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Literature DB >> 9093555

Modelling evolving populations.

Abstract

A formalism is presented for modelling the evolutionary dynamics of a population of gene sequences. The formalism was originally developed for describing genetic algorithms. In this paper the formalism is elaborated by considering the evolution of an ensemble of populations. This allows the evolution to be modelled more accurately. To illustrate the formalism the problem of a population of gene sequences evolving in a multiplicative fitness landspace is considered. A comparison with simulations is made and shows very good agreement. More complicated problems have already been investigated including sexual recombination and evolution in a multi-valleyed fitness landscape. These results will be briefly reviewed.

Entities: Disease

Mesh：

Year: 1997 PMID： 9093555 DOI： 10.1006/jtbi.1996.0295

Source DB: PubMed Journal: J Theor Biol ISSN： 0022-5193 Impact factor: 2.691

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Cited

8 in total

Modelling evolving populations.

1. The degeneration of asexual haploid populations and the speed of Muller's ratchet.

2. The statistical mechanics of a polygenic character under stabilizing selection, mutation and drift.

3. The traveling-wave approach to asexual evolution: Muller's ratchet and speed of adaptation.

4. Statistical mechanics and the evolution of polygenic quantitative traits.

5. Loss of least-loaded class in asexual populations due to drift and epistasis.

6. The stochastic edge in adaptive evolution.

7. Wright-Fisher dynamics on adaptive landscape.

8. Experimental rugged fitness landscape in protein sequence space.