The first DNA sequencing was performed by Sanger and co-workers in the 1970s, using a method based on the attenuation of the growing nucleotide chain with dideoxythymidine triphosphate (ddTTP). The ...

Metagenomics is a revolutionary approach that allows scientists to examine the microbial composition of environmental or clinical samples. While this method enables them to characterize previously ...

Nanopore technology, widely renowned for its groundbreaking applications in DNA sequencing, is now being explored by researchers as a tool in a range of applications beyond genomics. In particular, ...

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 ...

Nanopore sequencing offers comparable accuracy to short-read NGS for IGH clonotyping in CLL, with advantages in cost and laboratory footprint. The study confirms reliable somatic hypermutation status ...

Oxford Nanopore Technologies has signed a partnership with artificial intelligence developer SeqOne to support its next-generation sequencing approach in clinical diagnostic testing. The goal will be ...

OXFORD, England--(BUSINESS WIRE)--Oxford Nanopore Technologies today announced the expansion of its Compatible Products Programme (CPP), welcoming a new cohort of leading partners whose products now ...

OXFORD, United Kingdom--(BUSINESS WIRE)--Oxford Nanopore Technologies plc (Oxford Nanopore), the company delivering a new generation of nanopore-based molecular sensing technology, and Saphetor, the ...

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 ...