Y Feng, Y Zhang, C Ying, D Wang… - Genomics, Proteomics …, 2015 - academic.oup.com
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 …
Y Wang, Y Zhao, A Bollas, Y Wang, KF Au - Nature biotechnology, 2021 - nature.com
Rapid advances in nanopore technologies for sequencing single long DNA and RNA molecules have led to substantial improvements in accuracy, read length and throughput …
Summary The Human Genome Project opened an era of (epi) genomic research, and also provided a platform for the development of new sequencing technologies. During and after …
BY Guo, T Zeng, HC Wu - Science bulletin, 2015 - Springer
This review briefly summarizes recent progress in nanopore DNA sequencing from the beginning of 2012 to July 2014. Although partial successes have been achieved in different …
M MacKenzie, C Argyropoulos - Micromachines, 2023 - mdpi.com
There has been significant progress made in the field of nanopore biosensor development and sequencing applications, which address previous limitations that restricted widespread …
Nanopore DNA strand sequencing has emerged as a competitive, portable technology. Reads exceeding 150 kilobases have been achieved, as have in-field detection and …
M Rhee, MA Burns - Trends in biotechnology, 2006 - cell.com
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 …
Y Goto, R Akahori, I Yanagi, K Takeda - Journal of human genetics, 2020 - nature.com
Nanopore DNA sequencing offers a new paradigm owing to its extensive potential for long- read, high-throughput detection of nucleotide modification and direct RNA sequencing …
Nanopore sequencing offers a portable and affordable alternative to sequencing-by- synthesis methods but suffers from lower accuracy and cannot sequence ultrashort DNA …