BACKGROUND: Gene organization dynamics is actively studied because it provides useful evolutionary information, makes functional annotation easier and often enables to characterize pathogens. There is therefore a strong interest in understanding the variability of this trait and the possible correlations with life-style. Two kinds of events affect genome organization: on one hand translocations and recombinations change the relative position of genes shared by two genomes (i.e. the backbone gene order); on the other, insertions and deletions leave the backbone gene order unchanged but they alter the gene neighborhoods by breaking the syntenic regions. A complete picture about genome organization evolution therefore requires to account for b...
The ever increasing amount of annotated genomic sequences permits now to shed light on the molecular...
A new era in the elucidation of genome evolution has been heralded with the availability of numerous...
Large-scale rearrangements may be important in evolution because they can alter chromosome organizat...
International audienceBackgroundGene organization dynamics is actively studied because it provides u...
Conservation of gene order in prokaryotes has become important in predicting protein function becaus...
The electronic version of this article is the complete one and can be found online at http://genome...
As genomes evolve over hundreds of millions years, the chromosomes become rearranged, with segments ...
We present data-analytic and statistical tools for studying rates of rearrangement of whole genomes ...
Hemiascomycete yeasts cover an evolutionary span comparable to that of the entire phylum of chordate...
This dissertation focus on one fundamental question: Does it matter where a gene reside on a chromos...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
Bacterial genomes have been viewed as collections of genes, with each gene and genome evolving more-...
The evolution of a genome is shaped by spatial interactions at multiple scales. At the angstrom leve...
Genome structure variation has profound impacts on phenotype in organisms ranging from microbes to h...
Abstract:- This paper analyzes the gene pattern-location structures across related microbial genomes...
The ever increasing amount of annotated genomic sequences permits now to shed light on the molecular...
A new era in the elucidation of genome evolution has been heralded with the availability of numerous...
Large-scale rearrangements may be important in evolution because they can alter chromosome organizat...
International audienceBackgroundGene organization dynamics is actively studied because it provides u...
Conservation of gene order in prokaryotes has become important in predicting protein function becaus...
The electronic version of this article is the complete one and can be found online at http://genome...
As genomes evolve over hundreds of millions years, the chromosomes become rearranged, with segments ...
We present data-analytic and statistical tools for studying rates of rearrangement of whole genomes ...
Hemiascomycete yeasts cover an evolutionary span comparable to that of the entire phylum of chordate...
This dissertation focus on one fundamental question: Does it matter where a gene reside on a chromos...
Comparative genomics reveals differences in gene order among species. In the genomes, genes are rear...
Bacterial genomes have been viewed as collections of genes, with each gene and genome evolving more-...
The evolution of a genome is shaped by spatial interactions at multiple scales. At the angstrom leve...
Genome structure variation has profound impacts on phenotype in organisms ranging from microbes to h...
Abstract:- This paper analyzes the gene pattern-location structures across related microbial genomes...
The ever increasing amount of annotated genomic sequences permits now to shed light on the molecular...
A new era in the elucidation of genome evolution has been heralded with the availability of numerous...
Large-scale rearrangements may be important in evolution because they can alter chromosome organizat...