Abstract: The patchy distribution of genes across the prokaryotes may be caused by multiple gene losses or lateral transfer. Probabilistic models of gene gain and loss are needed to distinguish between these possibilities. Existing models allow only single genes to be gained and lost, despite the empirical evidence for multi-gene events. We compare birth-death models (currently the only widely-used models, in which only one gene can be gained or lost at a time) to blocks models (allowing gain and loss of multiple genes within a family). We analyze two pairs of genomes: two E. coli strains, and the distantly-related Archaeoglobus fulgidus (archaea) and Bacillus subtilis (gram positive bacteria). Blocks models describe the data much better th...
Acquisition and loss of genetic material are essential forces in bacterial microevolution. They have...
Background: Phylogenetic birth-death models are opening a new window on the processes of genome evol...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
The patchy distribution of genes across the prokaryotes may be caused by multiple gene losses or lat...
The patchy distribution of genes across the prokaryotes may be caused by multiple gene losses or lat...
International audienceThe timing of the evolution of microbial life has largely remained elusive due...
The timing of the evolution of microbial life has largely remained elusive due to the scarcity of pr...
Contains fulltext : 186579.pdf (publisher's version ) (Open Access)In the course o...
Evolution of bacterial and archaeal genomes is a highly dynamic process that involves intensive loss...
In phylogenetic studies, the evolution of molecular sequences is assumed to have taken place along t...
Abstract Background Comparison of complete genomes of Bacteria and Archaea shows that gene content v...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
Characterizing the mechanisms of duplicate gene retention using phylogenetic methods requires models...
In phylogenetic studies, the evolution of molecular sequences is assumed to have taken place along t...
Abstract Background Comparative analysis of sequenced genomes reveals numerous instances of apparent...
Acquisition and loss of genetic material are essential forces in bacterial microevolution. They have...
Background: Phylogenetic birth-death models are opening a new window on the processes of genome evol...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
The patchy distribution of genes across the prokaryotes may be caused by multiple gene losses or lat...
The patchy distribution of genes across the prokaryotes may be caused by multiple gene losses or lat...
International audienceThe timing of the evolution of microbial life has largely remained elusive due...
The timing of the evolution of microbial life has largely remained elusive due to the scarcity of pr...
Contains fulltext : 186579.pdf (publisher's version ) (Open Access)In the course o...
Evolution of bacterial and archaeal genomes is a highly dynamic process that involves intensive loss...
In phylogenetic studies, the evolution of molecular sequences is assumed to have taken place along t...
Abstract Background Comparison of complete genomes of Bacteria and Archaea shows that gene content v...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
Characterizing the mechanisms of duplicate gene retention using phylogenetic methods requires models...
In phylogenetic studies, the evolution of molecular sequences is assumed to have taken place along t...
Abstract Background Comparative analysis of sequenced genomes reveals numerous instances of apparent...
Acquisition and loss of genetic material are essential forces in bacterial microevolution. They have...
Background: Phylogenetic birth-death models are opening a new window on the processes of genome evol...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...