Abstract
Theory predicts that the sexes can achieve greater fitness if loci with sexually antagonistic polymorphisms become linked to the sex determining loci, and this can favor the spread of reduced recombination around sex determining regions. Given that sex-linked regions are frequently repetitive and highly heterozygous, few complete Y chromosome assemblies are available to test these ideas. The guppy system (Poecilia reticulata) has long been invoked as an example of sex chromosome formation resulting from sexual conflict. Early genetics studies revealed that male color patterning genes are mostly but not entirely Y-linked, and that X-linkage may be most common in low-predation populations. More recent population genomic studies of guppies have reached varying conclusions about the size and placement of the Y-linked region. However, this previous work used a reference genome assembled from short-read sequences from a female guppy. Here, we present a new guppy reference genome assembly from a male, using long-read PacBio single-molecule real-time sequencing and chromosome contact information. Our new assembly sequences across repeat- and GC-rich regions and thus closes gaps and corrects mis-assemblies found in the short-read female-derived guppy genome. Using this improved reference genome, we then employed broad population sampling to detect sex differences across the genome. We identified two small regions that showed consistent male-specific signals. Moreover, our results help reconcile the contradictory conclusions put forth by past population genomic studies of the guppy sex chromosome. Our results are consistent with a small Y-specific region and rare recombination in male guppies.
Highlights
Sexual conflict is thought to be one of the main drivers for the evolution of nonrecombining sex chromosomes regions (Bachtrog 2013; Ponnikas et al 2018)
We assembled the genome of a single male from the same inbred Guanapo strain that was used for the original female reference genome (Kunstner et al 2016)
The Trinidadian guppy, P. reticulata, is a promising system for study of the early stages of sex chromosome evolution, but this work has been hampered by the lack of a highly contiguous genome that includes the male-specific Y chromosome
Summary
Sexual conflict is thought to be one of the main drivers for the evolution of nonrecombining sex chromosomes regions (Bachtrog 2013; Ponnikas et al 2018). If a sexually antagonistic polymorphism (where at least one allele is beneficial in one sex and not the other) becomes established in a region ß The Author(s) 2020. Doi:10.1093/gbe/evaa187 Advance Access publication 27 August 2020 Evol. 12(10):1789–1805. doi:10.1093/gbe/evaa187 Advance Access publication 27 August 2020
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