Various definitions of biological complexity have been proposed: the number of genes, cell types, or metabolic processes within an organism. As knowledge of biological systems has increased, it has become apparent that these metrics are often incongruent.Here we propose an alternative complexity metric based on the number of genetically uncorrelated phenotypic traits contributing to an organism's fitness. This metric, phenotypic complexity, is more objective than previous suggestions, as complexity is measured from a fundamental biological perspective, that of natural selection. We utilize a model linking the equilibrium fitness (drift load) of a population to phenotypic complexity. We then use results from viral evolution experiments to co...
Man-made systems, such as supercomputers and software, IT-infrastructures and networks of any kind, ...
AbstractArtificial Life models may shed new light on the long-standing challenge for evolutionary bi...
Although natural selection does not guarantee that organisms will increase in complexity as they evo...
Various definitions of biological complexity have been proposed: the number of genes, cell types, or...
Background. Various definitions of biological complexity have been proposed: the number of genes, ce...
Abstract Background It is difficult to measure precisely the phenotypic complexity of living organis...
<div><p>Genotype-to-phenotype maps exhibit complexity. This genetic complexity is mentioned frequent...
Abstract Background The emergence of organismal complexity has been a difficult subject for research...
International audienceSystems biology is often viewed as reverse engineering of biological systems. ...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...
To make a case for or against a trend in the evolution of complexity in biological evolution, comple...
In all biological systems, phenotypes are quantitative measures of an organism’s traits. To understa...
International audienceUsing the RAevol model we investigate whether the molecular complexity of evol...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
Evolutionary biologists commonly interpret adaptations of organisms by reference to a phenotype-fitn...
Man-made systems, such as supercomputers and software, IT-infrastructures and networks of any kind, ...
AbstractArtificial Life models may shed new light on the long-standing challenge for evolutionary bi...
Although natural selection does not guarantee that organisms will increase in complexity as they evo...
Various definitions of biological complexity have been proposed: the number of genes, cell types, or...
Background. Various definitions of biological complexity have been proposed: the number of genes, ce...
Abstract Background It is difficult to measure precisely the phenotypic complexity of living organis...
<div><p>Genotype-to-phenotype maps exhibit complexity. This genetic complexity is mentioned frequent...
Abstract Background The emergence of organismal complexity has been a difficult subject for research...
International audienceSystems biology is often viewed as reverse engineering of biological systems. ...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...
To make a case for or against a trend in the evolution of complexity in biological evolution, comple...
In all biological systems, phenotypes are quantitative measures of an organism’s traits. To understa...
International audienceUsing the RAevol model we investigate whether the molecular complexity of evol...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
Evolutionary biologists commonly interpret adaptations of organisms by reference to a phenotype-fitn...
Man-made systems, such as supercomputers and software, IT-infrastructures and networks of any kind, ...
AbstractArtificial Life models may shed new light on the long-standing challenge for evolutionary bi...
Although natural selection does not guarantee that organisms will increase in complexity as they evo...