The calculation of evolutionary distance via models of genome rearrangement has an inherent combinatorial complexity. Various algorithms and estimators have been used to address this; however, many of these set quite specific conditions for the underlying model. A recently proposed technique, applying representation theory to calculate evolutionary distance between circular genomes as a maximum likelihood estimate, reduces the computational load by converting the combinatorial problem into a numerical one. We show that the technique may be applied to models with any choice of rearrangements and relative probabilities thereof; we then investigate the symmetry of circular genome rearrangement models in general. We discuss the practical implem...
Abstract Background The double cut and join (DCJ) model of genome rearrangement is well studied due ...
We investigate certain genome rearrangement problems studied in relation to genome evolution. We int...
Genomic rearrangements have been studied since the beginnings of modern genetics and models for such...
The calculation of evolutionary distance via models of genome rearrangement has an inherent combinat...
Accurate estimation of evolutionary distances between taxa is important for many phylogenetic recons...
Of the many modern approaches to calculating evolutionary distance via models of genome rearrangemen...
Abstract The rearrangement distance is a method to compare genomes of different species. Such distan...
Abstract Background The rapidly increasing availability of whole-genome sequences has enabled the st...
International audienceBackgroundTraditionally, the merit of a rearrangement scenario between two gen...
AbstractWith the advent of large-scale DNA physical mapping and sequencing, studies of genome rearra...
During the evolutionary process, genomes are affected by various genome rearrangements, that is, eve...
We review the combinatorial optimization problems in calculating edit distances between genomes and ...
For estimating the evolutionary distance between genomes of two different organisms, many sorting pe...
A new and largely unexplored area of computational biology is combinatorial algorithms for genome re...
Abstract Background The ability to estimate the evolutionary distance between extant genomes plays a...
Abstract Background The double cut and join (DCJ) model of genome rearrangement is well studied due ...
We investigate certain genome rearrangement problems studied in relation to genome evolution. We int...
Genomic rearrangements have been studied since the beginnings of modern genetics and models for such...
The calculation of evolutionary distance via models of genome rearrangement has an inherent combinat...
Accurate estimation of evolutionary distances between taxa is important for many phylogenetic recons...
Of the many modern approaches to calculating evolutionary distance via models of genome rearrangemen...
Abstract The rearrangement distance is a method to compare genomes of different species. Such distan...
Abstract Background The rapidly increasing availability of whole-genome sequences has enabled the st...
International audienceBackgroundTraditionally, the merit of a rearrangement scenario between two gen...
AbstractWith the advent of large-scale DNA physical mapping and sequencing, studies of genome rearra...
During the evolutionary process, genomes are affected by various genome rearrangements, that is, eve...
We review the combinatorial optimization problems in calculating edit distances between genomes and ...
For estimating the evolutionary distance between genomes of two different organisms, many sorting pe...
A new and largely unexplored area of computational biology is combinatorial algorithms for genome re...
Abstract Background The ability to estimate the evolutionary distance between extant genomes plays a...
Abstract Background The double cut and join (DCJ) model of genome rearrangement is well studied due ...
We investigate certain genome rearrangement problems studied in relation to genome evolution. We int...
Genomic rearrangements have been studied since the beginnings of modern genetics and models for such...