In this paper we investigate error-thresholds on dynamics fitness-landscapes. We show that there exists both lower and an upper threshold, representing limits to the copying fidelity of simple replicators. The lower bound can be expressed as a correction term to the error-threshold present on a static landscape. The upper error-threshold is a new limit that only exists on dynamic fitness-landscapes. We also show that for long genomes on highly dynamic fitness-landscapes there exists a lower bound on the selection pressure needed to enable effective selection of genomes with superior fitness independent of mutation rates, i.e., there are distinct limits to the evolutionary parameters in dynamic environments
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
Darwinian evolution favours genotypes with high replication rates, a process called 'survival of the...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...
Abstract Background One of the important insights of quasi-species theory is an error-threshold. The...
We investigate the evolutionary dynamics of a finite population of sequences adapting to NK fitness ...
A common view in evolutionary biology is that mutation rates are minimised. However, studies in comb...
ABSTRACT. In a series of influential papers Eigen and his coworkers introduced the quasispecies mode...
We study the evolution of a finite size population formed by mutationally isolated lineages of error...
We study the evolution of robustness in digital organisms adapting to a high mutation rate. As genom...
This paper introduces the notions of `quasi-species' and `error threshold' from molecular ...
We investigate the problem of optimal control of mutation by asexual self-replicating organisms repr...
Departing from the classical model of the so-called error threshold of mutating macro-molecules, I h...
We investigate the problem of optimal control of mutation by asexual self-replicating organisms repr...
There is still no general solution to Eigen's Paradox, the chicken-or-egg problem of the origin of l...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
Darwinian evolution favours genotypes with high replication rates, a process called 'survival of the...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...
Abstract Background One of the important insights of quasi-species theory is an error-threshold. The...
We investigate the evolutionary dynamics of a finite population of sequences adapting to NK fitness ...
A common view in evolutionary biology is that mutation rates are minimised. However, studies in comb...
ABSTRACT. In a series of influential papers Eigen and his coworkers introduced the quasispecies mode...
We study the evolution of a finite size population formed by mutationally isolated lineages of error...
We study the evolution of robustness in digital organisms adapting to a high mutation rate. As genom...
This paper introduces the notions of `quasi-species' and `error threshold' from molecular ...
We investigate the problem of optimal control of mutation by asexual self-replicating organisms repr...
Departing from the classical model of the so-called error threshold of mutating macro-molecules, I h...
We investigate the problem of optimal control of mutation by asexual self-replicating organisms repr...
There is still no general solution to Eigen's Paradox, the chicken-or-egg problem of the origin of l...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
Darwinian evolution favours genotypes with high replication rates, a process called 'survival of the...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...