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, ...

This image compares three DNA sequencing technologies: Sanger sequencing, Massively Parallel DNA sequencing, and Nanopore DNA sequencing. Sanger sequencing (left) sequences 500-700 bases per reaction ...

Whole genome analysis plays a critical role in the development of life-saving diagnostics, therapeutics, and vaccines, with growing interest in noncoding regions and Whole genome analysis plays a ...

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

This workshop explored the current use of DNA sequencing in newborns as well as the potential benefits and harms, associated ethical and data security issues, and equity in access to screening. A ...

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 ...

The presence or absence of remaining foreign DNA from the crossbred progeny of the genome-edited crop and the original crop cultivar can be determined by GenEditScan, based on the k-mer method.