Barcoding technologies that take advantage of the high information content that can be encoded in oligonucleotide sequences have enabled a wide array of applications in biotechnology, particularly ...

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 ...

This eBook explores next-generation sequencing (NGS) methods and their applications in neurological and cancer research, with key content from BioTechniques’ digital hub and Taylor & Francis journals, ...

The global next generation sequencing market is set to witness a growth rate of ~15% in the next 5 years. Rising demand for ...

Market Research Report Highlights Key Trends, Drivers, and InnovationsThe DNA sequencing market has emerged as a cornerstone ...

Next-generation sequencing enhances a biologics manufacturer's ability to detect and identify unknown or unexpected contaminants.

In the largest study of its kind, the diagnostic yield of mNGS was greater than conventional test methods mNGS alone identified 34% more pathogens than all direct-detection methods combined 72% of ...

Next-generation metagenomic sequencing test developed at UCSF proves its effectiveness in quickly diagnosing almost any kind of pathogen. A genomic test developed at UC San Francisco to rapidly detect ...

Dr Rakesh Kumar Pilania is the principal investigator of the project, and the sequencing process will include DNA isolation, ...