Next
generation sequencing generates a huge amount of genetic code data on all the viruses in one animal.
Not exact matches
«This method utilizes long PCR, or long - range PCR, to strategically
generate DNA templates for next -
generation sequencing,» explains Simon Uribe - Convers, graduate student and lead author.
More than 1.4 billion short DNA
sequences were
generated with the help of modern instruments for next -
generation sequencing.
In loblolly pine, these were first
generated with > 300,000 Sanger -
sequenced expressed
sequence tags (ESTs) and later as de novo assemblies from next -
generation sequencing technologies (Allona et al. 1998; Kirst et al. 2003; Cairney et al. 2006; Lorenz et al. 2006, 2012).
Our interest is to not only
generate next -
generation sequence data, but to mine this
sequence data to better understand the evolution, pathogenesis, and transmission of ZIKV following the outbreak in Brazil in 2015.
We extensively
generate standard and custom next -
generation sequencing libraries that we
sequence on our Illumina NextSeq instrument, which is shared with four other junior groups.
To conduct the experiments, the team will use state of the art genome engineering technology to
generate mutant embryonic stem cells at a large scale, followed by transcriptional profiling via next
generation sequencing.
Additional DNA libraries were
generated from single bsl1 - 1 and bsl1 - 2 mutant individuals in the M2
generation and
sequenced.
Here, Jeong - Sun Seo and colleagues use a combination of recently developed genome
sequencing and assembly technologies, including single - molecule real - time
sequencing and next -
generation mapping, to
generate a higher - resolution reference genome with fewer gaps.
Using cutting - edge techniques enabled by next -
generation sequencing, the authors
generated complete methylome maps at single nucleotide resolution in a low - passage breast cancer cell line and normal breast tissue (primary human mammary epithelial cells).
Using second and third
generation sequencing technologies, we aim at
generating genomic data of novel bacterial and archaeal lineages, as well as of unchracterized protists.
MRD detection by Next -
Generation Sequencing has demonstrated utility in predicting clinical outcomes and in
generating clinically actionable results allowing early intervention, confirmation of disease status prior to transplant, and increased confidence in remission status.
The MRC Centre for Genomics and Global Health (CGGH) and the MRC Unit in The Gambia are working in partnership to
generate genome
sequence data on 500 individuals sampled across different ethnic groups that will underpin the next
generation of studies into the causes and prevention of common diseases in West Africa.
A novel method for the multiplexed target enrichment of MinION next
generation sequencing libraries using PCR -
generated baits
The advent of next -
generation technologies has fuelled an explosion in the quantity of raw DNA
sequence that can be
generated by a reasonably sized genomics facility.
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.
While procedural
generation does not guarantee that a game or
sequence of levels are nonlinear, it is an important factor in reducing game development time, and opens up avenues making it possible to
generate larger and more or less unique seamless game worlds on the fly and using fewer resources.
Using next -
generation sequencing technology, we have
generated a complete, high - quality mt genome from a stratigraphically validated 130,000 - to 110,000 - year - old polar bear jawbone.
The
generation of the invocation
sequence by the synthesizer removes the need for complex hand encoding of form structures, and provides a means by which the functions may be
generated as part of a server, client or middle - ware application.