Add to ORKGInternational audienceThis paper proposes new algorithms for computing pairwise rearrangement scenarios that conserve the combinatorial structure of genomes. More precisely, we investigate the problem of sorting signed permutations by reversals without breaking common intervals. We describe a combinatorial framework for this problem that allows to characterize classes of signed permutations for which one can compute in polynomial time a shortest reversal scenario that conserves all common intervals. In particular we define a class of permutations for which this computation can be done in linear time with a very simple algorithm that does not rely on the classical Hannenhalli-Pevzner theory for sorting by reversals. We apply these methods to...
AbstractGenome rearrangement algorithms are powerful tools to analyze gene orders in molecular evolu...
Sorting signed permutations by reversals is a fundamental problem in computationial molecular biolog...
For estimating the evolutionary distance between genomes of two different organisms, many sorting pe...
Abstract. This paper investigates the problem of conservation of com-binatorial structures in genome...
The rearrangement distance between single-chromosome genomes can be estimated as the minimum number ...
AbstractSorting permutations by reversals is one of the most challenging problems related with the a...
Motivated by the problem in computational biology of reconstructing the series of chromosome inversi...
Reversals and transpositions are two classic genome rearrangement operations. Reversals occur when a...
AbstractThe problem of sorting signed permutations by reversals is inspired by genome rearrangement ...
AbstractAn important problem in computational biology is the genome rearrangement using reversals an...
AbstractThe problem of sorting signed permutations by reversals (SBR) is a fundamental problem in co...
The problem of estimating evolutionary distance from differences in gene order has been distilled to...
Abstract. Genome rearrangement algorithms are powerful tools to analyze gene orders in molecular evo...
International audienceIn comparative genomics, algorithms that sort permutations by reversals are of...
Abstract Background One way to estimate the evolutionary distance between two given genomes is to de...
AbstractGenome rearrangement algorithms are powerful tools to analyze gene orders in molecular evolu...
Sorting signed permutations by reversals is a fundamental problem in computationial molecular biolog...
For estimating the evolutionary distance between genomes of two different organisms, many sorting pe...
Abstract. This paper investigates the problem of conservation of com-binatorial structures in genome...
The rearrangement distance between single-chromosome genomes can be estimated as the minimum number ...
AbstractSorting permutations by reversals is one of the most challenging problems related with the a...
Motivated by the problem in computational biology of reconstructing the series of chromosome inversi...
Reversals and transpositions are two classic genome rearrangement operations. Reversals occur when a...
AbstractThe problem of sorting signed permutations by reversals is inspired by genome rearrangement ...
AbstractAn important problem in computational biology is the genome rearrangement using reversals an...
AbstractThe problem of sorting signed permutations by reversals (SBR) is a fundamental problem in co...
The problem of estimating evolutionary distance from differences in gene order has been distilled to...
Abstract. Genome rearrangement algorithms are powerful tools to analyze gene orders in molecular evo...
International audienceIn comparative genomics, algorithms that sort permutations by reversals are of...
Abstract Background One way to estimate the evolutionary distance between two given genomes is to de...
AbstractGenome rearrangement algorithms are powerful tools to analyze gene orders in molecular evolu...
Sorting signed permutations by reversals is a fundamental problem in computationial molecular biolog...
For estimating the evolutionary distance between genomes of two different organisms, many sorting pe...