Motivation: Accurate alignments between entire genomes are crucial for comparative genomics. However, computing sensitive and accurate genome alignments is a challenging problem, complicated by genomic rearrangements. Results: Here we present a fast approach, called chainCleaner, that improves the specificity in genome alignments by accurately detecting and removing local alignments that obscure the evolutionary history of genomic rearrangements. Systematic tests on alignments between the human and other vertebrate genomes show that chainCleaner (i) improves the alignment of numerous orthologous genes, (ii) exposes alignments between exons of orthologous genes that were masked before by alignments to pseudogenes, and (iii) recovers hundreds...
The availability of the assembled mouse genome makes possible, for the first time, an alignment and...
BACKGROUND:The new generation of massively parallel DNA sequencers, combined with the challenge of w...
Background: Transposons and other repetitive sequences make up a large part of complex genomes. Repe...
Motivation: Accurate alignments between entire genomes are crucial for comparative genomics. However...
Accurate alignments between entire genomes are crucial for comparative genomics. However, computing ...
Motivation: The accumulation of genome sequences will only accelerate in the coming years. We aim to...
National audienceWhole genome alignment is a challenging problem in computational comparative genomi...
International audienceBackground: Comparing and aligning genomes is a key step in analyzing closely ...
Genome alignments provide a powerful basis to transfer gene annotations from a well-annotated refere...
Genome alignments provide a powerful basis to transfer gene annotations from a well-annotated refere...
The increase in the volume of genomic data due to the decrease in the cost of whole genome sequencin...
Abstract Background The recent advancement of whole genome alignment software has made it possible t...
BACKGROUND: Genomic sequence alignment is a powerful method for genome analysis and annotation, as a...
Identifying coding genes is an essential step in genome annotation. Here, we utilize existing whole ...
Identifying coding genes is an essential step in genome annotation. Here, we utilize existing whole ...
The availability of the assembled mouse genome makes possible, for the first time, an alignment and...
BACKGROUND:The new generation of massively parallel DNA sequencers, combined with the challenge of w...
Background: Transposons and other repetitive sequences make up a large part of complex genomes. Repe...
Motivation: Accurate alignments between entire genomes are crucial for comparative genomics. However...
Accurate alignments between entire genomes are crucial for comparative genomics. However, computing ...
Motivation: The accumulation of genome sequences will only accelerate in the coming years. We aim to...
National audienceWhole genome alignment is a challenging problem in computational comparative genomi...
International audienceBackground: Comparing and aligning genomes is a key step in analyzing closely ...
Genome alignments provide a powerful basis to transfer gene annotations from a well-annotated refere...
Genome alignments provide a powerful basis to transfer gene annotations from a well-annotated refere...
The increase in the volume of genomic data due to the decrease in the cost of whole genome sequencin...
Abstract Background The recent advancement of whole genome alignment software has made it possible t...
BACKGROUND: Genomic sequence alignment is a powerful method for genome analysis and annotation, as a...
Identifying coding genes is an essential step in genome annotation. Here, we utilize existing whole ...
Identifying coding genes is an essential step in genome annotation. Here, we utilize existing whole ...
The availability of the assembled mouse genome makes possible, for the first time, an alignment and...
BACKGROUND:The new generation of massively parallel DNA sequencers, combined with the challenge of w...
Background: Transposons and other repetitive sequences make up a large part of complex genomes. Repe...