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Literature DB >> 16592864

Evolution of recombination in a constant environment.

M W Feldman¹, F B Christiansen, L D Brooks.

Abstract

The theory of evolution at a selectively neutral locus that controls the recombination between two major loci that are under selection is studied. If the major loci are at a stable equilibrium in linkage disequilibrium under selection and recombination, then a mutation at the modifier locus will increase in frequency when rare if and only if it decreases the recombination fraction. If the major loci are in disequilibrium at a balance between selection against deleterious alleles and mutation towards them, then two new phenomena are observed. First, a recombination increasing mutation will succeed if the disequilibrium is negative and the modifier is sufficiently tightly linked to the major loci. Second, depending on the strength of selection, even if the disequilibrium is negative, recombination reduction may occur for looser linkage between the major and modifier loci.

Year: 1980 PMID： 16592864 PMCID： PMC349943 DOI： 10.1073/pnas.77.8.4838

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

13 in total

Evolution of recombination in a constant environment.

1. Numerical studies on two-loci selection models with general viabilities.

2. Inversion polymorphism: character and stability of equilibria.

3. Recombination modification in a flucturating environment.

4. A result on the selection of recombination altering mechanisms.

5. Towards a theory of the evolution of modifier genes.

6. Selection for linkage modification. I. Random mating populations.

7. Linkage modifications and sex difference in recombination.

8. The effect of genetic linkage on the mean fitness of a population.

9. On mutation selection balance for two-locus haploid and diploid populations.

10. Population genetics of modifiers of meiotic drive. II. Linkage modification in the segregation distortion system.

1. Recombination can evolve in large finite populations given selection on sufficient loci.

2. Fixation probability in a two-locus model by the ancestral recombination-selection graph.

3. Resolvent positive linear operators exhibit the reduction phenomenon.

4. Recombination and the evolution of coordinated phenotypic expression in a frequency-dependent game.

Review 5. Mutation and the evolution of recombination.

6. On the evolution of mutation in changing environments: recombination and phenotypic switching.

7. Self-fertilization and the evolution of recombination.

8. Evolution of recombination due to random drift.

9. Selection for recombination in structured populations.

10. Direct estimate of the mutation rate and the distribution of fitness effects in the yeast Saccharomyces cerevisiae.