The nanopore device, however, can measure subtle differences between individual proteins, which could help doctors design more personalized treatments. The research also brings scientists closer to ...

How can nanopores improve diagnostics? With single-molecule precision, they detect diseases faster and pave the way for ...

The nanopore device, however ... The research also brings scientists closer to achieving single molecule protein sequencing, a long-sought goal in biology. While DNA sequencing reveals genetic ...

Nanopore sequencing enables the rapid and cost-effective sequencing ... allowing for more accurate detection of homopolymers. Additionally, protein engineering approaches are being employed to improve ...

There are two well-established processes for the delivery of long-read sequencing. The first, nanopore sequencing, passes the strands through a protein nanopore and measures electrical current changes ...

While this method enables them to characterize previously uncultivable microorganisms, researchers commonly employ short-read sequencing platforms, which are bulky, costly, and only available for use ...

Nanopore arrays are constructed from channel proteins in lipid membranes or from pores patterned in synthetic materials, and can sequence DNA or characterize protein folding. In conical nanopores ...

Shares in genomics sequencing company Oxford Nanopore were rising sharply this morning after it announced an £80 million ($102 million) share placement that included a £50 million investment ...

Alternative splicing is crucial for eukaryotic gene expression and influences protein function and regulation ... discussing how she used nanopore RNA sequencing to accurately detect and quantify full ...

The nanopore device, however ... The research also brings scientists closer to achieving single-molecule protein sequencing, a long-sought goal in biology. While DNA sequencing reveals genetic ...