Hannenhalli and Pevzner gave the first polynomial-time algorithm for computing the inversion distance between two signed permutations, as part of the larger task of determining the shortest sequence of inversions needed to transform one permutation into the other. Their algorithm (restricted to distance calculation) proceeds in two stages: in the first stage, the overlap graph induced by the permutation is decomposed into connected components; then, in the second stage, certain graph structures (hurdles and others) are identified. Berman and Hannenhalli avoided the explicit computation of the overlap graph and gave an O(na(n)) algorithm, based on a Union-Find structure, to find its connected components, where a is the inverse Ackerman funct...
Hannenhalli and Pevzner developed the first polynomial-time algorithm for the combinatorial problem ...
Bergeron A, Heber S, Stoye J. Common intervals and sorting by reversals: a marriage of necessity. Bi...
Abstract We address the problem of computing distances between rankings that take into account simil...
The study of genomic inversions (or reversals) has been a mainstay of computational genomics for nea...
The rearrangement distance between single-chromosome genomes can be estimated as the minimum number ...
The problem of sorting by transpositions asks for a sequence of adjacent interval exchanges that sor...
We study the problem of computing the minimal number of adjacent, non-intersecting block interchange...
We study the problem of sorting by transpositions, which consists in computing the minimum number of...
A number of fields, including the study of genome rearrangements and the design of interconnection n...
Abstract. We prove that the combinatorial distance between any two re-duced expressions of a given p...
The problem of estimating evolutionary distance from differences in gene order has been distilled to...
Background: The inversion distance, that is the distance between two unichromosomal genomes with the...
Abstract. Genome rearrangement algorithms are powerful tools to analyze gene orders in molecular evo...
We prove that the combinatorial distance between any two reduced expressions of a given permutation ...
AbstractGenome rearrangement algorithms are powerful tools to analyze gene orders in molecular evolu...
Hannenhalli and Pevzner developed the first polynomial-time algorithm for the combinatorial problem ...
Bergeron A, Heber S, Stoye J. Common intervals and sorting by reversals: a marriage of necessity. Bi...
Abstract We address the problem of computing distances between rankings that take into account simil...
The study of genomic inversions (or reversals) has been a mainstay of computational genomics for nea...
The rearrangement distance between single-chromosome genomes can be estimated as the minimum number ...
The problem of sorting by transpositions asks for a sequence of adjacent interval exchanges that sor...
We study the problem of computing the minimal number of adjacent, non-intersecting block interchange...
We study the problem of sorting by transpositions, which consists in computing the minimum number of...
A number of fields, including the study of genome rearrangements and the design of interconnection n...
Abstract. We prove that the combinatorial distance between any two re-duced expressions of a given p...
The problem of estimating evolutionary distance from differences in gene order has been distilled to...
Background: The inversion distance, that is the distance between two unichromosomal genomes with the...
Abstract. Genome rearrangement algorithms are powerful tools to analyze gene orders in molecular evo...
We prove that the combinatorial distance between any two reduced expressions of a given permutation ...
AbstractGenome rearrangement algorithms are powerful tools to analyze gene orders in molecular evolu...
Hannenhalli and Pevzner developed the first polynomial-time algorithm for the combinatorial problem ...
Bergeron A, Heber S, Stoye J. Common intervals and sorting by reversals: a marriage of necessity. Bi...
Abstract We address the problem of computing distances between rankings that take into account simil...