International audienceThe gene order on a chromosome is a necessary data for most comparative genomics studies, but in many cases only partial orders can be obtained by current genetic mapping techniques. The Minimum Breakpoint Linearization Problem aims at constructing a total order from this partial knowledge, such that the breakpoint distance to a reference genome is minimized. In this paper, we first expose a flaw in two algorithms formerly known for this problem [5,3]. We then present a new modeling for this problem, and use it to design three approximation algorithms, with ratios resp. O(log(k) log log(k)), O(log2(|X|)) and m2+4m−4, where k is the optimal breakpoint distance we look for, |X| is upper bounded by the number of pair of g...
A fundamental problem in comparative genomics is to compute the distance between two genomes in term...
Abstract Background The gene family-free framework for comparative genomics aims at providing method...
Dias Vieira Braga M, Brockmann LR, Klerx K, Stoye J. A Linear Time Algorithm for an Extended Version...
International audiencePreliminary to most comparative genomics studies is the annotation of chromoso...
International audienceA preliminary step to most comparative genomics studies is the annotation of c...
The total order of the genes or markers on a chromosome is crucial for most comparative genomics stu...
International audienceComparing genomes of different species is a crucial problem in comparative gen...
AbstractBreakpoint phylogenies methods have been shown to be an effective tool for extracting phylog...
We describe a number of heuristics for inferring the gene orders of the hypothetical ancestral genom...
Constructing the genomic median of several given genomes is crucial in developing evolutionary trees...
BACKGROUND:Recovering the structure of ancestral genomes can be formalized in terms of properties of...
International audienceBackgroundRecovering the structure of ancestral genomes can be formalized in t...
The genomic distance problem in the Hannenhalli-Pevzner (HP) theory is the following: Given two geno...
Motivation: The total order of the genes or markers on a chromosome inherent in its representation a...
AbstractThe genomic distance problem in the Hannenhalli–Pevzner (HP) theory is the following: Given ...
A fundamental problem in comparative genomics is to compute the distance between two genomes in term...
Abstract Background The gene family-free framework for comparative genomics aims at providing method...
Dias Vieira Braga M, Brockmann LR, Klerx K, Stoye J. A Linear Time Algorithm for an Extended Version...
International audiencePreliminary to most comparative genomics studies is the annotation of chromoso...
International audienceA preliminary step to most comparative genomics studies is the annotation of c...
The total order of the genes or markers on a chromosome is crucial for most comparative genomics stu...
International audienceComparing genomes of different species is a crucial problem in comparative gen...
AbstractBreakpoint phylogenies methods have been shown to be an effective tool for extracting phylog...
We describe a number of heuristics for inferring the gene orders of the hypothetical ancestral genom...
Constructing the genomic median of several given genomes is crucial in developing evolutionary trees...
BACKGROUND:Recovering the structure of ancestral genomes can be formalized in terms of properties of...
International audienceBackgroundRecovering the structure of ancestral genomes can be formalized in t...
The genomic distance problem in the Hannenhalli-Pevzner (HP) theory is the following: Given two geno...
Motivation: The total order of the genes or markers on a chromosome inherent in its representation a...
AbstractThe genomic distance problem in the Hannenhalli–Pevzner (HP) theory is the following: Given ...
A fundamental problem in comparative genomics is to compute the distance between two genomes in term...
Abstract Background The gene family-free framework for comparative genomics aims at providing method...
Dias Vieira Braga M, Brockmann LR, Klerx K, Stoye J. A Linear Time Algorithm for an Extended Version...