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1. Simple inheritance, complex regulation: Supergene‐mediated fire ant queen polymorphism

   https://doi.org/10.1111/mec.15581  

   Arsenault, Samuel V.; King, Joanie T.; Kay, Sasha; Lacy, Kip D.; Ross, Kenneth G.; Hunt, Brendan G. (August 2020, Molecular Ecology)

   Abstract The fire antSolenopsis invictaexists in two alternate social forms: monogyne nests contain a single reproductive queen and polygyne nests contain multiple reproductive queens. This colony‐level social polymorphism corresponds with individual differences in queen physiology, queen dispersal patterns and worker discrimination behaviours, all evidently regulated by an inversion‐based supergene that spans more than 13 Mb of a “social chromosome,” contains over 400 protein‐coding genes and rarely undergoes recombination. The specific mechanisms by which this supergene influences expression of the many distinctive features that characterize the alternate forms remain almost wholly unknown. To advance our understanding of these mechanisms, we explore the effects of social chromosome genotype and natal colony social form on gene expression in queens sampled as they embarked on nuptial flights, using RNA‐sequencing of brains and ovaries. We observe a large effect of natal social form, that is, of the social/developmental environment, on gene expression profiles, with similarly substantial effects of genotype, including: (a) supergene‐associated gene upregulation, (b) allele‐specific expression and (c) pronounced extra‐supergenetrans‐regulatory effects. These findings, along with observed spatial variation in differential and allele‐specific expression within the supergene region, highlight the complex gene regulatory landscape that emerged following divergence of the inversion‐mediatedSbhaplotype from its homologue, which presumably largely retained the ancestral gene order. The distinctive supergene‐associated gene expression trajectories we document at the onset of a queen’s reproductive life expand the known record of relevant molecular correlates of a complex social polymorphism and point to putative genetic factors underpinning the alternate social syndromes. 

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2. Conversion of social organization in fire ants induced by few colony members: Unmasking indirect genetic effects

   https://doi.org/10.1073/pnas.2501740122  

   Zeng, Haolin; Ross, Kenneth G; Sasaki, Takao (May 2025, Proceedings of the National Academy of Sciences)

   Genes and the environment jointly shape individual traits, but the influence of indirect genetic effects (IGEs), arising from the genetic composition of interacting conspecific individuals, is often ignored or underemphasized. Moreover, because of practical challenges in characterizing IGEs, empirical research has fallen behind theoretical advancement. The fire antSolenopsis invictaoffers a uniquely suitable study system due to its distinct colony-level phenotypic variation (monogyne and polygyne social forms) attributed to IGEs of a social-supergene variant (ballele). A minority ofb-carrying workers (Bbgenotype) can trigger colony-level conversion from monogyne (single queen per colony) to polygyne (multiple queens per colony) behavior. This study investigated the mechanisms underlying this process via 400-ant microcolonies. We first showed that assimilatedBbworkers reduce aggression by hostBBworkers towardBbqueens, thus inducing polygyny, at rates observed earlier in experiments that used full-size (>20,000 ants) colonies. We then demonstrated that social conversion is facilitated by cuticular contact between the worker types, and verified the presence of nonvolatile cuticular pheromones that are necessary but not sufficient components underpinning this process. Follow-up experiments suggested that a second, polygyne worker-produced pheromone that is only released once such workers detect aBbqueen is also necessary but again insufficient, for full expression of the conversion phenomenon. Thus, multiple pheromonal components linked to presence of thebsupergene allele in colony workers appear to be involved in shaping social environments and thereby inducing, via IGEs, the transformation from monogyne to polygyne fire ant societies. 

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3. The maintenance of polymorphism in an ancient social supergene

   https://doi.org/10.1111/mec.16196  

   Purcell, Jessica; Lagunas‐Robles, German; Rabeling, Christian; Borowiec, Marek L.; Brelsford, Alan (October 2021, Molecular Ecology)

   Abstract Supergenes, regions of the genome with suppressed recombination between sets of functional mutations, contribute to the evolution of complex phenotypes in diverse systems. Excluding sex chromosomes, most supergenes discovered so far appear to be young, being found in one species or a few closely related species. Here, we investigate how a chromosome harbouring an ancient supergene has evolved over about 30 million years (Ma). TheFormicasupergene underlies variation in colony queen number in at least five species. We expand previous analyses of sequence divergence on this chromosome to encompass about 90 species spanning theFormicaphylogeny. Within the nonrecombining region, the geneknockoutcontains 22 single nucleotide polymorphisms (SNPs) that are consistently differentiated between two alternative supergene haplotypes in divergent EuropeanFormicaspecies, and we show that these same SNPs are present in mostFormicaclades. In these clades, including an early diverging NearcticFormicaclade, individuals with alternative genotypes atknockoutalso have higher differentiation in other portions of this chromosome. We identify hotspots of SNPs along this chromosome that are present in multipleFormicaclades to detect genes that may have contributed to the emergence and maintenance of the genetic polymorphism. Finally, we infer three gene duplications on one haplotype, based on apparent heterozygosity within these genes in the genomes of haploid males. This study strengthens the evidence that this supergene originated early in the evolution ofFormicaand that just a few loci in this large region of suppressed recombination retain strongly differentiated alleles across contemporaryFormicalineages. 

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4. A large and diverse autosomal haplotype is associated with sex-linked colour polymorphism in the guppy

   https://doi.org/10.1038/s41467-022-28895-4  

   Paris, Josephine R.; Whiting, James R.; Daniel, Mitchel J.; Ferrer Obiol, Joan; Parsons, Paul J.; van der Zee, Mijke J.; Wheat, Christopher W.; Hughes, Kimberly A.; Fraser, Bonnie A. (December 2022, Nature Communications)

   Abstract Male colour patterns of the Trinidadian guppy ( Poecilia reticulata ) are typified by extreme variation governed by both natural and sexual selection. Since guppy colour patterns are often inherited faithfully from fathers to sons, it has been hypothesised that many of the colour trait genes must be physically linked to sex determining loci as a ‘supergene’ on the sex chromosome. Here, we phenotype and genotype four guppy ‘Iso-Y lines’, where colour was inherited along the patriline for 40 generations. Using an unbiased phenotyping method, we confirm the breeding design was successful in creating four distinct colour patterns. We find that genetic differentiation among the Iso-Y lines is repeatedly associated with a diverse haplotype on an autosome (LG1), not the sex chromosome (LG12). Moreover, the LG1 haplotype exhibits elevated linkage disequilibrium and evidence of sex-specific diversity in the natural source population. We hypothesise that colour pattern polymorphism is driven by Y-autosome epistasis. 

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5. Sex‐biased gene content is associated with sex chromosome turnover in Danaini butterflies

   https://doi.org/10.1111/mec.17256  

   Mora, Pablo; Hospodářská, Monika; Voleníková, Anna Chung; Koutecký, Petr; Štundlová, Jana; Dalíková, Martina; Walters, James R.; Nguyen, Petr (January 2024, Molecular Ecology)

   Abstract Sex chromosomes play an outsized role in adaptation and speciation, and thus deserve particular attention in evolutionary genomics. In particular, fusions between sex chromosomes and autosomes can produce neo‐sex chromosomes, which offer important insights into the evolutionary dynamics of sex chromosomes. Here, we investigate the evolutionary origin of the previously reportedDanausneo‐sex chromosome within the tribe Danaini. We assembled and annotated genomes ofTirumala septentrionis(subtribe Danaina),Ideopsis similis(Amaurina),Idea leuconoe(Euploeina) andLycorea halia(Itunina) and identified their Z‐linked scaffolds. We found that theDanausneo‐sex chromosome resulting from the fusion between a Z chromosome and an autosome corresponding to theMelitaea cinxiachromosome (McChr) 21 arose in a common ancestor of Danaina, Amaurina and Euploina. We also identified two additional fusions as the W chromosome further fused with the synteny block McChr31 inI. similisand independent fusion occurred between ancestral Z chromosome and McChr12 inL. halia. We further tested a possible role of sexually antagonistic selection in sex chromosome turnover by analysing the genomic distribution of sex‐biased genes inI. leuconoeandL. halia. The autosomes corresponding to McChr21 and McChr31 involved in the fusions are significantly enriched in female‐ and male‐biased genes, respectively, which could have hypothetically facilitated fixation of the neo‐sex chromosomes. This suggests a role of sexual antagonism in sex chromosome turnover in Lepidoptera. The neo‐Z chromosomes of bothI. leuconoeandL. haliaappear fully compensated in somatic tissues, but the extent of dosage compensation for the ancestral Z varies across tissues and species. 

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