnaround time.
Then we modify our workflow to target those specific reads. Couple that effort with world class turnaround time.
View MoreThis application of best science, higher quality data, more read depth per lane, and fast delivery makes SeqMatic an exceptional partner and value per research dollar spent.
This application of best science, higher quality data, more read depth per lane, and fast delivery makes SeqMatic an exceptional partner and value per research dollar spent.
View MoreOptimal solutions are custom-made according to research needs