assembly of complex mammal genomes. One important solution is to use paired-end (PE) sequence information experimentally obtained from long-range DNA fragments (>1 kb). Here, we characterize and extend a long-range PE library construction method based on direct intra-molecule ligation (or molecular linker-free circularization) for NGS.We found that the method performs stably for PE sequencing of 2- to 5- kb DNA fragments, and can be extended to 10–20 kb (and even in extremes, up to ∼35 kb). We also characterized the impact of low quality input DNA on the method, and develop a whole-genome amplification (WGA) based protocol using limited input DNA (<1 µg). Using this PE dataset, we accurately assembled the YanHuang (YH) genome, the first se...
We describe a new algorithm, meraculous, for whole genome assembly of deep paired-end short reads, a...
We describe a new algorithm, meraculous, for whole genome assembly of deep paired-end short reads, a...
Long-range and highly accurate de novo assembly from short-read data is one of the most pressing cha...
Background: The relatively short read lengths from next generation sequencing (NGS) technologies sti...
<div><h3>Background</h3><p>The relatively short read lengths from next generation sequencing (NGS) t...
BACKGROUND: Paired-tag sequencing approaches are commonly used for the analysis of genome structure....
Massively parallel DNA sequencing technologies are revolutionizing genomics by making it possible to...
Second generation sequencing has been widely used to sequence whole genomes. Though various paired-e...
<div><p>Second generation sequencing has been widely used to sequence whole genomes. Though various ...
One of the most difficult problems in modern genomics is the assembly of full-length chromosomes usi...
Abstract Background Short read DNA sequencing technologies have revolutionized genome assembly by pr...
A 2.91-billion base pair (bp) consensus sequence of the euchromatic portion of the human genome was ...
Paired-end library sequencing has been proven useful in scaffold construction during de novo whole g...
Long insert size paired-end (PE) sequences play a key role in de novo assemblies of complex genomes....
We describe a new algorithm, meraculous, for whole genome assembly of deep paired-end short reads, a...
We describe a new algorithm, meraculous, for whole genome assembly of deep paired-end short reads, a...
We describe a new algorithm, meraculous, for whole genome assembly of deep paired-end short reads, a...
Long-range and highly accurate de novo assembly from short-read data is one of the most pressing cha...
Background: The relatively short read lengths from next generation sequencing (NGS) technologies sti...
<div><h3>Background</h3><p>The relatively short read lengths from next generation sequencing (NGS) t...
BACKGROUND: Paired-tag sequencing approaches are commonly used for the analysis of genome structure....
Massively parallel DNA sequencing technologies are revolutionizing genomics by making it possible to...
Second generation sequencing has been widely used to sequence whole genomes. Though various paired-e...
<div><p>Second generation sequencing has been widely used to sequence whole genomes. Though various ...
One of the most difficult problems in modern genomics is the assembly of full-length chromosomes usi...
Abstract Background Short read DNA sequencing technologies have revolutionized genome assembly by pr...
A 2.91-billion base pair (bp) consensus sequence of the euchromatic portion of the human genome was ...
Paired-end library sequencing has been proven useful in scaffold construction during de novo whole g...
Long insert size paired-end (PE) sequences play a key role in de novo assemblies of complex genomes....
We describe a new algorithm, meraculous, for whole genome assembly of deep paired-end short reads, a...
We describe a new algorithm, meraculous, for whole genome assembly of deep paired-end short reads, a...
We describe a new algorithm, meraculous, for whole genome assembly of deep paired-end short reads, a...
Long-range and highly accurate de novo assembly from short-read data is one of the most pressing cha...