Several methods for ultra high-throughput DNA sequencing are currently under investigation. Many of these methods yield very short blocks of sequence information (reads). Here we report on an analysis showing the level of genome sequencing possible as a function of read length. It is shown that re-sequencing and de novo sequencing of the majority of a bacterial genome is possible with read lengths of 20–30 nt, and that reads of 50 nt can provide recon-structed contigs (a contiguous fragment of sequence data) of 1000 nt and greater that cover 80 % of human chromosome 1
Recent studies on genome assembly from short-read sequencing data reported the limitation of this te...
Background: Recent studies on genome assembly from short-read sequencing data reported the limitatio...
Second-generation sequencing technology can now be used to sequence an entire human genome in a matt...
Several methods for ultra high-throughput DNA sequencing are currently under investigation. Many of ...
Several methods for ultra high-throughput DNA sequencing are currently under investigation. Many of ...
International audienceNext-generation sequencing technology is enabling massive production of high-q...
Several methods for ultra-high throughput DNA sequencing are currently under investigation. Many of ...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
Today's short-read sequencing instruments can generate read lengths between 50 bp and 700 bp dependi...
assembly of complete genomes. This reflects an expectation that short reads will be unable to resol...
Next-generation DNA sequencing has revolutionized the study of biology. However, the short read leng...
Novel high-throughput DNA sequencing technologies allow researchers to characterize a bacterial geno...
Next-generation DNA sequencing has revolutionized the study of biology. However, the short read leng...
DNA sequencing is the basic workhorse of modern day biology and medicine. Shotgun sequencing is the ...
Like a jigsaw puzzle with large pieces, a genome sequenced with long reads is easier to assemble. Ho...
Recent studies on genome assembly from short-read sequencing data reported the limitation of this te...
Background: Recent studies on genome assembly from short-read sequencing data reported the limitatio...
Second-generation sequencing technology can now be used to sequence an entire human genome in a matt...
Several methods for ultra high-throughput DNA sequencing are currently under investigation. Many of ...
Several methods for ultra high-throughput DNA sequencing are currently under investigation. Many of ...
International audienceNext-generation sequencing technology is enabling massive production of high-q...
Several methods for ultra-high throughput DNA sequencing are currently under investigation. Many of ...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
Today's short-read sequencing instruments can generate read lengths between 50 bp and 700 bp dependi...
assembly of complete genomes. This reflects an expectation that short reads will be unable to resol...
Next-generation DNA sequencing has revolutionized the study of biology. However, the short read leng...
Novel high-throughput DNA sequencing technologies allow researchers to characterize a bacterial geno...
Next-generation DNA sequencing has revolutionized the study of biology. However, the short read leng...
DNA sequencing is the basic workhorse of modern day biology and medicine. Shotgun sequencing is the ...
Like a jigsaw puzzle with large pieces, a genome sequenced with long reads is easier to assemble. Ho...
Recent studies on genome assembly from short-read sequencing data reported the limitation of this te...
Background: Recent studies on genome assembly from short-read sequencing data reported the limitatio...
Second-generation sequencing technology can now be used to sequence an entire human genome in a matt...