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Using GC content to compare recombination patterns on the sex chromosomes and autosomes of the guppy, poecilia reticulata, and its close outgroup species

Molecular Biology and Evolution, ISSN: 1537-1719, Vol: 37, Issue: 12, Page: 3550-3562
2020
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Article Description

Genetic and physical mapping of the guppy (Poecilia reticulata) have shown that recombination patterns differ greatly between males and females. Crossover events occur evenly across the chromosomes in females, but in male meiosis they are restricted to the tip furthest from the centromere of each chromosome, creating very high recombination rates per megabase, as in pseudoautosomal regions of mammalian sex chromosomes. We used GC content to indirectly infer recombination patterns on guppy chromosomes, based on evidence that recombination is associated with GC-biased gene conversion, so that genome regions with high recombination rates should be detectable by high GC content. We used intron sequences and third positions of codons to make comparisons between sequences that are matched, as far as possible, and are all probably under weak selection. Almost all guppy chromosomes, including the sex chromosome (LG12), have very high GC values near their assembly ends, suggesting high recombination rates due to strong crossover localization in male meiosis. Our test does not suggest that the guppy XY pair has stronger crossover localization than the autosomes, or than the homologous chromosome in the close relative, the platyfish (Xiphophorus maculatus). We therefore conclude that the guppy XY pair has not recently undergone an evolutionary change to a different recombination pattern, or reduced its crossover rate, but that the guppy evolved Y-linkage due to acquiring a male-determining factor that also conferred the male crossover pattern. We also identify the centromere ends of guppy chromosomes, which were not determined in the genome assembly.

Bibliographic Details

Deborah Charlesworth; Yexin Zhang; Roberta Bergero; Chay Graham; Jim Gardner; Lengxob Yong; Melissa Wilson

Oxford University Press (OUP)

Agricultural and Biological Sciences; Biochemistry, Genetics and Molecular Biology

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