Add to ORKGMultiple genome rearrangement by signed reversal is discussed: For a collection of genomes represented by signed permutations, reconstruct their evolutionary history by using signed reversals, i.e. find a bifurcating tree where sampled genomes are assigned to leaf nodes and ancestral genomes (i.e. signed permutations) are hypothesized at internal nodes such that the total reversal distance summed over all edges of the tree is minimized. It is equivalent to finding an optimal Steiner tree that connects the given genomes by signed reversal paths. The key for the problem is to reconstruct all optimal Steiner nodes/ancestral genomes.;The problem is NP-hard and can only be solved by efficient approximation algorithms. Various algorithms/programs...
AbstractHannenhalli and Pevzner (36th Annual Symposium on Foundations of Computer Science, Milwaukee...
When comparing genomes in different species, a piece of chromosome in one species can be moved or co...
During evolution, global mutations may modify the gene order in a genome. Such mutations are commonl...
AbstractAn important problem in computational biology is the genome rearrangement using reversals an...
AbstractThe problem of sorting signed permutations by reversals is inspired by genome rearrangement ...
AbstractRecently, a new approach to analyze genomes evolving which is based on comparision of gene o...
From one cell to another, from one individual to another, and from one species to another, the conte...
With the increasing amount of sequenced genomes, a comparison of species based on these data becomes...
Various global rearrangements of permutations, such as reversals and transpositions, have recently b...
AbstractWe consider a particular model of genomic rearrangements that takes paralogous and orthologo...
We study the problem of sorting genomes under an evolutionary model that includes genomic rearrangem...
AbstractGenome rearrangement is an important area in computational biology. There are three basic op...
In the past decade, genome rearrangements have attracted increasing attention from both biologists a...
When genomes of different species were compared, biologists noticed that groups of genes appeared to...
AbstractSorting permutations by reversals is one of the most challenging problems related with the a...
AbstractHannenhalli and Pevzner (36th Annual Symposium on Foundations of Computer Science, Milwaukee...
When comparing genomes in different species, a piece of chromosome in one species can be moved or co...
During evolution, global mutations may modify the gene order in a genome. Such mutations are commonl...
AbstractAn important problem in computational biology is the genome rearrangement using reversals an...
AbstractThe problem of sorting signed permutations by reversals is inspired by genome rearrangement ...
AbstractRecently, a new approach to analyze genomes evolving which is based on comparision of gene o...
From one cell to another, from one individual to another, and from one species to another, the conte...
With the increasing amount of sequenced genomes, a comparison of species based on these data becomes...
Various global rearrangements of permutations, such as reversals and transpositions, have recently b...
AbstractWe consider a particular model of genomic rearrangements that takes paralogous and orthologo...
We study the problem of sorting genomes under an evolutionary model that includes genomic rearrangem...
AbstractGenome rearrangement is an important area in computational biology. There are three basic op...
In the past decade, genome rearrangements have attracted increasing attention from both biologists a...
When genomes of different species were compared, biologists noticed that groups of genes appeared to...
AbstractSorting permutations by reversals is one of the most challenging problems related with the a...
AbstractHannenhalli and Pevzner (36th Annual Symposium on Foundations of Computer Science, Milwaukee...
When comparing genomes in different species, a piece of chromosome in one species can be moved or co...
During evolution, global mutations may modify the gene order in a genome. Such mutations are commonl...