Sentences with phrase «nanopore technologies»
Motivation: Single Molecule Real - Time (SMRT) sequencing technology and Oxford Nanopore technologies (ONT) produce reads over 10kbp in length, which have enabled high - quality genome assembly at an affordable cost.
https://nanoporetech.com/
The UW team has been exploring nanopore technology to read DNA sequences quickly.
Moreover, we demonstrated that although the Oxford Nanopore technology is a relatively new sequencing technology, currently with a high error rate, it is already useful in the generation of high - quality genome assemblies.
Here, we describe the results obtained from our current long read sequencing project of 100 Icelanders with Oxford Nanopore technology.
«These projects span an impressive spectrum of novel technologies - from sequencing by synthesis to nanopore technology.
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.
We report a third - generation sequencing assay on nanopore technology (MinION) for detecting BCR - ABL1 KD mutations and compare the results to a Sanger sequencing (SS)- based test in 24 Philadelphia - positive (Ph +) leukemia cases.
The MinION is a portable device that uses nanopore technology and can sequence long DNA molecules.
Here, we present the first report of the ~ 54 MB eukaryotic genome sequence of Rhizoctonia solani, an important pathogenic fungal species of maize, using nanopore technology.
Unlike other methods, which read chunks of DNA perhaps a hundred or so base pairs in length, the MinION can read sequences as long as 882,000 base pairs in length using the nanopore technology.
Nanopore sequencing gets a boost with accurate error modelling and variant - calling tools for Oxford Nanopore Technology's highly anticipated MinION platform.
Not exact matches
Now an upstart technology, called nanopore sequencing, looks ready to jump to the front of the pack.
Two years ago, Oxford Nanopore Technologies demonstrated a revolutionary new sequencing technology at a meeting for genomicists, but it's taken until now for it to show more data and to begin to share its new cheap, hand - held device with researchers.
Oxford Nanopore's Chief Technology Officer Clive Brown announced an upgrade to its devices — a new pore the company has been describing in presentations as R9.
New nanopore DNA sequencing technology on a device the size of a USB stick could be used to diagnose infection — according to new research from the University of East Anglia and Public Health England.
For one thing, sequencing technologies continue to develop at a breakneck pace, and, according to Willerslev, as third - generation technologies such as nanopore sequencing are applied to ancient - DNA work, researchers will be able to probe even deeper into the biological past.
The audience fidgeted with eager impatience to hear Clive Brown of Oxford Nanopore present an update on their single - molecule, real - time sequencing technology.
Early MinION ™ nanopore single - molecule sequencing technology enables the characterization of hepatitis B virus genetic complexity in clinical samples — Virginie Sauvage — PLOS ONE
KeyGene's researchers involved in Nanopore sequencing are very enthusiastic about the results and possibilities of the technology:
This course is directed towards molecular biologists, bioinformaticians, scientists and technicians who want to apply Oxford Nanopore Sequencing technology in their labs.
Introduction to ONT devices and latest technology Wet lab training and best practices for sample quality and library preparation for Nanopore sequencing Running MinKNOW and real - time sequencing data handling Introduction to basecalling and analysis tools (ONT and opens source) for analysis of ONT data
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.
New generation of sequencing technology uses nanopores to deliver ultra long read length single molecule sequence data, at competitive accuracy, on scalable electronic GridION platform.
The design and engineering of advanced solid - state nanopore materials could allow for the development of novel gene sequencing technologies that enable single - molecule detection at low cost and high speed with minimal sample preparation and instrumentation.
The long sequencing reads produced by Oxford Nanopore's platforms enable the assembly of genomes with superior contiguity compared to those produced by second generation technologies.
Detection of active transposable elements in Arabidopsis thaliana using Oxford Nanopore Sequencing technology
Speed, single - base sensitivity and long read lengths make nanopores a promising technology for high - throughput sequencing.
The Oxford Nanopore Technologies (ONT) MinION is a new sequencing technology that potentially offers read lengths of tens of kilobases (kb) limited only by the length of DNA molecules presented to it.
Clive is Chief Technology Officer at Oxford Nanopore.
Nanopore sequencing, a novel genomics technology, has potential applications for routine biosurveillance, clinical diagnosis, and outbreak investigation of virus infections.
The Applications team at Oxford Nanopore has two overarching responsibilities: creation and development of sample and library preparation protocols for a wide variety of sample types, and undertaking biological projects which highlight the various strengths of Oxford Nanopore's technology.
Long - read sequencing technologies such as Pacific Biosciences and Oxford Nanopore MinION are capable of producing long sequencing reads with average fragment lengths of over 10,000 base - pairs and maximum lengths reaching 100,000 base - pairs.
Oryza coarctata plants, collected from Sundarban delta of West Bengal, India, have been used in the present study to generate draft genome sequences, employing the hybrid genome assembly with Illumina reads and third generation Oxford Nanopore sequencing technology.
Claire Lonsdale from the Defence Science and Technology Laboratory talks to the Nanopore community at London Calling 2016.
Translating the Oxford Nanopore MinION sequencing technology into medical microbiology requires on - going analysis that keeps pace with technological improvements to the instrument and release of associated analysis software.
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.
Motivation: Nanopore sequencing may be the next disruptive technology in genomics, due to its ability to detect single DNA molecules without prior amplification, lack of reliance on expensive optical components, and the ability to sequence very long fragments.
Motivation: The Oxford Nanopore MinION device represents a unique sequencing technology.
Recent advances in nanopore sequencing technology have led to a substantial increase in throughput and sequence quality.
Borla Performance Industries, a leader in the design and manufacture of stainless steel performance exhaust, has an option to license a novel nanopore membrane technology developed at Oak Ridge National Laboratory (ORNL).