Illumina next-generation sequencing (NGS) technology uses clonal amplification and sequencing by synthesis (SBS) chemistry to enable rapid, accurate sequencing. The process simultaneously identifies DNA bases while incorporating them into a nucleic acid chain. Each base emits a unique fluorescent signal as it is added to the growing strand, which is used to determine the order of the DNA sequence.
NGS technology can be used to sequence the DNA from any organism, providing valuable information in response to almost any biological question. A highly scalable technology, DNA sequencing can be applied to small, targeted regions or the entire genome through a variety of methods, enabling researchers to investigate and better understand health and disease.
Whole-genome sequencing is the most comprehensive method for analyzing the genome. Rapidly dropping sequencing costs and the ability to obtain valuable information about the entire genetic code make whole-genome sequencing a powerful research tool.Learn More
With targeted resequencing, a subset of genes or regions of the genome are isolated and sequenced, allowing researchers to focus time, expenses, and analysis on specific areas of interest.Learn More
By combining chromatin immunoprecipitation (ChIP) assays and sequencing, ChIP sequencing (ChIP-Seq) is a powerful method to identify genome-wide DNA binding sites for transcription factors and other proteins.Learn More
NGS-based cancer DNA sequencing methods enable researchers to detect rare somatic variants, tumor subclones, and circulating DNA fragments. Learn more about cancer sequencing.
Sequencing- and array-based genotyping technologies can provide insight into the functional consequences of genetic variation. Learn more about genotyping.
High-throughput DNA sequencing technologies allow researchers to rapidly screen large sample numbers to find causal variants associated with complex diseases. Learn more about causal variant discovery.
Analysis of microbial species using DNA sequencing can inform environmental metagenomics studies, infectious disease surveillance, molecular epidemiology, and more. Learn more about microbial sequencing methods.