1 transport of DNA is essential for realizing
nanopore sequencing.
2 es solutions to two long-standing hurdles to
nanopore sequencing.
3 ight the importance of MspA in the future of
nanopore sequencing.
4 the samples (n = 19) by Sanger and by Oxford
Nanopore sequencing.
5 These results demonstrate that
nanopore sequencing can be used to deconvolute individua
6 rithm that identifies and corrects errors in
nanopore sequencing data and improves the accuracy of de
7 Nanopore sequencing data from a single 18-h run was used
8 e describe the generation of a comprehensive
nanopore sequencing data set with a median read length o
9 Pore, a toolkit for exploring and analysing
nanopore sequencing data.
10 te, organize, summarize and visualize MinION
nanopore sequencing data.
11 toolkit for exploring datasets generated by
nanopore sequencing devices from MinION for the purposes
12 In
nanopore sequencing devices, electrolytic current signal
13 increasing the electrophoretic force used in
nanopore sequencing devices.
14 consistent with results of state-of-the-art
nanopore sequencing experiments.
15 Canu introduces support for
nanopore sequencing,
halves depth-of-coverage requiremen
16 Nanopore sequencing has been available to researchers fo
17 Nanopore sequencing has the potential to become a direct
18 ad DNA sequencing technologies, specifically
Nanopore sequencing,
have made possible the rapid identi
19 Nanopore sequencing is one of the most promising technol
20 Nanopore sequencing may be the next disruptive technolog
21 rrays of nanopores are required, but current
nanopore sequencing methods rely on ionic current measur
22 Nanopore sequencing of DNA is a single-molecule techniqu
23 This work provides a foundation for
nanopore sequencing of long, natural DNA strands.
24 Nanopore sequencing of proteins was also envisioned.
25 thms in order to fully utilize the extent of
nanopore sequencing potential.
26 Nanopore sequencing promises long read-lengths and singl
27 PoreSeq increases
nanopore sequencing read accuracy of M13 bacteriophage D
28 Furthermore, we show
nanopore sequencing reads of phi X 174 up to 4,500 bases
29 Map, a mapping algorithm designed to analyse
nanopore sequencing reads, which progressively refines c
30 Realizing the democratic promise of
nanopore sequencing requires the development of new bioi
31 Recently, portable, real-time,
nanopore sequencing (
RTnS) has become available.
32 ility of the use of emerging single-molecule
nanopore sequencing techniques for these purposes.
33 nces in single molecule real-time (SMRT) and
nanopore sequencing technologies have enabled high-quali
34 This review will examine current
nanopore sequencing technologies, including recent devel
35 Recent advances in
nanopore sequencing technology have led to a substantial
36 Prior to this,
nanopore sequencing technology was mainly used to analyz
37 Here, we have used whole-genome
Nanopore sequencing to characterize several CGRs that or
38 One such application is
nanopore sequencing,
where a DNA molecule is electrophor