Parallel and convergent evolution have been remarkably common observations in molecular adaptation but primarily in the context of the same genotype adapting to the same conditions. These phenomena therefore tell us about the stochasticity and limitations of adaptation. The limited data on convergence and parallelism in the adaptation of different genotypes conflict as to the importance of such events. If the effects of beneficial mutations are highly context dependent (i.e., if they are epistatic), different genotypes should adapt through different mutations. Epistasis for beneficial mutations has been investigated but mainly through measurement of interactions between individually beneficial mutations for the same genotype. We examine epi...
We investigate the relationship between the average fitness decay due to single mutations and the st...
<div><p>The fitness effect of mutations can be influenced by their interactions with the environment...
Understanding epistasis is central to biology. For instance, epistatic interactions determine the to...
<div><p>Parallel and convergent evolution have been remarkably common observations in molecular adap...
Epistasis has substantial impacts on evolution, in particular, the rate of adaptation. We generated ...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Newly arising mutations create genetic variation which natural selection can act on to favor organis...
Unraveling the factors that determine the rate of adaptation is a major question in evolutionary bio...
The bacteriophage phi X174 is a useful model for examining the genetic basis of fitness and adaptati...
The fitness effect of mutations can be influenced by their interactions with the environment, other ...
The contribution to an organism's phenotype from one genetic locus may depend upon the status of oth...
Epistasis for fitness means that the selective effect of a mutation is conditional on the genetic ba...
Variation of an inherited trait across a population cannot be explained by additive contributions of...
Variation of an inherited trait across a population cannot be explained by additive contributions of...
We investigate the relationship between the average fitness decay due to single mutations and the st...
<div><p>The fitness effect of mutations can be influenced by their interactions with the environment...
Understanding epistasis is central to biology. For instance, epistatic interactions determine the to...
<div><p>Parallel and convergent evolution have been remarkably common observations in molecular adap...
Epistasis has substantial impacts on evolution, in particular, the rate of adaptation. We generated ...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Newly arising mutations create genetic variation which natural selection can act on to favor organis...
Unraveling the factors that determine the rate of adaptation is a major question in evolutionary bio...
The bacteriophage phi X174 is a useful model for examining the genetic basis of fitness and adaptati...
The fitness effect of mutations can be influenced by their interactions with the environment, other ...
The contribution to an organism's phenotype from one genetic locus may depend upon the status of oth...
Epistasis for fitness means that the selective effect of a mutation is conditional on the genetic ba...
Variation of an inherited trait across a population cannot be explained by additive contributions of...
Variation of an inherited trait across a population cannot be explained by additive contributions of...
We investigate the relationship between the average fitness decay due to single mutations and the st...
<div><p>The fitness effect of mutations can be influenced by their interactions with the environment...
Understanding epistasis is central to biology. For instance, epistatic interactions determine the to...