Also known of as high throughput sequencing, next generation sequencing (NGS) is the term used to describe several modern sequencing technologies that enable scientists to sequence DNA and RNA at ...

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 series highlights the breadth of next–generation sequencing applications and the importance of the insights that are being gained through these methods.

Next-generation sequencing (NGS) is an essential tool in molecular biology laboratories for the analysis of nucleic acid samples in numerous basic, translational and clinical research settings.

Next-generation sequencing (NGS) is an essential tool for the analysis of nucleic acid samples in basic, translational and clinical research settings. Efficient quality control of samples at different ...

The innovative aspect of next-generation protein sequencing, which drives enhanced insights, revolves around the breakdown of proteins into numerous individual peptides.

Nanpore sequencing is a third-generation sequencing technology that generates long reads. Our Oxford Nanopore PromethION sequencer can sequence up to 24 flow cells simultaneously, each flow cell ...

Next-generation sequencing produces an extraordinary amount of data. The data are sent over a 10-gigabyte connection to a high-performance computing cluster at Loyola's Stritch School of Medicine.

View the agenda for the The Basics of Next Generation Sequencing and its Application in Precision Oncology, topics for this event include: , , , and more.