The Evolution of Sex Dimorphism in Recombination

The Evolution of Sex Dimorphism in Recombination

Thomas Lenormand^a
^a CEFE-Centre National de la Recherche Scientifique, 34293 Montpellier, France

Corresponding author: Thomas Lenormand, 1919 rte. de Mende, 34293 Montpellier, France., lenormand{at}cefe.cnrs-mop.fr (E-mail)

Communicating editor: P. D. KEIGHTLEY

Sex dimorphism in recombination is widespread on both sex chromosomesand autosomes. Various hypotheses have been proposed to explainthese dimorphisms. Yet no theoretical model has been exploredto determine how heterochiasmy—the autosomal dimorphism—couldevolve. The model presented here shows three circumstances inwhich heterochiasmy is likely to evolve: (i) a male-female differencein haploid epistasis, (ii) a male-female difference in cis-epistasisminus trans-epistasis in diploids, or (iii) a difference inepistasis between combinations of genes inherited maternallyor paternally. These results hold even if sources of linkagedisequilibria besides epistasis, such as migration or Hill-Robertsoninterference, are considered and shed light on previous verbalmodels of sex dimorphism in recombination rates. Intriguingly,these results may also explain why imprinted regions on theautosomes of humans or sheep are particularly heterochiasmate.

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