Like a jigsaw puzzle with large pieces, a genome sequenced with long reads is easier to assemble. However, recent sequencing technologies have favored lowering per-base cost at the expense of read length. This has dramatically reduced sequencing cost, but resulted in fragmented assemblies, which negatively affect downstream analyses and hinder the creation of finished (gapless, high-quality) genomes. In contrast, emerging long-read sequencing technologies can now produce reads tens of kilobases in length, enabling the automated finishing of microbial genomes for under $1000. This promises to improve the quality of reference databases and facilitate new studies of chromosomal structure and variation. We present an overview of these new techn...
Background Whole-genome shotgun sequencing, which stitches together millions of short sequencing rea...
BACKGROUND: The emergence of next generation sequencing (NGS) has provided the means for rapid and h...
Not AvailableCurrent de-novo assemblers are unable to effectively use the long-read sequencing data ...
Background: The short reads output by first- and second-generation DNA sequencing instruments cannot...
Second-generation sequencing technology can now be used to sequence an entire human genome in a matt...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
Despite their accuracy, next-generation DNA sequencing technologies have limited utility in analyzin...
Background: Bacterial whole-genome sequencing based on short-read technologies often results in a dr...
Genome sequence assembly presents a fascinating and frequently-changing challenge. As DNA sequencing...
Abstract Background Short-read sequencing technologies have made microbial genome sequencing cheap a...
ackground: Short-read sequencing technologies have long been the work-horse of microbiome analysis. ...
The computational reconstruction of genome sequences from shotgun sequencing data has been greatly s...
Long read technologies have revolutionized de novo genome assembly by generating contigs orders of m...
A genome sequence assembly provides the foundation for studies of genotypic and phenotypic variation...
New sequencing technology has dramatically altered the landscape of whole-genome sequencing, allowin...
Background Whole-genome shotgun sequencing, which stitches together millions of short sequencing rea...
BACKGROUND: The emergence of next generation sequencing (NGS) has provided the means for rapid and h...
Not AvailableCurrent de-novo assemblers are unable to effectively use the long-read sequencing data ...
Background: The short reads output by first- and second-generation DNA sequencing instruments cannot...
Second-generation sequencing technology can now be used to sequence an entire human genome in a matt...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
Despite their accuracy, next-generation DNA sequencing technologies have limited utility in analyzin...
Background: Bacterial whole-genome sequencing based on short-read technologies often results in a dr...
Genome sequence assembly presents a fascinating and frequently-changing challenge. As DNA sequencing...
Abstract Background Short-read sequencing technologies have made microbial genome sequencing cheap a...
ackground: Short-read sequencing technologies have long been the work-horse of microbiome analysis. ...
The computational reconstruction of genome sequences from shotgun sequencing data has been greatly s...
Long read technologies have revolutionized de novo genome assembly by generating contigs orders of m...
A genome sequence assembly provides the foundation for studies of genotypic and phenotypic variation...
New sequencing technology has dramatically altered the landscape of whole-genome sequencing, allowin...
Background Whole-genome shotgun sequencing, which stitches together millions of short sequencing rea...
BACKGROUND: The emergence of next generation sequencing (NGS) has provided the means for rapid and h...
Not AvailableCurrent de-novo assemblers are unable to effectively use the long-read sequencing data ...