Bacterial and viral identification and differentiation by amplicon sequencing on the MinION
nanopore sequencer
Campylobacter fetus meningitis confirmed by a 16S rRNA gene analysis using the MinION
nanopore sequencer, South Korea, 2016
We present a framework for mapping cytosine and adenosine methylation with the Oxford Nanopore Technologies MinION using
this nanopore sequencer's ionic current signal.
Background: Oxford Nanopore Technologies Ltd (Oxford, UK) have recently commercialized MinION, a small single - molecule
nanopore sequencer, that offers the possibility of sequencing long DNA fragments from small genomes in a matter of seconds.
We report the sequencing and assembly of a reference genome for the human GM12878 Utah / Ceph cell line using the MinION (Oxford Nanopore Technologies)
nanopore sequencer.
Multi-locus and long amplicon sequencing approach to study microbial diversity at species level using the MinION ™ portable
nanopore sequencer
The researchers accomplished their feat using the MinION
nanopore sequencer, reading almost a hundred billion base pairs of data and analyzing huge chunks of DNA.
The MinION ™
nanopore sequencer was recently released to a community of alpha - testers for evaluation using a variety of sequencing applications.
A novel diagnostic method for malaria using loop - mediated isothermal amplification (LAMP) and MinION ™
nanopore sequencer
Oxford Nanopore has promised to release the MinION, a disposable USB pocket - sized
nanopore sequencer later this year.
A reference bacterial genome dataset generated on the MinION ™ portable single - molecule
nanopore sequencer
In 2014, Oxford Nanopore rolled out the first commercial
nanopore sequencer, a handheld device called MinION.
Not exact matches
The other cargo includes a USB - stick - sized DNA
sequencer called MinION, made by UK firm Oxford
Nanopore Technologies.
In recent years, genome
sequencers have dramatically shrunk in size; Oxford
Nanopore's MinION, for example, weighs only 85 grams and fits in your hand.
Illumina licenses patents on an Msp system from the University of Washington, Seattle, and the University of Alabama, Birmingham, and claimed that Oxford
Nanopore's
sequencers infringed those patents.
Background The MinION ™ is a new, portable single - molecule
sequencer developed by Oxford
Nanopore Technologies.
This study aimed to assess the feasibility of using the Oxford
Nanopore Technologies (ONT) MinION long - read
sequencer in reconstructing fully closed plasmid sequences from eight Enterobacteriaceae i...
We currently operate several different types of Illumina
sequencers and MinIon
sequencers from Oxford
Nanopore Technologies offering researchers access to cutting edge technology for high throughput sequencing for a wide range of applications.
Oxford
Nanopore introduces DNA «strand sequencing» on the high - throughput GridION platform and presents MinION, a
sequencer the size of a USB memory stick
We developed a portable system for metagenomic analyses consisting of
nanopore technology - based
sequencer, MinION, and laptop computers, and assessed its potential ability to determine bacterial compositions rapidly.
The recent development of a
nanopore - type portable DNA
sequencer has changed the way we think about DNA sequencing.
The Oxford
Nanopore Technologies MinION ™
sequencer is a small, portable, low cost device that is accessible to labs of all sizes and attractive for in - the - field sequencing experiments.
The Oxford
Nanopore MinION is a portable single - molecule DNA
sequencer that can sequence long fragments of genomic DNA.
Motivation: The Oxford
Nanopore MinION
sequencer, currently in pre-release testing through the MinION Access Programme (MAP), promises long reads in real - time from a cheap, compact, USB device.
A portable system for metagenomic analyses using
nanopore - based
sequencer and laptop computers can realize rapid on - site determination of bacterial compositions
Motivation: The highly portable Oxford
Nanopore MinION
sequencer has enabled new applications of genome sequencing directly in the field.
Objective: To determine if a handheld,
nanopore - based DNA
sequencer can be used for rapid preimplantation genetic screening (PGS).
Portable DNA
sequencers such as the Oxford
Nanopore MinION device have the potential to be truly disruptive technologies, facilitating new approaches and analyses and, in some cases, taking sequencing out of the lab and into the field.