The error threshold for quasispecies in 1, 2, 3, and infinity dimensions is investigated by stochastic simulation and analytically. The results show a monotonic decrease in the maximal sustainable error probability with decreasing diffusion coefficient, independently of the spatial dimension. it is thereby established that physical interactions between sequences are necessary in order for spatial effects to enhance the stabilization of biological information. The analytically tractable behavior in an infinity -dimensional (simplex) space provides a good guide to the spatial dependence of the error threshold in lower dimensional Euclidean space
Effective population size is one of the fundamental parameters in many population genetic models. It...
Abstract: Evolution through mutation and selection in populations of asexu-ally replicating entities...
In this paper we investigate error-thresholds on dynamics fitness-landscapes. We show that there exi...
ABSTRACT. In a series of influential papers Eigen and his coworkers introduced the quasispecies mode...
International audienceWe consider the classical Wright-Fisher model of population genetics. We prove...
Abstract. The quasispecies theory is studied for dynamic replication landscapes. A meaningful asympt...
RNA viruses are known to replicate with extremely high mutation rates. These rates are actually clos...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
The spatial range of a species habitat is generally determined by the ability of the species to cope...
This paper introduces the notions of `quasi-species' and `error threshold' from molecular ...
Quasispecies are clouds of genotypes that appear in a population at mutation–selection balance. This...
Quasispecies are clouds of genotypes that appear in a population at mutation-selection balance. This...
In ecology, one of the most fundamental questions relates to the persistence of populations, or conv...
The interplay between space and evolution is an important issue in population dynamics, that is part...
The complexity of biotic and abiotic environmental conditions is such that the fitness of individual...
Effective population size is one of the fundamental parameters in many population genetic models. It...
Abstract: Evolution through mutation and selection in populations of asexu-ally replicating entities...
In this paper we investigate error-thresholds on dynamics fitness-landscapes. We show that there exi...
ABSTRACT. In a series of influential papers Eigen and his coworkers introduced the quasispecies mode...
International audienceWe consider the classical Wright-Fisher model of population genetics. We prove...
Abstract. The quasispecies theory is studied for dynamic replication landscapes. A meaningful asympt...
RNA viruses are known to replicate with extremely high mutation rates. These rates are actually clos...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
The spatial range of a species habitat is generally determined by the ability of the species to cope...
This paper introduces the notions of `quasi-species' and `error threshold' from molecular ...
Quasispecies are clouds of genotypes that appear in a population at mutation–selection balance. This...
Quasispecies are clouds of genotypes that appear in a population at mutation-selection balance. This...
In ecology, one of the most fundamental questions relates to the persistence of populations, or conv...
The interplay between space and evolution is an important issue in population dynamics, that is part...
The complexity of biotic and abiotic environmental conditions is such that the fitness of individual...
Effective population size is one of the fundamental parameters in many population genetic models. It...
Abstract: Evolution through mutation and selection in populations of asexu-ally replicating entities...
In this paper we investigate error-thresholds on dynamics fitness-landscapes. We show that there exi...