This image illustrates the typical steps in next-generation sequencing (excluding single-molecule sequencing methods). The process begins with isolating genomic DNA (a) and breaking it into short ...

Next-generation DNA sequencing has started a revolution in ... One of the tricks to getting tSMS to work is in the next step in the process: the labeling dye is cleaved off, allowing incorporation ...

The MiSeq desktop sequencer offers low throughput flowcells and long read lengths. It is best for small whole-genome sequencing, targeted gene sequencing, metagenomics, and CRISPR validation. The ...

The Bristol Genomics Facility has the capacity to run both high output and low output next generation sequencing experiments. The Illumina NextSeq500 system is perfect for the sequencing of whole ...

Following a CURE® Educated Patient® Lung Cancer Summit, the City of Hope expert answered 10 commonly asked questions from ...

The webinar series titled "The Basics of Next Generation Sequencing and its Application in Molecular Pathology" aims to provide a comprehensive understanding of the fundamentals and practical ...

While next generation sequencing (NGS) has become a staple method for some researchers ... From DNA to single cell RNA sequencing, this flexible technology optimizes every step of the sequencing ...

The organisms found in the microbiome outnumber human cells. This makes the microbiome a key target to aid in our ...

The Genomics Core now has an Illumina NextSeq500 Next Generation Sequencing (NGS) instrument! This will expand our capacity of services already offered for NGS. Feel free to call or email us to find ...

Cell-free DNA (cfDNA) contains potential biomarkers for cancer detection, diagnosis, and progression. Scientists use next-generation sequencing (NGS) to characterize cfDNA. The first step in this ...

The National Institute of Animal Biotechnology (NIAB) is working to decode the genetic blueprints for conservation of indigenous cattle breeds using Next Generation Sequencing (NGS) data and ...