Add to ORKGAbstract Conflicting selection pressures occurring over the life cycle of an organism constitute serious challenges to the robustness of replication. Viruses present a credible model system for analysing problems that arise through evolutionary conflicts of interest. We present a multi-level selection model for the life cycle of positive-strand RNA viruses. The model combines within-cell replication kinetics and protein synthesis, and between-cell population dynamics of virion production and transmission. We show how these two levels of within-host selection interact to produce tradeoffs in the life history strategy of a virus without consideration of host mortality. We find that viruses evolve towards intermediate rather than maximum encap...
Abstract—Many infectious pathogens, and in particular viruses, have an extremely high rate of mutati...
RNA viruses exist as genetically diverse populations displaying a range of virulence degrees. The ev...
Mutational load is known to be of importance for the evolution of RNA viruses, the combination of a ...
Life history theory posits that the sequence and timing of events in an organism's lifespan are fine...
We construct a mathematical model of the within-cell replication of poliovirus, a prototypic RNA vir...
Many viruses, particularly RNA viruses, mutate at a very high rate per genome per replication. One p...
Viruses evolve rapidly, providing a unique system for understanding the processes that influence rat...
We describe a stochastic virus evolutionmodel representing genomic diversification and within-host s...
RNA viruses exist in large intra-host populations which display great genotypic and phenotypic diver...
Several factors play a role during the replication and transmission of RNA viruses. First, as a cons...
RNA viruses exist in large intra-host populations which display great genotypic and phenotypic diver...
RNA viruses exist as genetically diverse populations displaying a range of virulence degrees. The ev...
We show in a simple theoretical quasispecies model that the replication dynamics of hepatitis C viru...
Viral reproduction depends on a careful balance of the viral life-cycle in time and magnitude. Maint...
During replication, RNA viruses rapidly generate diverse mutant progeny which differ in their abilit...
Abstract—Many infectious pathogens, and in particular viruses, have an extremely high rate of mutati...
RNA viruses exist as genetically diverse populations displaying a range of virulence degrees. The ev...
Mutational load is known to be of importance for the evolution of RNA viruses, the combination of a ...
Life history theory posits that the sequence and timing of events in an organism's lifespan are fine...
We construct a mathematical model of the within-cell replication of poliovirus, a prototypic RNA vir...
Many viruses, particularly RNA viruses, mutate at a very high rate per genome per replication. One p...
Viruses evolve rapidly, providing a unique system for understanding the processes that influence rat...
We describe a stochastic virus evolutionmodel representing genomic diversification and within-host s...
RNA viruses exist in large intra-host populations which display great genotypic and phenotypic diver...
Several factors play a role during the replication and transmission of RNA viruses. First, as a cons...
RNA viruses exist in large intra-host populations which display great genotypic and phenotypic diver...
RNA viruses exist as genetically diverse populations displaying a range of virulence degrees. The ev...
We show in a simple theoretical quasispecies model that the replication dynamics of hepatitis C viru...
Viral reproduction depends on a careful balance of the viral life-cycle in time and magnitude. Maint...
During replication, RNA viruses rapidly generate diverse mutant progeny which differ in their abilit...
Abstract—Many infectious pathogens, and in particular viruses, have an extremely high rate of mutati...
RNA viruses exist as genetically diverse populations displaying a range of virulence degrees. The ev...
Mutational load is known to be of importance for the evolution of RNA viruses, the combination of a ...