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RNA Immunoprecipitation Sequencing (RIP-seq)

Introduction to RNA Immunoprecipitation Sequencing (RIP-seq)

RNA immunoprecipitation sequencing (RIP-seq) is a high-throughput RNA sequencing method widely used to study Protein-RNA interactions to detect RNA interactions with the target proteins. The coupling of RIP-seq with other sequencing technologies enables the detection of a large number of RNA-protein complexes in a single run. RIP-seq provides deep insights not only into the central dogma (i.e., transcription and translation) but also in recent research areas like gene regulation by ncRNAs and RNA interference.

Applications of RNA Immunoprecipitation Sequencing (RIP-seq)

 

  • To verify the interactions between RNAs and target proteins
  • To identify genome-wide networks of RNA-RBP (RNA-binding protein) interactions
  • To analyze the interactions between RBP and non-coding RNA (ncRNA), long non-coding RNA (lncRNA), and micro RNA (miRNA)

Benefits of RNA Immunoprecipitation Sequencing (RIP-seq)

  • RIP-seq is multifaceted in interpreting the interaction network between RNA-RBP with respect to ncRNAs, such as lncRNA and miRNA.
  • In comparison to CLIP-seq, RIP-seq does not need to perform UV-crosslinking which makes it easily operatable and warrant accurate results.
  • The wide coverage allows screening and identification of protein binding sites accurately on the whole genome.
  • Combining high-resolution and high-throughput technology enables us to find more new protein binding sites.

RIP-seq Specifications: RNA Sample Requirements

Sample Type Required Amount Peaks Distribution Purity
Enriched RNA Sample ≥ 100 ng
(Concentration ≥ 3 ng/μL)
For unfragmented sample,
fragment should be ≥ 1000 bp.
A260/280>2.0

RIP-seq Specifications: Sequencing and Analysis

Sequencing Platform Illumina NovaSeq 6000 Sequencing System
Read Length Paired-end 150bp
Recommended Data Amount ≥ 20 million read pairs per sample for the species with a reference genome
Content of Data Analysis

Novogene Workflow of RIP-seq Service

Novogene RIP-seq service comprises four steps, the first step being the sample preparation followed by RNA library preparation and Illumina PE150 sequencing, and finally, data analysis using bioinformatics pipelines. From RNA sampling to obtaining data reports, each step can influence the quality and quantity of data output, directly affecting the results of subsequent bioinformatics analysis. Novogene ensures stringent verification of each 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 provides comprehensive bioinformatics analysis.

Genome-wide Distribution of Peaks

The number of peaks mapping to the chromosome and its distribution reflect the distribution of the protein binding sites.

 

Note:
The X-axis is the number of peaks in the chromosome. The Y-axis shows the chromosome numbers. Every blue line represents a peak.


Motif Analysis

Systematic motif analysis is extremely encouraging and promising to comprehend the novel mechanisms in RNA trafficking and sorting as well as in other RNA applications. Motif, or conserved sequence, is shared by multiple binding sites in RNA.

Note:
The figure uses a sequence logo to illustrate the base bias in different positions in the binding sites of a Motif.


Peak Distribution in the Functional Gene Regions

Distribution of peaks in the different functional areas.

Note:
The X-axis represents different functional areas, and Y-axis represents the ratio of the peak in the functional region to the total peaks. The number on the top of the functional region represents the peak number.

*Please contact us to get the full demo report.

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