Background. RNA molecules, through their dual appearance as sequence and structure, represent a suitable model to study evolutionary properties of quasispecies. The essential ingredient in this model is the differentiation between genotype (molecular sequences which are affected by mutation) and phenotype (molecular structure, affected by selection). This framework allows a quantitative analysis of organizational properties of quasispecies as they adapt to different environments, such as their robustness, the effect of the degeneration of the sequence space, or the adaptation under different mutation rates and the error threshold associated. Results. We describe and analyze the structural properties of molecular quasispecies adapting to dif...
textMutation is a fundamental process in evolution because affects the amount of genetic variation i...
RNA has a myriad of biological roles in contemporary life. We use the RNA paradigm for genotype-phen...
Understanding which phenotypes are accessible from which genotypes is fundamental for understanding ...
Background. RNA molecules, through their dual appearance as sequence and structure, represent a suit...
Background. The secondary structure of folded RNA sequences is a good model to map phenotype onto ge...
Evolution by natural selection is fundamentally shaped by the fitness landscapes in which it occurs....
According to quasispecies theory, high mutation rates limit the amount of information genomes can st...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
Recent investigations surprisingly indicate that single RNA "stem-loops" operate solely by chemical ...
For evolving populations of replicators, there is much evidence that the effect of mutations on fitn...
Quasispecies are clouds of genotypes that appear in a population at mutation–selection balance. This...
For evolving populations of replicators, there is much evidence that the effect of mutations on fitn...
AbstractNovel phenotypes can originate either through mutations in existing genotypes or through phe...
Novel phenotypes can originate either through mutations in existing genotypes or through phenotypic ...
textMutation is a fundamental process in evolution because affects the amount of genetic variation i...
RNA has a myriad of biological roles in contemporary life. We use the RNA paradigm for genotype-phen...
Understanding which phenotypes are accessible from which genotypes is fundamental for understanding ...
Background. RNA molecules, through their dual appearance as sequence and structure, represent a suit...
Background. The secondary structure of folded RNA sequences is a good model to map phenotype onto ge...
Evolution by natural selection is fundamentally shaped by the fitness landscapes in which it occurs....
According to quasispecies theory, high mutation rates limit the amount of information genomes can st...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
Recent investigations surprisingly indicate that single RNA "stem-loops" operate solely by chemical ...
For evolving populations of replicators, there is much evidence that the effect of mutations on fitn...
Quasispecies are clouds of genotypes that appear in a population at mutation–selection balance. This...
For evolving populations of replicators, there is much evidence that the effect of mutations on fitn...
AbstractNovel phenotypes can originate either through mutations in existing genotypes or through phe...
Novel phenotypes can originate either through mutations in existing genotypes or through phenotypic ...
textMutation is a fundamental process in evolution because affects the amount of genetic variation i...
RNA has a myriad of biological roles in contemporary life. We use the RNA paradigm for genotype-phen...
Understanding which phenotypes are accessible from which genotypes is fundamental for understanding ...