The power of artificial intelligence (AI) and advanced computing has made it possible to design genetic sequences encoding ...

In a way, sequencing DNA is very simple: There's a molecule, you look at it, and you write down what you find. You'd think it would be easy—and, for any one letter in the sequence, it is. The problem ...

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 ...

Cornell researchers have found that a new DNA sequencing technology can be used to study how transposons move within and bind to the genome. Transposons play critical roles in immune response, ...

A whole-genome sequencing approach shows early promise over current commercial methods for identifying more patients likely to benefit from PARP inhibitor cancer treatments, according to a study led ...

Genetic variants that cause rare disorders may remain elusive even after expansive testing, such as exome sequencing. The diagnostic yield of genome sequencing, particularly after a negative ...

DNA methylation is a highly studied epigenetic modification that is involved in regulating genome function and plays fundamental roles in development and disease. 1 It is linked to a broad range of ...

Cornell (NY, USA) researchers have found that a new DNA sequencing technology can be used to study how transposons move within and bind to the genome. Transposons play critical roles in immune ...

What is Third-Generation Sequencing? Third-generation sequencing, also known as long-read sequencing, refers to the latest advancements in DNA sequencing technologies that enable the analysis of ...

Viral DNA that is usually dismissed when sequencing the human genome could help to uncover useful information about complex ...

Saliva is an easily accessible source of high molecular weight DNA for Oxford Nanopore long-read sequencing applications.