Genetic maps order genetic markers along chromosomes. They are, for instance, extensively used in marker-assisted selection to accelerate breeding programs. Even for the same species, people often have to deal with several alternative maps obtained using different ordering methods or different datasets, e.g. resulting from different segregating populations. Having efficient tools to identify the consistency and discrepancy of alternative maps is thus essential to facilitate genetic map comparisons. We propose to encode genetic maps by bucket order, a kind of order, which takes into account the blurred parts of the marker order while being an efficient data structure to achieve low complexity algorithms. The main result of this paper is an O...
The Hannenhalli-Pevzner algorithm for computing the evolutionary distance between two genomes is ver...
International audienceMotivation: Genome maps are fundamental to the study of an organism and essent...
Finding the longest common subsequence for multiple sequences are knows as k-LCS. For significant nu...
Genetic maps order genetic markers along chromosomes. They are, for instance, extensively used in ma...
Genetic linkage maps are cornerstones of a wide spectrum of biotechnology applications, including ma...
We present a fast and accurate algorithm for reducing large-scale genetic marker data to a smaller, ...
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...
We focus on algorithmic problems related to deriving gene locations on DNA sequences of closely rela...
A new method, REcombination Counting and ORDering (RECORD) is presented for the ordering of loci on ...
Genome assembly is one of the most important problems in computational genomics. Here, we suggest ad...
International audienceComparing genomes of different species is a crucial problem in comparative gen...
When building genetic maps, it is necessary to choose from several marker ordering algorithms and cr...
Abstract—A genetic map is an ordering of genetic markers calculated from a population of known linea...
The Hannenhalli-Pevzner algorithm for computing the evolutionary distance between two genomes is ver...
International audienceMotivation: Genome maps are fundamental to the study of an organism and essent...
Finding the longest common subsequence for multiple sequences are knows as k-LCS. For significant nu...
Genetic maps order genetic markers along chromosomes. They are, for instance, extensively used in ma...
Genetic linkage maps are cornerstones of a wide spectrum of biotechnology applications, including ma...
We present a fast and accurate algorithm for reducing large-scale genetic marker data to a smaller, ...
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...
We focus on algorithmic problems related to deriving gene locations on DNA sequences of closely rela...
A new method, REcombination Counting and ORDering (RECORD) is presented for the ordering of loci on ...
Genome assembly is one of the most important problems in computational genomics. Here, we suggest ad...
International audienceComparing genomes of different species is a crucial problem in comparative gen...
When building genetic maps, it is necessary to choose from several marker ordering algorithms and cr...
Abstract—A genetic map is an ordering of genetic markers calculated from a population of known linea...
The Hannenhalli-Pevzner algorithm for computing the evolutionary distance between two genomes is ver...
International audienceMotivation: Genome maps are fundamental to the study of an organism and essent...
Finding the longest common subsequence for multiple sequences are knows as k-LCS. For significant nu...