We present a graph-based method for the analysis of repeat families in a repeat library. We build a repeat domain graph that decomposes a repeat library into repeat domains, short subsequences shared by multiple repeat families, and reveals the mosaic structure of repeat families. Our method recovers documented mosaic repeat structures and suggests additional putative ones. Our method is useful for elucidating the evolutionary history of repeats and annotating de novo generated repeat libraries
[[abstract]]Approximately 43% of the human genome is occupied by repetitive elements. Even more, aro...
Small repetitive sequences, called tandem repeats, are abundant throughout the human genome, both in...
International audiencePlant genomes contain a particularly high proportion of repeated structures of...
The identification of repeat structure in eukaryotic genomes can be time-consuming and difficult bec...
Repetitive elements are sequence patterns in the genome which are duplicated in large quantity. They...
Every time we compare two species that are closer to each other than either is to humans, we get nea...
<p>Genomic repeats are functionally ubiquitous structural units found in all genomes. These re...
BackgroundNearly half the human genome consists of repeat elements, most of which are retrotransposo...
Motivation: Repeats are ubiquitous in genomes and play important roles in evolution. Transposable el...
Repeat elements are important components of eukaryotic genomes. The dropping cost of the second and ...
Repeat elements are important components of eukaryotic genomes. One limitation in our understanding ...
Kurtz S, Choudhuri JV, Ohlebusch E, Schleiermacher C, Stoye J, Giegerich R. REPuter: the manifold ap...
Many genomes have recently been sequenced and published, including Human chromosome 22 with length o...
Abstract Background Higher eukaryotic genomes are typically large, complex and filled with both gene...
[[abstract]]Approximately 43% of the human genome is occupied by repetitive elements. Even more, aro...
Small repetitive sequences, called tandem repeats, are abundant throughout the human genome, both in...
International audiencePlant genomes contain a particularly high proportion of repeated structures of...
The identification of repeat structure in eukaryotic genomes can be time-consuming and difficult bec...
Repetitive elements are sequence patterns in the genome which are duplicated in large quantity. They...
Every time we compare two species that are closer to each other than either is to humans, we get nea...
<p>Genomic repeats are functionally ubiquitous structural units found in all genomes. These re...
BackgroundNearly half the human genome consists of repeat elements, most of which are retrotransposo...
Motivation: Repeats are ubiquitous in genomes and play important roles in evolution. Transposable el...
Repeat elements are important components of eukaryotic genomes. The dropping cost of the second and ...
Repeat elements are important components of eukaryotic genomes. One limitation in our understanding ...
Kurtz S, Choudhuri JV, Ohlebusch E, Schleiermacher C, Stoye J, Giegerich R. REPuter: the manifold ap...
Many genomes have recently been sequenced and published, including Human chromosome 22 with length o...
Abstract Background Higher eukaryotic genomes are typically large, complex and filled with both gene...
[[abstract]]Approximately 43% of the human genome is occupied by repetitive elements. Even more, aro...
Small repetitive sequences, called tandem repeats, are abundant throughout the human genome, both in...
International audiencePlant genomes contain a particularly high proportion of repeated structures of...