The contribution to an organism's phenotype from one genetic locus may depend upon the status of other loci. Such epistatic interactions among loci are now recognized as fundamental to shaping the process of adaptation in evolving populations. Although little is known about the structure of epistasis in most organisms, recent experiments with bacterial populations have concluded that antagonistic interactions abound and tend to de-accelerate the pace of adaptation over time. Here, we use the NK model of fitness landscapes to examine how natural selection biases the mutations that substitute during evolution based on their epistatic interactions. We find that, even when beneficial mutations are rare, these biases are strong and change substa...
Fitness interactions between mutations can influence a population’s evolution in many different ways...
Fitness interactions between mutations can influence a population's evolution in many different ways...
Much of quantitative genetics is based on the "infinitesimal model", under which selection has a neg...
The contribution to an organism's phenotype from one genetic locus may depend upon the status of oth...
The contribution to an organism's phenotype from one genetic locus may depend upon the status of oth...
The contribution to an organism's phenotype from one genetic locus may depend upon the status of oth...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Much of quantitative genetics is based on the ‘infinitesimal model’, under which selection has a neg...
Fitness interactions between mutations can influence a population’s evolution in many different ways...
Fitness interactions between mutations can influence a population's evolution in many different ways...
Much of quantitative genetics is based on the "infinitesimal model", under which selection has a neg...
The contribution to an organism's phenotype from one genetic locus may depend upon the status of oth...
The contribution to an organism's phenotype from one genetic locus may depend upon the status of oth...
The contribution to an organism's phenotype from one genetic locus may depend upon the status of oth...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Epistatic interactions between mutations play a prominent role in evolutionary theories. Many studie...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Populations evolving in constant environments exhibit declining adaptability. Understanding the basi...
Much of quantitative genetics is based on the ‘infinitesimal model’, under which selection has a neg...
Fitness interactions between mutations can influence a population’s evolution in many different ways...
Fitness interactions between mutations can influence a population's evolution in many different ways...
Much of quantitative genetics is based on the "infinitesimal model", under which selection has a neg...