Genetic spaces are often described in terms of fitness landscapes or genotype-to-phenotype maps, where each genetic sequence is associated with phenotypic properties and linked to other genotypes that are a single mutational step away. The positions close to a genotype make up its "mutational landscape" and, in aggregate, determine the short-term evolutionary potential of a population. Populations with wider ranges of phenotypes in their mutational neighborhood are known to be more evolvable. Likewise, those with fewer phenotypic changes available in their local neighborhoods are more mutationally robust. Here, we examine whether forces that change the distribution of phenotypes available by mutation profoundly alter subsequent evolutionary...
International audienceEvolutionary responses to environmental change depend on the time available fo...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
Evolutionary responses to environmental change depend on the time available for adaptation before en...
Genetic spaces are often described in terms of fitness landscapes or genotype-to-phenotype maps, whe...
Fluctuating environmental conditions are ubiquitous in natural systems, and populations have evolved...
Natural environments are never truly constant, but the evolutionary implications of temporally varyi...
By "phenotypic plasticity" we refer to the capacity of a genotype to exhibit different phenotypes, w...
Epistatic interactions can frustrate and shape evolutionary change. Indeed, phenotypes may fail to e...
By “phenotypic plasticity” we refer to the capacity of a genotype to exhibit different phenotypes, w...
Cell populations can benefit from changing phenotype when the environment changes. One mechanism for...
The mapping from genotype to phenotype to fitness typically involves multiple nonlinearities that ca...
Evolutionary dynamics arise from the interplay of mutation and selection. Fundamentally, these two p...
Organisms employ a multitude of strategies to cope with the dynamical environments in which they liv...
Epistatic interactions can frustrate and shape evolutionary change 1,2 3-7. Indeed, phenotypes may f...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...
International audienceEvolutionary responses to environmental change depend on the time available fo...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
Evolutionary responses to environmental change depend on the time available for adaptation before en...
Genetic spaces are often described in terms of fitness landscapes or genotype-to-phenotype maps, whe...
Fluctuating environmental conditions are ubiquitous in natural systems, and populations have evolved...
Natural environments are never truly constant, but the evolutionary implications of temporally varyi...
By "phenotypic plasticity" we refer to the capacity of a genotype to exhibit different phenotypes, w...
Epistatic interactions can frustrate and shape evolutionary change. Indeed, phenotypes may fail to e...
By “phenotypic plasticity” we refer to the capacity of a genotype to exhibit different phenotypes, w...
Cell populations can benefit from changing phenotype when the environment changes. One mechanism for...
The mapping from genotype to phenotype to fitness typically involves multiple nonlinearities that ca...
Evolutionary dynamics arise from the interplay of mutation and selection. Fundamentally, these two p...
Organisms employ a multitude of strategies to cope with the dynamical environments in which they liv...
Epistatic interactions can frustrate and shape evolutionary change 1,2 3-7. Indeed, phenotypes may f...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...
International audienceEvolutionary responses to environmental change depend on the time available fo...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
Evolutionary responses to environmental change depend on the time available for adaptation before en...