More Like this

1. Supergene potential of a selfish centromere

   https://doi.org/10.1098/rstb.2021.0208  

   Finseth, Findley; Brown, Keely; Demaree, Andrew; Fishman, Lila (August 2022, Philosophical Transactions of the Royal Society B: Biological Sciences)

   Selfishly evolving centromeres bias their transmission by exploiting the asymmetry of female meiosis and preferentially segregating to the egg. Such female meiotic drive systems have the potential to be supergenes, with multiple linked loci contributing to drive costs or enhancement. Here, we explore the supergene potential of a selfish centromere ( D ) in Mimulus guttatus , which was discovered in the Iron Mountain (IM) Oregon population. In the nearby Cone Peak population, D is still a large, non-recombining and costly haplotype that recently swept, but shorter haplotypes and mutational variation suggest a distinct population history. We detected D in five additional populations spanning more than 200 km; together, these findings suggest that selfish centromere dynamics are widespread in M. guttatus . Transcriptome comparisons reveal elevated differences in expression between driving and non-driving haplotypes within, but not outside, the drive region, suggesting large-scale cis effects of D 's spread on gene expression. We use the expression data to refine linked candidates that may interact with drive, including Nuclear Autoantigenic Sperm Protein (NASP SIM3 ), which chaperones the centromere-defining histone CenH3 known to modify Mimulus drive. Together, our results show that selfishly evolving centromeres may exhibit supergene behaviour and lay the foundation for future genetic dissection of drive and its costs. This article is part of the theme issue ‘Genomic architecture of supergenes: causes and evolutionary consequences’. 

   more » « less
2. Inversion invasions: when the genetic basis of local adaptation is concentrated within inversions in the face of gene flow

   https://doi.org/10.1098/rstb.2021.0200  

   Schaal, Sara M.; Haller, Benjamin C.; Lotterhos, Katie E. (August 2022, Philosophical Transactions of the Royal Society B: Biological Sciences)

   Across many species where inversions have been implicated in local adaptation, genomes often evolve to contain multiple, large inversions that arise early in divergence. Why this occurs has yet to be resolved. To address this gap, we built forward-time simulations in which inversions have flexible characteristics and can invade a metapopulation undergoing spatially divergent selection for a highly polygenic trait. In our simulations, inversions typically arose early in divergence, captured standing genetic variation upon mutation, and then accumulated many small-effect loci over time. Under special conditions, inversions could also arise late in adaptation and capture locally adapted alleles. Polygenic inversions behaved similarly to a single supergene of large effect and were detectable by genome scans. Our results show that characteristics of adaptive inversions found in empirical studies (e.g. multiple large, old inversions that are F ST outliers, sometimes overlapping with other inversions) are consistent with a highly polygenic architecture, and inversions do not need to contain any large-effect genes to play an important role in local adaptation. By combining a population and quantitative genetic framework, our results give a deeper understanding of the specific conditions needed for inversions to be involved in adaptation when the genetic architecture is polygenic. This article is part of the theme issue ‘Genomic architecture of supergenes: causes and evolutionary consequences’. 

   more » « less
3. A socially polymorphic Formica ant species exhibits a novel distribution of social supergene genotypes

   https://doi.org/10.1111/jeb.14038  

   Pierce, Daniel; Sun, Penglin; Purcell, Jessica; Brelsford, Alan (June 2022, Journal of Evolutionary Biology)

   Abstract Most supergenes discovered so far are young, occurring in one species or a few closely related species. An ancient supergene in the ant genusFormicapresents an unusual opportunity to compare supergene‐associated phenotypes and the factors that influence the persistence of polymorphism in different species. We investigate the genetic architecture of social organization inFormica francoeuri, an ant species native to low‐ and mid‐elevation semiarid regions of southern California, and describe an efficient technique for estimating mode of social organization using population genomic data. Using this technique, we show thatF. francoeuriexhibits polymorphism in colony social organization and that the phenotypic polymorphism is strongly associated with genotypes within theFormicasocial supergene region. The distribution of supergene haplotypes inF. francoeuridiffers from that of related speciesFormica selysiin that colonies with multiple queens contain almost exclusively workers that are heterozygous for alternative supergene haplotypes. Moreover, heterozygous workers exhibit allele‐specific expression of the polygyne‐associated haplotype at the candidate geneKnockout,which is thought to influence social organization. We also report geographic population structure and variation in worker size across a large fraction of the species range. Our results suggest that, although theFormicasupergene is conserved within the genus, the mechanisms that maintain the supergene and its associated polymorphisms differ among species. 

   more » « less
4. Gaps in modelling animal migration with evolutionary game theory: infection can favour the loss of migration

   https://doi.org/10.1098/rstb.2021.0506  

   Shaw, Allison K.; Torstenson, Martha; Craft, Meggan E.; Binning, Sandra A. (May 2023, Philosophical Transactions of the Royal Society B: Biological Sciences)

   Ongoing environmental changes alter how natural selection shapes animal migration. Understanding how these changes play out theoretically can be done using evolutionary game theoretic (EGT) approaches, such as looking for evolutionarily stable strategies. Here, we first describe historical patterns of how EGT models have explored different drivers of migration. We find that there are substantial gaps in both the taxa (mammals, amphibians, reptiles, insects) and mechanisms (mutualism, interspecific competition) included in past EGT models of migration. Although enemy interactions, including parasites, are increasingly considered in models of animal migration, they remain the least studied of factors for migration considered to date. Furthermore, few papers look at changes in migration in response to perturbations (e.g. climate change, new species interactions). To address this gap, we present a new EGT model to understand how infection with a novel parasite changes host migration. We find three possible outcomes when migrants encounter novel parasites: maintenance of migration (despite the added infection cost), loss of migration (evolutionary shift to residency) or population collapse, depending on the risk and cost of getting infected, and the cost currency. Our work demonstrates how emerging infection can alter animal behaviour such as migration. This article is part of the theme issue ‘Half a century of evolutionary games: a synthesis of theory, application and future directions’. 

   more » « less
5. Incomplete recombination suppression fuels extensive haplotype diversity in a butterfly colour pattern supergene

   https://doi.org/10.1371/journal.pbio.3003043  

   De-Kayne, Rishi; Gordon, Ian J; Terblanche, Reinier F; Collins, Steve; Saitoti_Omufwoko, Kennedy; Martins, Dino J; Martin, Simon H (February 2025, PLOS Biology)

   Khila, Abderrahman (Ed.)

   Supergenes can evolve when recombination-suppressing mechanisms like inversions promote co-inheritance of alleles at two or more polymorphic loci that affect a complex trait. Theory shows that such genetic architectures can be favoured under balancing selection or local adaptation in the face of gene flow, but they can also bring costs associated with reduced opportunities for recombination. These costs may in turn be offset by rare ‘gene flux’ between inverted and ancestral haplotypes, with a range of possible outcomes. We aimed to shed light on these processes by investigating the ‘BC supergene’, a large genomic region comprising multiple rearrangements associated with three distinct wing colour morphs inDanaus chrysippus, a butterfly known as the African monarch, African queen and plain tiger. Using whole-genome resequencing data from 174 individuals, we first confirm the effects of BC on wing colour pattern: background melanism is associated with SNPs in the promoter region ofyellow, within an inverted subregion of the supergene, while forewing tip pattern is most likely associated with copy-number variation in a separate subregion of the supergene. We then show that haplotype diversity within the supergene is surprisingly extensive: there are at least six divergent haplotype groups that experience suppressed recombination with respect to each other. Despite high divergence between these haplotype groups, we identify an unexpectedly large number of natural recombinant haplotypes. Several of the inferred crossovers occurred between adjacent inversion ‘modules’, while others occurred within inversions. Furthermore, we show that new haplotype groups have arisen through recombination between two pre-existing ones. Specifically, an allele for dark colouration in the promoter ofyellowhas recombined into distinct haplotype backgrounds on at least two separate occasions. Overall, our findings paint a picture of dynamic evolution of supergene haplotypes, fuelled by incomplete recombination suppression. 

   more » « less