Add to ORKGWe review recent advances in the understanding of the mutation-selection balance of asexual replicators. For over 30 years, population geneticists thought that an expression derived by Kimura and Maruyama in 1966 fully solved this problem. However, Kimura and Maruyama’s result is only correct in the absence of neutral mutations. The inclusion of neutral mutations leads to a wealth of interesting new effects, and, in particular, to a selective pressure to evolve robustness against mutations. We cover recent literature on the population dynamics of asexual replicators on networks of neutral genotypes, on the outcompetition of fast replicators by slower ones with better mutational support, and on the probability of fixation at high mutation ra...
Alleles conferring higher mutation rates (mutators) can fix in asexual populations through a process...
SummaryBackgroundThe rate at which beneficial mutations accumulate determines how fast asexual popul...
Mutation rate (MR) is a crucial determinant of the evolutionary process. Optimal MR may enable effic...
The rate at which mutations arise is under the control of complex biological systems, and is thus su...
The rate at which mutations arise is under the control of complex biological systems, and is thus su...
Mutational robustness is the degree to which a phenotype, such as fitness, is resistant to mutationa...
A mutator is an allele that increases the mutation rate throughout the genome by disrupting some asp...
Simulations of asexual populations undergoing continual adaptation present a definite prediction: mu...
Simulations of asexual populations undergoing continual adaptation present a definite prediction: mu...
Mutation is the ultimate source of the genetic variation—including genetic variation for mutation ra...
Mutational robustness is the degree to which a phenotype, such as fitness, is resistant to mutationa...
Mutation is the ultimate source of the genetic variation—including genetic variation for mutation ra...
Simulations of asexual populations undergoing continual adaptation present a definite prediction: mu...
Alleles conferring higher mutation rates (mutators) can fix in asexual populations through a process...
Alleles conferring higher mutation rates (mutators) can fix in asexual populations through a process...
Alleles conferring higher mutation rates (mutators) can fix in asexual populations through a process...
SummaryBackgroundThe rate at which beneficial mutations accumulate determines how fast asexual popul...
Mutation rate (MR) is a crucial determinant of the evolutionary process. Optimal MR may enable effic...
The rate at which mutations arise is under the control of complex biological systems, and is thus su...
The rate at which mutations arise is under the control of complex biological systems, and is thus su...
Mutational robustness is the degree to which a phenotype, such as fitness, is resistant to mutationa...
A mutator is an allele that increases the mutation rate throughout the genome by disrupting some asp...
Simulations of asexual populations undergoing continual adaptation present a definite prediction: mu...
Simulations of asexual populations undergoing continual adaptation present a definite prediction: mu...
Mutation is the ultimate source of the genetic variation—including genetic variation for mutation ra...
Mutational robustness is the degree to which a phenotype, such as fitness, is resistant to mutationa...
Mutation is the ultimate source of the genetic variation—including genetic variation for mutation ra...
Simulations of asexual populations undergoing continual adaptation present a definite prediction: mu...
Alleles conferring higher mutation rates (mutators) can fix in asexual populations through a process...
Alleles conferring higher mutation rates (mutators) can fix in asexual populations through a process...
Alleles conferring higher mutation rates (mutators) can fix in asexual populations through a process...
SummaryBackgroundThe rate at which beneficial mutations accumulate determines how fast asexual popul...
Mutation rate (MR) is a crucial determinant of the evolutionary process. Optimal MR may enable effic...