Rapid advances in nanopore technologies for sequencing single long DNA and RNA
molecules have led to substantial improvements in accuracy, read length and throughput …

Molecular biology has been led by various measurement technologies, and increased
throughput has developed omics analysis. The development of massively parallel …

Next-generation sequencing methods based on nanopore technology have recently gained
considerable attention, mainly because they promise affordable and fast genome …

Nanopore DNA strand sequencing has emerged as a competitive, portable technology.
Reads exceeding 150 kilobases have been achieved, as have in-field detection and …

There has been significant progress made in the field of nanopore biosensor development
and sequencing applications, which address previous limitations that restricted widespread …

Sequencing of nucleic acids with nanopores has emerged as a powerful tool offering rapid
readout, high accuracy, low cost and portability. This label-free method for sequencing at the …

Nanopore-based sequencers, as the fourth-generation DNA sequencing technology, have
the potential to quickly and reliably sequence the entire human genome for less than 1000 …

Nanopore sequencing offers a portable and affordable alternative to sequencing-by-
synthesis methods but suffers from lower accuracy and cannot sequence ultrashort DNA …

Nanopore sequencing is one of the most promising technologies being developed as a
cheap and fast alternative to the conventional Sanger sequencing method. Protein or …

Motivation: Nanopore sequencing may be the next disruptive technology in genomics, owing
to its ability to detect single DNA molecules without prior amplification, lack of reliance on …