Abstract Recent studies in genomics have highlighted the significance of sequence insertions in determining individual variation. Efforts to discover the content of these sequence insertions have been limited to short insertions and long unique insertions. Much of the inserted sequence in the typical human genome, however, is a mixture of repeated and unique sequence. Current methods are designed to assemble only unique sequence insertions, using reads that do not map to the reference. These methods are not able to assemble repeated sequence insertions, as the reads will map to the reference in a different locus. In this paper, we present a computational method for discovering the content of sequence insertions that are unique, repeated, or...
Abstract Background Transposable elements make up a significant portion of the human genome. Accurat...
The extent of human genomic structural variation suggests that there must be portions of the genome ...
Abstract Background - The availability of multiple whole genome sequences has facilitated in silico ...
Motivation: In the past few years, human genome structural variation discovery has enjoyed increased...
Two decades after the initial sequencing and assembly of the human genome, the current reference ass...
Motivation: Insertions play an important role in genome evolution. However, such variants are diffic...
Motivation: Large insertions of novel sequence are an important type of structural variants. Previ...
Next generation sequencing (NGS) has enabled us to accurately determine the nucleotide sequence of s...
Background: The advent of next-generation high-throughput technologies has revolutionized whole geno...
Although recent developments in DNA sequencing have allowed for great leaps in both the quality and ...
Abstract Background Recent studies have demonstrated the genetic significance of insertions, deletio...
Motivation: Segmental duplications are common in mammalian genomes, but their evolutionary origins r...
Motivation: The detection of genomic structural variation (SV) has advanced tremendously in recent y...
Motivation: Insertions and deletions contribute significantly to genomic diversity both at intra and...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
Abstract Background Transposable elements make up a significant portion of the human genome. Accurat...
The extent of human genomic structural variation suggests that there must be portions of the genome ...
Abstract Background - The availability of multiple whole genome sequences has facilitated in silico ...
Motivation: In the past few years, human genome structural variation discovery has enjoyed increased...
Two decades after the initial sequencing and assembly of the human genome, the current reference ass...
Motivation: Insertions play an important role in genome evolution. However, such variants are diffic...
Motivation: Large insertions of novel sequence are an important type of structural variants. Previ...
Next generation sequencing (NGS) has enabled us to accurately determine the nucleotide sequence of s...
Background: The advent of next-generation high-throughput technologies has revolutionized whole geno...
Although recent developments in DNA sequencing have allowed for great leaps in both the quality and ...
Abstract Background Recent studies have demonstrated the genetic significance of insertions, deletio...
Motivation: Segmental duplications are common in mammalian genomes, but their evolutionary origins r...
Motivation: The detection of genomic structural variation (SV) has advanced tremendously in recent y...
Motivation: Insertions and deletions contribute significantly to genomic diversity both at intra and...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
Abstract Background Transposable elements make up a significant portion of the human genome. Accurat...
The extent of human genomic structural variation suggests that there must be portions of the genome ...
Abstract Background - The availability of multiple whole genome sequences has facilitated in silico ...