We consider a population of genotype sequences evolving on a rugged fitness landscape with many local fitness peaks. The population walks uphill until it encounters a local fitness maximum. We find that the statistical properties of the walk length depend on whether the underlying fitness distribution has a finite mean. If the mean is finite, all the walk length cumulants grow with the sequence length but approach a constant otherwise. Experimental implications of our analytical results are also discussed
We examined the optimum mutation rate the fitness peak randomly disappears and reappears at a distan...
Adaptation of asexual populations is driven by beneficial mutations and therefore the dynamics of th...
Background: On rugged fitness landscapes where sign epistasis is common, adaptation can often involv...
We study biological evolution in a high-dimensional genotype space in the regime of rare mutations a...
We study the adaptation dynamics of a maladapted asexual population on rugged fitness landscapes wit...
How fast does a population evolve from one fitness peak to another? We study the dynamics of evolvin...
<p>The figures depict examples of highly rugged fitness landscapes where the sequence space has been...
Starting from fitness f_0, the adaptive walk proceeds as per the transition probability (4) in the m...
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
[著者版]We obtained several structural features of an NK fitness landscape by analytical approach. Part...
We consider the evolution of large but finite populations on arbitrary fitness landscapes. We descri...
A fitness landscape is a genetic space – with two genotypes adjacent if they differ in a single locu...
In our simulations, the initial fitness of each block is chosen independently such that their averag...
<p>(A) Number of different optima attained from steepest-ascent hill-climbing walks starting from ra...
Natural selection drives populations towards higher fitness, but crossing fitness valleys or plateau...
We examined the optimum mutation rate the fitness peak randomly disappears and reappears at a distan...
Adaptation of asexual populations is driven by beneficial mutations and therefore the dynamics of th...
Background: On rugged fitness landscapes where sign epistasis is common, adaptation can often involv...
We study biological evolution in a high-dimensional genotype space in the regime of rare mutations a...
We study the adaptation dynamics of a maladapted asexual population on rugged fitness landscapes wit...
How fast does a population evolve from one fitness peak to another? We study the dynamics of evolvin...
<p>The figures depict examples of highly rugged fitness landscapes where the sequence space has been...
Starting from fitness f_0, the adaptive walk proceeds as per the transition probability (4) in the m...
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
[著者版]We obtained several structural features of an NK fitness landscape by analytical approach. Part...
We consider the evolution of large but finite populations on arbitrary fitness landscapes. We descri...
A fitness landscape is a genetic space – with two genotypes adjacent if they differ in a single locu...
In our simulations, the initial fitness of each block is chosen independently such that their averag...
<p>(A) Number of different optima attained from steepest-ascent hill-climbing walks starting from ra...
Natural selection drives populations towards higher fitness, but crossing fitness valleys or plateau...
We examined the optimum mutation rate the fitness peak randomly disappears and reappears at a distan...
Adaptation of asexual populations is driven by beneficial mutations and therefore the dynamics of th...
Background: On rugged fitness landscapes where sign epistasis is common, adaptation can often involv...