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NGS Custom Panel Design

Focus your sequencing efforts on the targets important to you

Digital NGS with QIAseq Targeted Panels

Targeted NGS has been instrumental in driving our understanding of disease, mainly because it reduces costs per sample, enables the detection of low frequency variants and allows for content customization. Manually designing targeted NGS panels is time- and resource- consuming, but QIAGEN’s primer design algorithms streamline and simplify the process, to deliver the highest possible design coverage. Input the genes of interest, select the appropriate controls and housekeeping genes and leave the rest to our algorithms. When the custom design is complete, we will provide a BED file with the genomic coordinates of primers designed specifically for the genes of interest. The saved design is ready for configuration to your sequencing platform and throughput.

Our QIAseq Targeted Panels incorporate molecular barcode technology to provide accurate digital DNA and RNA sequencing. This unique approach overcomes the issues of PCR duplicates, false positives and library bias, enabling detection of low-frequency variants and accurate quantitative gene expression profiling. Choose from our expertly curated cataloged panels, or design a custom panel for your particular targets of interest.
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Confidently distinguish unique molecules, revealing meaningful insights for results that make an impact.

Terms to know

Target enrichment: process to enhance NGS experiments by sequencing specific regions of interest, instead of the entire genome, effectively increasing the sequencing depth and sample throughput while minimizing cost.

Single primer extension: an amplicon enrichment strategy in which each the genomic target is amplified by one target-specific primer and one universal primer; enables a flexible design approach and more efficient primer utilization when compared to conventional two-primer methods. Read this article to find out more. 

Unique molecular index (UMI): a 12-base random unique nucleotide sequence that is attached to an adapter and ligated to the original DNA or cDNA sample prior to amplification; enables both bioinformatic correction of PCR amplification errors and deduplication of reads for accurate quantification and variant calling. Also known as molecular barcode.

Digital sequencing: sequencing strategy in which UMIs are incorporated into the starting DNA or cDNA before any amplification takes place, to preserve the uniqueness of the starting molecules and overcome the issues of PCR duplicates, false positives and library bias.

QIAseq Targeted DNA Panels: platform-agnostic solution for constructing NGS libraries from enriched targets. Incorporate UMIs and a single primer extension design strategy. All required primers are combined into an individual pool for enrichment and library construction. Platform-specific indexes are available separately and allow sample multiplexing in the sequencing run.

Single nucleotide polymorphism (SNP): a single-base difference found when comparing the same DNA sequence from two different individuals.

Browser extensible data (BED): the human-readable file format showing the defined chromosomal coordinates as a genomic region of interest (ROI).

Terms to know

component pic

Confidently distinguish unique molecules, revealing meaningful insights for results that make an impact.

Target enrichment: process to enhance NGS experiments by sequencing specific regions of interest, instead of the entire genome, effectively increasing the sequencing depth and sample throughput while minimizing cost.

Single primer extension: an amplicon enrichment strategy in which each the genomic target is amplified by one target-specific primer and one universal primer; enables a flexible design approach and more efficient primer utilization when compared to conventional two-primer methods. Read this article to find out more. 

Unique molecular index (UMI): a 12-base random unique nucleotide sequence that is attached to an adapter and ligated to the original DNA or cDNA sample prior to amplification; enables both bioinformatic correction of PCR amplification errors and deduplication of reads for accurate quantification and variant calling. Also known as molecular barcode.

Digital sequencing: sequencing strategy in which UMIs are incorporated into the starting DNA or cDNA before any amplification takes place, to preserve the uniqueness of the starting molecules and overcome the issues of PCR duplicates, false positives and library bias.

QIAseq Targeted DNA Panels: platform-agnostic solution for constructing NGS libraries from enriched targets. Incorporate UMIs and a single primer extension design strategy. All required primers are combined into an individual pool for enrichment and library construction. Platform-specific indexes are available separately and allow sample multiplexing in the sequencing run.

Single nucleotide polymorphism (SNP): a single-base difference found when comparing the same DNA sequence from two different individuals.

Browser extensible data (BED): the human-readable file format showing the defined chromosomal coordinates as a genomic region of interest (ROI).

Discover QIAseq Targeted DNA Panels

QIAseq Targeted DNA Panels

Cataloged targeted panels for detecting low-frequency variants by digital DNA sequencing

QIAseq Targeted DNA Custom Panels

Custom targeted panel for detecting low-frequency variants by digital DNA sequencing

QIAseq Targeted DNA Extended Panels

Extends the content of any cataloged panel with up to 100 additional primers

QIAseq Targeted DNA Booster Panels

Spike-in pools to either boost coverage or augment targets across specific regions of any panel

Designing a custom DNA panel

The QIAseq Targeted DNA Custom Panel Builder enables you to design and order the targeted DNA sequencing assay of your choosing. You can target complete genes, specific exons, hotspots or any defined genomic region of interest in the human genome.

 

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Use the custom builder tool to design and order the exact targeted DNA sequencing panel for your research.

Designing a custom DNA panel

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Use the custom builder tool to design and order the exact targeted DNA sequencing panel for your research.

The QIAseq Targeted DNA Custom Panel Builder enables you to design and order the targeted DNA sequencing assay of your choosing. You can target complete genes, specific exons, hotspots or any defined genomic region of interest in the human genome.

 

The following types of custom DNA panels can be created:

  • Custom panels – enter your own content, such as genes or genomic coordinates, into the QIAseq Targeted DNA Custom Builder to design a custom panel
  • Extended panels – add up to 100 primers to any cataloged panel to extend its content; visit the QIAseq Targeted DNA Extended Panels catalog page, and select “Extend” next to the relevant catalog panel to get started. 
  • Booster panels – configure a spike-in pool of up to 100 primers to either boost coverage of specific areas or augment targets across specific genomic regions of any panel (cataloged, extended, or custom). Delivered as a single pool that can be spiked into the existing panel; visit the QIAseq Targeted DNA Booster Panels catalog page, and select “Boost” next to the relevant catalog panel to get started

When possible, the builder spaces primer binding sites by a maximum of 150 bp, to enable efficient enrichment of FFPE and cfDNA samples. In general, the following guidelines apply.

Targeting genes or exons

Use the Gene tab in the custom builder to enter NCBI Gene Symbols (e.g., CASP2) or Entrez GeneIDs (e.g., 835). When you specify gene symbols, the builder adds 5 bp of flanking intronic region around each coding exon to the target region. For specific exons, enter NCBI Transcript Refseq IDs (e.g., NM_032983, NP_116765).

Targeting SNPs, hotspots or intronic regions by specifying genomic coordinates

Use the Genomic Coordinates tab in the custom builder to enter the chromosome number and genomic start/stop coordinates of your areas of interest using the BED format described below:

  • Example: chr1 100326942 100327378
  • Use one line for each chromosome and location
  • Comma, semicolon or tab stop can be used as separator
  • Enter lowercase text for chromosome without any spaces between “chr” and “1”, “11”, “X”, etc.
For SNP analysis, we recommend targeting at least 10 nucleotides up- and downstream.