The dynamics of the rec-system in variable environments: Haploid selection in a cyclical two-state environment

The dynamics of the rec-system in variable environments: Haploid selection in a cyclical two-state environment

The dynamics of a 3-locus infinite population with non-overlapping generations and panmixia was studied. Loci are di-allelic: two loci affect fitness under cyclical symmetric haploid selection while the third one is a modifier of recombination ( rec-modifier). Selection favors alternatively haplotyp...

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Bibliographic Details
Published in:Theoretical population biology Vol. 70; no. 2; pp. 111 - 124
Main Authors: Frenkel, V.M., Ronin, Y.I., Korol, A.B.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-09-2006
Subjects:
Bifurcations
Bistability
Cyclical haploid selection
Evolution of recombination
Genetics, Population
Haploidy
Humans
Models, Genetic
rec-modifier
Recombination, Genetic
Suppressor of recombination
rec-modifier
Cyclical haploid selection
Bifurcations
Evolution of recombination
Suppressor of recombination
Bistability
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Summary:The dynamics of a 3-locus infinite population with non-overlapping generations and panmixia was studied. Loci are di-allelic: two loci affect fitness under cyclical symmetric haploid selection while the third one is a modifier of recombination ( rec-modifier). Selection favors alternatively haplotypes AB and ab or Ab and aB. It has been proven that under alternating selection (when period of selection consists of two generations) a dominant suppressor of recombination is displaced and the allele for non-zero recombination becomes fixed within the population. For populations with inversion heterozygosity within the selective system (i.e. with zero recombination in heterozygote for rec-modifier and non-zero for homozygotes) fixation of one of the alleles (depending on the initial point) at the rec-modifier locus is predicted. For other values of recombination parameters, the behavior of the system was studied numerically. A full bifurcation picture of parameters was obtained. Many of the results related to the case of a two-generation period hold also in the case of longer period lengths.
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ISSN:0040-5809
1096-0325
DOI:10.1016/j.tpb.2006.05.002