Abstract We study the evolution of robustness in digital organisms adapting to a high mutation rate. As genomes adjust to the harsh mutational environment, the mean effect of single mutations decreases, up until the point where a sizable fraction (up to 30 % in many cases) of the mutations are neutral. We correlate the changes in robustness along the line of descent to changes in directional epistasis, and find that increased robustness is achieved by moving from antagonistic epistasis between mutations towards codes where mutations are, on average, independent. We interpret this recoding as a breakup of linkage between vital sections of the genome, up to the point where instructions are maximally independent of each other. While such a rec...
Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to the gen...
Understanding the extreme variation among bacterial genomes remains an unsolved challenge in evoluti...
We investigate the relationship between the average fitness decay due to single mutations and the st...
Abstract We study the evolution of robustness in digital organisms adapting to a high mutation rate....
Abstract Background Recent work has revealed that many biological systems keep functioning in the fa...
Digital organisms are computer programs that self-replicate, mutate and adapt by natural selection. ...
Both digital codes in computers and nucleotide codes in cells are protected against mutations. Here ...
It has been shown that evolutionary computation methods are influenced not only by the fitness funct...
Many properties of organisms show great robustness against mutations. Whether this robustness is an ...
Mutational robustness is the degree to which a phenotype, such as fitness, is resistant to mutationa...
The accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to changes in...
The accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to changes in...
<div><p>Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to...
SummaryThe accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to cha...
Mutational robustness is the degree to which a phenotype, such as fitness, is resistant to mutationa...
Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to the gen...
Understanding the extreme variation among bacterial genomes remains an unsolved challenge in evoluti...
We investigate the relationship between the average fitness decay due to single mutations and the st...
Abstract We study the evolution of robustness in digital organisms adapting to a high mutation rate....
Abstract Background Recent work has revealed that many biological systems keep functioning in the fa...
Digital organisms are computer programs that self-replicate, mutate and adapt by natural selection. ...
Both digital codes in computers and nucleotide codes in cells are protected against mutations. Here ...
It has been shown that evolutionary computation methods are influenced not only by the fitness funct...
Many properties of organisms show great robustness against mutations. Whether this robustness is an ...
Mutational robustness is the degree to which a phenotype, such as fitness, is resistant to mutationa...
The accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to changes in...
The accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to changes in...
<div><p>Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to...
SummaryThe accumulation of mutations in RNA viruses is thought to facilitate rapid adaptation to cha...
Mutational robustness is the degree to which a phenotype, such as fitness, is resistant to mutationa...
Mutational (genetic) robustness is phenotypic constancy in the face of mutational changes to the gen...
Understanding the extreme variation among bacterial genomes remains an unsolved challenge in evoluti...
We investigate the relationship between the average fitness decay due to single mutations and the st...