Repeat elements are important components of eukaryotic genomes. One limitation in our understanding of repeat elements is that most analyses rely on reference genomes that are incomplete and often contain missing data in highly repetitive regions that are difficult to assemble. To overcome this problem we develop a new method, REPdenovo, which assembles repeat sequences directly from raw shotgun sequencing data. REPdenovo can construct various types of repeats that are highly repetitive and have low sequence divergence within copies. We show that REPdenovo is substantially better than existing methods both in terms of the number and the completeness of the repeat sequences that it recovers. The key advantage of REPdenovo is that it can reco...
We present a graph-based method for the analysis of repeat families in a repeat library. We build a ...
Red: an intelligent, rapid, accurate tool for detecting repeats de-novo on the genomic scale Hani Z....
Small repetitive sequences, called tandem repeats, are abundant throughout the human genome, both in...
Repeat elements are important components of eukaryotic genomes. One limitation in our understanding ...
Repeat elements are important components of eukaryotic genomes. The dropping cost of the second and ...
Abstract Background Repeat elements are important components of most eukaryotic genomes. Most existi...
Every time we compare two species that are closer to each other than either is to humans, we get nea...
Kurtz S, Choudhuri JV, Ohlebusch E, Schleiermacher C, Stoye J, Giegerich R. REPuter: the manifold ap...
Abstract Background Higher eukaryotic genomes are typically large, complex and filled with both gene...
Genomic sequences are far from being random but are made up of systematically ordered and informatio...
Repetitive elements are sequence patterns in the genome which are duplicated in large quantity. They...
Repeats are a common feature of genomic sequences and much remains to be understood of their origin ...
<p>Genomic repeats are functionally ubiquitous structural units found in all genomes. These re...
DNA repeats are causes and consequences of genome plasticity. Repeats are created by intrachromosoma...
Abstract Repeat expansions are responsible for over 40 monogenic disorders, and undoub...
We present a graph-based method for the analysis of repeat families in a repeat library. We build a ...
Red: an intelligent, rapid, accurate tool for detecting repeats de-novo on the genomic scale Hani Z....
Small repetitive sequences, called tandem repeats, are abundant throughout the human genome, both in...
Repeat elements are important components of eukaryotic genomes. One limitation in our understanding ...
Repeat elements are important components of eukaryotic genomes. The dropping cost of the second and ...
Abstract Background Repeat elements are important components of most eukaryotic genomes. Most existi...
Every time we compare two species that are closer to each other than either is to humans, we get nea...
Kurtz S, Choudhuri JV, Ohlebusch E, Schleiermacher C, Stoye J, Giegerich R. REPuter: the manifold ap...
Abstract Background Higher eukaryotic genomes are typically large, complex and filled with both gene...
Genomic sequences are far from being random but are made up of systematically ordered and informatio...
Repetitive elements are sequence patterns in the genome which are duplicated in large quantity. They...
Repeats are a common feature of genomic sequences and much remains to be understood of their origin ...
<p>Genomic repeats are functionally ubiquitous structural units found in all genomes. These re...
DNA repeats are causes and consequences of genome plasticity. Repeats are created by intrachromosoma...
Abstract Repeat expansions are responsible for over 40 monogenic disorders, and undoub...
We present a graph-based method for the analysis of repeat families in a repeat library. We build a ...
Red: an intelligent, rapid, accurate tool for detecting repeats de-novo on the genomic scale Hani Z....
Small repetitive sequences, called tandem repeats, are abundant throughout the human genome, both in...