Next-Generation Sequencing (NGS)
Next-generation sequencing (NGS) is a high-throughput methodology that enables rapid sequencing of the base pairs in DNA or RNA samples. Supporting a broad range of applications, including gene expression profiling, chromosome counting, detection of epigenetic changes, and molecular analysis, NGS is driving discovery and enabling the future of personalized medicine.
NGS research areas and applications
Manage and track genomic data for NGS or Sanger sequencing in one platform.
Leading in NGS
Targeted NGS performance of Oncomine Assays and NCI-MATCH Trial Assay
The Oncomine Comprehensive Assay and NCI-MATCH Trial Assay (based on the Oncomine Comprehensive Assay) have demonstrated robust performance even with very limited FFPE samples. See the data ›
Featured application: liquid biopsy research
From sample to answer, Ion Torrent technology enables comprehensive solutions for analysis from cell-free DNA (cfDNA) and cell free RNA (cfRNA). Our liquid biopsy NGS portfolio now offers a new, broad, 52-gene pan-cancer assay
Check out our new cfDNA white paper that discusses the analytical methods used in verification of the Oncomine Lung cfDNA Assay with the Ion S5 XL System.
How does Ion Torrent NGS work?
Ion Torrent next-generation sequencing exploits the fact that addition of a dNTP to a DNA polymer releases a hydrogen ion. We measure the pH change resulting from those hydrogen ions using semiconductors, simultaneously measuring millions of such changes to determine the sequence of each fragment.
The semiconductor approach—unlike optics or modified nucleotides used in other NGS technologies—helps you implement a fast and simple workflow that scales to your research needs across multiple applications including inherited disease, oncology, infectious disease, human identification (HID), human leukocyte antigen (HLA) typing, and agrigenomics.
Our targeted sequencing approach introduces a PCR-based sequence enrichment step using Ion AmpliSeq technology that focuses on genes or even genetic variants of interest; a good example is the targeting of oncogenes and tumor suppressors in a cancer research study.
For Research Use Only. Not for use in diagnostic procedures.