International audienceUsing the in silico experimental evolution platform Aevol, we evolved populations of digital organisms in conditions where a simple functional structure is best. Strikingly, we observed that in a large fraction of the simulations, organisms evolved a complex functional structure and that their complexity increased during evolution despite being a lot less fit than simple organisms in other populations. However, when submitted to a harsh mutational pressure, we observed that a significant proportion of complex individuals ended up with a simple functional structure. Our results suggest the existence of a complexity ratchet that is powered by epistasis and that cannot be beaten by selection. They also show that this ratc...
We addressed the evolution of complexity by looking at the possibilities to accumulate, contain and/...
AbstractArtificial Life models may shed new light on the long-standing challenge for evolutionary bi...
International audienceABSTRACT: BACKGROUND: The emergence of organismal complexity has been a diffic...
International audienceUsing the in silico experimental evolution platform Aevol, we evolved populati...
International audienceUsing the Aevol digital genetics platform we designed an in silico experiment ...
International audienceUsing the in silico experimental evolution platform Aevol, we have tested the ...
The complexity of biological systems and its evolutionary origin has been questioning life sciences ...
International audienceSystems biology is often viewed as reverse engineering of biological systems. ...
International audienceUsing the RAevol model we investigate whether the molecular complexity of evol...
What is the relationship between the complexity and the fitness of evolved organisms, whether natura...
The evolution of life on earth has been characterized by generalized long-term increases in phenotyp...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...
Abstract Background The emergence of organismal complexity has been a difficult subject for research...
We addressed the evolution of complexity by looking at the possibilities to accumulate, contain and/...
AbstractArtificial Life models may shed new light on the long-standing challenge for evolutionary bi...
International audienceABSTRACT: BACKGROUND: The emergence of organismal complexity has been a diffic...
International audienceUsing the in silico experimental evolution platform Aevol, we evolved populati...
International audienceUsing the Aevol digital genetics platform we designed an in silico experiment ...
International audienceUsing the in silico experimental evolution platform Aevol, we have tested the ...
The complexity of biological systems and its evolutionary origin has been questioning life sciences ...
International audienceSystems biology is often viewed as reverse engineering of biological systems. ...
International audienceUsing the RAevol model we investigate whether the molecular complexity of evol...
What is the relationship between the complexity and the fitness of evolved organisms, whether natura...
The evolution of life on earth has been characterized by generalized long-term increases in phenotyp...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...
Abstract Background The emergence of organismal complexity has been a difficult subject for research...
We addressed the evolution of complexity by looking at the possibilities to accumulate, contain and/...
AbstractArtificial Life models may shed new light on the long-standing challenge for evolutionary bi...
International audienceABSTRACT: BACKGROUND: The emergence of organismal complexity has been a diffic...