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Chromatin Immunoprecipitation Sequencing (ChIP-seq)

Genome-wide profiling of protein-DNA interactions and histone modifications to reveal transcriptional regulation and epigenetic mechanisms.

Chromatin Immunoprecipitation sequencing (ChIP-seq or ChIP sequencing) is a robust and high-resolution technique for genome-wide profiling of protein-DNA interactions. Specifically, it enables the precise mapping of binding loci for histone-modified DNA segments, transcription factors, and other DNA-associated proteins. This approach integrates the target-specific enrichment capability of chromatin immunoprecipitation (ChIP)—which selectively isolates endogenous protein-DNA complexes—with the high-throughput sequencing capacity of next-generation sequencing (NGS), thereby allowing comprehensive characterization of the captured DNA fragments at a genome-scale level.


As protein-DNA complexes are recovered from living cells, ChIP-seq can be used to compare binding sites in different cell types and tissues, or under different conditions. Thus, ChIP-seq is a vital tool for studying gene regulation and epigenetic mechanisms. It can also be combined with other approaches such as RNA-seq and ATAC-seq to gain further insights into the multi-omics of different biological processes.

Benefits

Rapid and High Capacity
Rapid and High Capacity

Superior turnaround efficiency.

Low inputLow input
Low input

Ultra-low input of fragmented DNA – 5ng.

Profound Experience
Profound Experience

Successfully completed hundreds of ChIP-seq projects as of 2017-2026.

Comprehensive Analysis
Comprehensive Analysis

Expert bioinformatics analysis utilizes industry-standard MACS2 software and programs with the latest version to get motif prediction, peak annotation, functional analysis, and data visualization.

Associated analysis is provided to explore correlations between ChIP-seq and gene expression.

Applications of Chromatin Immunoprecipitation Sequencing (ChIP-seq)

ChIP-seq provides regulatory solutions and meets customized research needs, such as:

Understanding how transcription factors regulate genes by profiling a genome-wide binding site and analyzing motif

Outlining histone modification patterns associated with experimental treatment or sample conditions

Investigating the relationships between epigenetic profiles and transcriptional regulations through joint analysis

Accommodating to multiple immunoprecipitated DNAs using various methods, including ChIP, Cut&Tag, etc.

Specifications

Sample Requirements

Sample amounts are listed for reference only. Download the Sample Submission Guidelines to learn more. For detailed information, please contact us with your customized requests.

Sample TypeRequired AmountFragment sizePurity
Enriched DNA Sample≥ 10 ng (Concentration ≥ 0.5 ng/μL)100 bp~500 bpA260/280=1.8-2.0

Sequencing and Analysis

Sequencing parameters and analysis contents displayed are only for reference. For detailed information, please contact us with your customized requests.

PlatformIllumina Xplus
Read LengthPair-end 150 bp
Sequencing Depth≥ 20 million read pairs per sample for the species with reference genome
Standard Data AnalysisData Quality Control
Mapping onto reference genome
Fragment size prediction
Peak calling
Motif analysis
Peak annotation and functional analysis of peak-associated genes
Summary of differential peaks and functional analysis of differential peak related genes

Project Workflow

Novogene ChIP-seq service comprises four steps, including sample preparation, DNA library preparation, Illumina PE150 sequencing and data analysis using bioinformatics pipelines. From DNA sampling to obtaining data reports, each step may affect the quality and quantity of data output, directly affecting the results of subsequent bioinformatics analysis. Novogene strictly checks every step, including sample quality control, library quality control, and sequencing data quality control, to ensure the high quality, accuracy and reliability of sequencing data and provide comprehensive bioinformatics analysis.

Project Workflow

Resources

Demo Results

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Distribution of Reads relative to TSS

Horizontal axis: the position of reads relative to the TSS. Vertical axis: the density of reads

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Visualization of pileup signal by IGV

We provide the visualization results of genome wide reads mapping in bam format. IGV (Integrative Genomics Viewer) browser is recommended to view the bam file.

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Genome wide distribution of peaks

Horizontal axis is the coordinate of the peaks in the chromosome. Vertical is the chromosomes. Every blue bar represents a peak

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Motif sequence

There are newly recognized motifs and known motif results in the motif result file

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Differential volcano diagram

For each comparison group, display the overall distribution of Fold Change and FDR in the different peak areas in the form of a volcano diagram

webinars

Introduction to ChIP-seq and ATAC-seq Services: Unveiling Epigenetic Multi-Omics at Novogene

In this webinar, Novogene will provide a comprehensive overview of two powerful epigenetic sequencing products offered by Novogene: ChIP-seq and ATAC-seq. Our expert speaker will discuss the capabilities of these technologies and their potential applications in the field of epigenetics. In addition, Novogene will also present our bioinformatic analysis services, which utilize industry-standard software and programs to provide motif prediction, peak annotation, functional analysis, and data visualization.


By attending this webinar, you will gain a thorough understanding of how ChIP-seq and ATAC-seq can enhance your gene expression regulation research, as well as the benefits of our bioinformatic analysis services. We invite you to join us for this engaging event at field of epigenetic research.

(Introduction to ChIP-seq and ATAC-seq Services: Unveiling Epigenetic Multi-Omics at Novogene)
ChIP-Seq/RIP-Seq Pipeline – A Beginner’s Guide

An important component of epigenetic research method is Chromatin Immunoprecipitation Sequencing (ChIP-Seq) which provides genome-wide profiling of DNA targets for histone modifications, transcription factors, and other DNA-associated proteins. RIP-Seq detects the association of individual proteins with specific nucleic acids such as mRNAs and noncoding RNAs.


In this webinar, we’ll walk you through the entire pipeline of ChIP-Seq/RIP-Seq, from sample preparation to sequencing data analysis, to help you understand how this sequencing approach can help you explore the epigenetic regulation. The live session incorporates a Q&A module with Novogene panelists answering your questions in real-time. Click ‘Eastern Time’ below to switch time zone.

(ChIP-Seq/RIP-Seq Pipeline – A Beginner’s Guide)

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