International audienceComparing bacterial genomes implies the use of a dedicated measure. It relies on comparing circular genomes based on a set of conserved genes. Following this assumption, the common interval appears to be a good candidate. For evidences, we propose herein an approach to compute the common intervals between two circular genomes that takes into account duplications. Its application on a concrete case, comparing E. coli and V. cholerae, is accurate. It indeed emphasizes sets of conserved genes that present high impacts on bacterial functions
The genomic revolution is fully upon us in 2006 and the pace of discovery is set to accelerate with ...
Abstract Background With the development of new technology, it has recently become practical to rese...
The recent availability of complete sequences for numerous closely related bacterial genomes opens u...
International audienceComparing bacterial genomes implies the use of a dedicated measure. It relies ...
International audienceDuring the last decade, we witnessed the huge impact of the comparative genomi...
AbstractWe compare complete genomes from common words denoted MUMs for maximum unique matches. They ...
Motivation: Most prokaryotic genomes are circular with a single chromosome (called circular genomes)...
Comparative genomics consists in studying similarities/dissimilarities between genomes, and can be u...
Sequence comparison is a fundamental step in many important tasks in bioinformatics. Traditional alg...
International audienceWe compare complete genomes from common words denoted MUMs for maximum unique ...
Bergeron A, Stoye J. On the Similarity of Sets of Permutations and its Applications to Genome Compar...
Background: Sequence comparison is a fundamental step in many important tasks in bioinformatics; fro...
The number of studies dealing with complete bacterial genome comparisons steadily increases. They al...
Sequence comparison is a fundamental step in many important tasks in bioinformatics; from phylogenet...
Motivation: Most prokaryotic genomes are circular with a single chromosome (called circular genomes)...
The genomic revolution is fully upon us in 2006 and the pace of discovery is set to accelerate with ...
Abstract Background With the development of new technology, it has recently become practical to rese...
The recent availability of complete sequences for numerous closely related bacterial genomes opens u...
International audienceComparing bacterial genomes implies the use of a dedicated measure. It relies ...
International audienceDuring the last decade, we witnessed the huge impact of the comparative genomi...
AbstractWe compare complete genomes from common words denoted MUMs for maximum unique matches. They ...
Motivation: Most prokaryotic genomes are circular with a single chromosome (called circular genomes)...
Comparative genomics consists in studying similarities/dissimilarities between genomes, and can be u...
Sequence comparison is a fundamental step in many important tasks in bioinformatics. Traditional alg...
International audienceWe compare complete genomes from common words denoted MUMs for maximum unique ...
Bergeron A, Stoye J. On the Similarity of Sets of Permutations and its Applications to Genome Compar...
Background: Sequence comparison is a fundamental step in many important tasks in bioinformatics; fro...
The number of studies dealing with complete bacterial genome comparisons steadily increases. They al...
Sequence comparison is a fundamental step in many important tasks in bioinformatics; from phylogenet...
Motivation: Most prokaryotic genomes are circular with a single chromosome (called circular genomes)...
The genomic revolution is fully upon us in 2006 and the pace of discovery is set to accelerate with ...
Abstract Background With the development of new technology, it has recently become practical to rese...
The recent availability of complete sequences for numerous closely related bacterial genomes opens u...