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1. Evolution of sex ratio through gene loss

   https://doi.org/www.pnas.org/cgi/doi/10.1073/pnas.1903925116  

   Yin, Da; Haag, Eric S. (June 2019, Proceedings of the National Academy of Sciences of the United States of America)

   The maintenance of males at intermediate frequencies is an important evolutionary problem. Several species of Caenorhabditis nematodes have evolved a mating system in which selfing hermaphrodites and males coexist. While selfing produces XX hermaphrodites, cross-fertilization produces 50% XO male progeny. Thus, male mating success dictates the sex ratio. Here, we focus on the contribution of the male secreted short (mss) gene family to male mating success, sex ratio, and population growth. The mss family is essential for sperm competitiveness in gonochoristic species, but has been lost in parallel in androdioecious species. Using a transgene to restore mss function to the androdioecious Caenorhabditis briggsae, we examined how mating system and population subdivision influence the fitness of the mss+ genotype. Consistent with theoretical expectations, when mss+ and mss-null (i.e., wild type) genotypes compete, mss+ is positively selected in both mixed-mating and strictly outcrossing situations, though more strongly in the latter. Thus, while sexual mode alone affects the fitness of mss+, it is insufficient to explain its parallel loss. However, in genetically homogenous androdioecious populations, mss+ both increases male frequency and depresses population growth. We propose that the lack of inbreeding depression and the strong subdivision that characterize natural Caenorhabditis populations impose selection on sex ratio that makes loss of mss adaptive after self-fertility evolves. 

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2. Male secreted short glycoproteins link sperm competition to the reproductive isolation of species

   https://doi.org/10.1016/j.cub.2024.12.040  

   Van_Goor, Justin; Turdiev, Asan; Speir, Savannah J; Manning, Jillian; Haag, Eric S (February 2025, Current Biology)

   Sperm competition is found across multicellular organisms using both external and internal fertilization. Sperm competition and post-copulatory cryptic female choice can promote incompatibility between species due to antagonistic co-evolution of the sexes within a species. This between-species incompatibility is accelerated and markedly asymmetrical when sexual mode differs, producing the “weak inbreeder, strong outcrosser” (WISO) pattern. Here, we show that male secreted short (MSS) sperm glycoproteins of nematodes constitute a gametic effector of WISO. In obligately outcrossing Caenorhabditis, MSS is dispensable for baseline fertility but required for intraspecific sperm competitiveness. MSS is lost in self-fertile lineages, likely as a response to selection for a hermaphrodite-biased sex ratio. Selfing hermaphrodites that mate with males of closely related outcrossing species are rapidly sterilized due to ovarian sperm invasion. The simplification of the male proteome in selfing species suggests many factors could contribute to invasivity. However, restoration of just MSS to the self-fertile C. briggsae is sufficient to induce mild invasivity. Further, MSS+ sperm appear to derive their competitive advantage from this behavior, directly linking interspecies incompatibility with intraspecific competition. MSS-related proteins (MSRPs) remaining in the C. briggsae genome are similar in structure, expression, and localization to MSS, but are not necessary for normal sperm competitiveness. Further, over-expression of the MSRP most similar to MSS, Cbr-MSRP-3, is insufficient to enhance competitiveness. We conclude that outcrossing species retain sperm competition factors that contribute to their reproductive isolation from selfing relatives that lost them. 

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3. Relative rates of evolution of male-beneficial nuclear compensatory mutations and male-harming Mother’s Curse mitochondrial alleles

   https://doi.org/10.1093/evolut/qpad087  

   Dapper, Amy L.; Diegel, Amanda E.; Wade, Michael J. (May 2023, Evolution)

   Abstract Mother’s Curse alleles represent a significant source of potential male fitness defects. The maternal inheritance of mutations with the pattern of sex-specific fitness effects, s♀>0>s♂, allows Mother’s Curse alleles to spread through a population even though they reduce male fitness. Although the mitochondrial genomes of animals contain only a handful of protein-coding genes, mutations in many of these genes have been shown to have a direct effect on male fertility. The evolutionary process of nuclear compensation is hypothesized to counteract the male-limited mitochondrial defects that spread via Mother’s Curse. Here we use population genetic models to investigate the evolution of compensatory autosomal nuclear mutations that act to restore the loss of fitness caused by mitochondrial mutation pressures. We derive the rate of male fitness deterioration by Mother’s Curse and the rate of restoration by nuclear compensatory evolution. We find that the rate of nuclear gene compensation is many times slower than that of its deterioration by cytoplasmic mutation pressure, resulting in a significant lag in the recovery of male fitness. Thus, the numbers of nuclear genes capable of restoring male mitochondrial fitness defects must be large in order to sustain male fitness in the face of mutation pressures. 

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4. Little to no inbreeding depression in a tapeworm with mixed mating

   https://doi.org/10.1111/jeb.13496  

   Caballero, Isabel C.; Criscione, Charles D. (July 2019, Journal of Evolutionary Biology)

   Abstract Meta‐studies on hermaphrodites have found a negative relationship between primary selfing rates and levels of inbreeding depression (ID) and, thus, generally support purging in inbred systems. However, in plants, high among‐taxa variance in ID results in no difference in the mean ID between outcrossing and mixed‐mating taxa. Selective interference likely explains high ID among mixed‐mating taxa, whereas low levels of ID among mixed‐mating taxa are not as stressed. Among animal hermaphrodites, primarily molluscs, there are little data on mixed‐mating systems. To fill a taxonomic and mating system gap, we tested for ID in a mixed‐mating tapeworm,Oochoristica javaensis. We provide a direct estimate of ID across infection of an intermediate host by comparing selfing rates at two life history stages. We found little to no evidence for ID, and the level of ID falls in line with what is reported for highly selfing species even thoughO. javaensishas mixed mating. We discuss this result within the context of kin mating inO. javaensis. Our results emphasize that primary selfing rates alone may be insufficient to classify the inbreeding history in all species when testing for a relationship to ID. Mixed‐mating taxa, and possibly some outcrossing taxa, may exhibit low levels of ID if biparental inbreeding is also driving purging. We advocate that ID studies report estimates of inbreeding history (e.g.F_ISor identity disequilibrium) from nature‐derived adult samples to provide context rather than relying on primary selfing rates alone. 

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5. Varied female and male courtship behavior facilitated the evolution of a novel sexual signal

   https://doi.org/10.1093/beheco/arac049  

   Fitzgerald, Sophia L; Anner, Sophia C; Tinghitella, Robin M (June 2022, Behavioral Ecology)

   Jennions, Michael D (Ed.)

   Abstract Sexual selection can contribute to speciation when signals and preferences expressed during mate choice are coupled within groups, but come to differ across groups (generating assortative mating). When new sexual signals evolve, it is important to investigate their roles in both mate location and courtship contexts, as both signaling functions are critical in mate choice. In previous work, researchers identified two new male morphs (silent and purring) in Hawaiian populations of the Pacific field cricket, Teleogryllus oceanicus. These morphs likely evolved because they protect males from an acoustically orienting parasitoid, yet still obtain some reproductive success. But, it remains unknown how the purring morph functions in close courtship encounters. We compared the relative success of the very recently evolved purring morph to that of the ancestral and silent morphs during courtship encounters. Purring males produce a novel courtship song and were not as successful in courtship as the ancestral type, but were mounted by females as often and as quickly as the obligately silent morph that arose and spread ~20 years ago. Purring males initiate courtship more quickly than other morphs, and females from populations where purring is common exhibit higher overall mounting rates. Thus, differences in the behavior of purring males and of females from populations where purring is common may have facilitated the origin of this novel sexual signal. We found no assortative mating between males of a given morph and females from their own population, and so we hypothesize that multiple male types will be maintained within the species because each achieves fitness in different ways. 

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