Scientists have developed a versatile platform with an electrically controlled nano-gate that can be used for applications in sensing, chemical synthesis, memristors, and neuromorphic computing. The ...

What is the biggest difference between using nanopore technology for protein sequencing versus nucleic acid sequencing ... more sensitive because our current nanopore was optimized for DNA sequences?

This webinar will introduce a novel method for parent-of-origin-aware genomic analysis using the long-read capabilities of nanopore sequencing and single-cell DNA template strand sequencing to assign ...

Oxford Nanopore Technologies PLC ( ($GB:ONT) ) has issued an update. Oxford Nanopore Technologies PLC announced a Share Incentive Plan transaction ...

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 ...

I don’t think proteomics will win over genomics," Sanghera said. "They go hand-in-glove. We’ve been overly focused [on genomics], and now we’re going to see an emergence of proteomics. And when the ...

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 ...

Long read sequencing revealed more genetic information in cases of 42 patients with rare diseases while cutting time and cost of diagnoses.

UC Riverside scientists have developed a nanopore-based tool that ... achieving single-molecule protein sequencing, a long-sought goal in biology. While DNA sequencing reveals genetic instructions ...

Gordon Sanghera, Co-Founder and CEO of Oxford Nanopore Technologies, talks about opportunities for DNA and RNA sequencing from the JPM Health Conference. Hosts: Carol Massar and Tim Stenovec.