Sequencing of bacterial genomes has revealed an abundance of prophage sequences in many bacterial species. Since these sequences are accessible, through recombination, to infecting phages, bacteria carry an arsenal of genetic material that can be used by these viruses. We develop a mathematical model to isolate the effects of this phenomenon on the coevolution of temperate phage and bacteria. The model predicts that prophage sequences may play a key role in maintaining the phage population in situations that would otherwise favour host cell resistance. In addition, prophage recombination facilitates the existence of multiple phage types, thus promoting diverse co-existence in the phage-host ecosystem. Finally, because the host carries an ar...
Bacteriophages co-exist and co-evolve with their hosts in natural environments. Virulent phages lyse...
We use mathematical models to study prophages, viral genetic sequences carried by bacterial genomes....
Background Temperate phages influence the density, diversity and function of bacterial populations....
Sequencing of bacterial genomes has revealed an abundance of prophage sequences in many bacterial sp...
Integrated into their bacterial hosts' genomes, prophage sequences exhibit a wide diversity of lengt...
International audienceIntegrated phages (prophages) are major contributors to the diversity of bacte...
Bacterial genomes are highly plastic allowing the generation of variants through mutations and acqui...
The viruses that infect bacteria, bacteriophages (or phages) are the most abundant biological entiti...
The rise of next generation sequencing is revealing a hidden diversity of temperate phages within th...
In this investigation, we examined the interaction of phages and bacteria in bacterial biofilm colon...
The integration and degradation of viruses (or phages) constitute a genetic influx of genes within b...
Infections by filamentous phages influence bacterial fitness in various ways. While phage-encoded ac...
Bacteriophage genomes rapidly evolve via mutation and horizontal gene transfer to counter evolving b...
Antibiotic resistance spread via plasmids is a serious threat to successfully fight infections and m...
Bacteriophage genomes can be regarded as an ensemble of modules which are accessible to the whole ph...
Bacteriophages co-exist and co-evolve with their hosts in natural environments. Virulent phages lyse...
We use mathematical models to study prophages, viral genetic sequences carried by bacterial genomes....
Background Temperate phages influence the density, diversity and function of bacterial populations....
Sequencing of bacterial genomes has revealed an abundance of prophage sequences in many bacterial sp...
Integrated into their bacterial hosts' genomes, prophage sequences exhibit a wide diversity of lengt...
International audienceIntegrated phages (prophages) are major contributors to the diversity of bacte...
Bacterial genomes are highly plastic allowing the generation of variants through mutations and acqui...
The viruses that infect bacteria, bacteriophages (or phages) are the most abundant biological entiti...
The rise of next generation sequencing is revealing a hidden diversity of temperate phages within th...
In this investigation, we examined the interaction of phages and bacteria in bacterial biofilm colon...
The integration and degradation of viruses (or phages) constitute a genetic influx of genes within b...
Infections by filamentous phages influence bacterial fitness in various ways. While phage-encoded ac...
Bacteriophage genomes rapidly evolve via mutation and horizontal gene transfer to counter evolving b...
Antibiotic resistance spread via plasmids is a serious threat to successfully fight infections and m...
Bacteriophage genomes can be regarded as an ensemble of modules which are accessible to the whole ph...
Bacteriophages co-exist and co-evolve with their hosts in natural environments. Virulent phages lyse...
We use mathematical models to study prophages, viral genetic sequences carried by bacterial genomes....
Background Temperate phages influence the density, diversity and function of bacterial populations....