Asymmetric introgression reveals the genetic architecture of a plumage trait

Semenov, Georgy А.; Linck, Ethan; Enbody, Erik D; Harris, Rebecca B.; Khaydarov, David R.; Alström, Per; Andersson, Leif; Taylor, Scott A.

doi:10.1038/s41467-021-21340-y

Cited by 51 publications

(42 citation statements)

References 63 publications

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“…This analysis revealed little ability of predicting an individual's phenotype based on its genotype (r 2 = 0.0027, p = 0.74; Figure S1), likely due to a modest sample size unable to provide predictive power. Partial dominance and epistasis can create a non-linear relationship between genotype and phenotype even in traits with a simple genetic architecture (e.g., Semenov et al 26 ), and such effects are expected to accumulate rapidly with an increasing number of causal variants. It is important to note that BSLMM may overestimate the heritability of phenotypes; 25 combined with our rather small sample size, these results should be interpreted with caution.…”

Section: Resultsmentioning

confidence: 99%

The genetic basis of spatial cognitive variation in a food-caching bird

et al. 2022

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Section: Resultsmentioning

confidence: 99%

The genetic basis of spatial cognitive variation in a food-caching bird

et al. 2022

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“…By contrast, when Amlou et al (1997) tried to introgress resistance to a fruit toxin from D. sechellia into D. simulans, their attempt has failed, likely due to the difficulty of measuring toxicity and to the polygenic nature of survival as a phenotype. Indeed, many known cases of cross-species adaptive introgression involve color variation, e.g., coat in wolves (Anderson et al 2009), skin and hair colors in humans (Dannemann and Kelso 2017), wing patterns in mimetic butterflies (Edelman et al 2019), winter-coats in hares (Giska et al 2019), plumage in pigeons (Vickrey et al 2018) and wagtails (Semenov et al 2021), and beaks in Darwin's finches (Enbody et al 2021).…”

Section: Discussionmentioning

confidence: 99%

Evolution of assortative mating following selective introgression of pigmentation genes between two Drosophila species

David

Ferreira

Jabaud

et al. 2022

Preprint

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Adaptive introgression is ubiquitous in animals but experimental support for its role in driving speciation remains scarce. In the absence of conscious selection, admixed laboratory strains of Drosophila asymmetrically and progressively lose alleles from one parental species and reproductive isolation against the predominant parent ceases after 10 generations. Here, we selectively introgressed during one year light pigmentation genes of D. santomea into the genome of its dark sibling D. yakuba, and vice versa. We found that the pace of phenotypic change differed between the species and the sexes, and identified through genome sequencing common as well as distinct introgressed loci in each species. Mating assays showed that assortative mating between introgressed flies and both parental species persisted even after four years (~ 60 generations) from the end of the selection. Those results indicate that selective introgression of as low as 0.5% of the genome can beget morphologically-distinct and reproductively-isolated strains, two prerequisites for the delimitation of new species. Our findings hence represent a significant step towards understanding the genome-wide dynamics of speciation-through-introgression.

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“…The observation that the amount of introgression decreases with the geographic distance to the current hybrid zone suggests that introgression is at least partially explained by gene flow after the recent secondary contact. The observation of extensive rates of introgression in spite of strong reproductive barriers has been described in multiple hybridising systems, such as in birds (Poelstra et al, 2014;Semenov et al, 2021), butterflies (Heliconius Genome Consortium, 2012), and mice (Teeter et al, 2007). Future studies of differential patterns of introgression across the genome may help in pinpointing the genes that resist to such prevailing pattern of genome wide introgression (Rafati et al, 2018;Turner & Harr, 2014), and therefore that are involved in barriers to gene flow (Barton & Hewitt, 1989;Harrison & Larson, 2014).…”

Section: Gene Flow Betweenpseudochorthippus Parallelus Subspecies and Populationsmentioning

confidence: 99%

Extensive introgression despite Haldane’s rule: insights from grasshopper hybrid zones

Hagberg

Celemín

Irisarri

et al. 2021

Preprint

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Although the process of species formation is notoriously idiosyncratic, the observation of pervasive patterns of reproductive isolation across species pairs suggests that generalities, or “rules”, underlie species formation in all animals. Haldane’s rule states that whenever a sex is absent, rare or sterile in a cross between two taxa, that sex is usually the heterogametic sex. Yet, understanding how Haldane’s rule first evolves and whether it is associated to genome wide barriers to gene flow remains a challenging task because this rule is usually studied in highly divergent taxa that no longer hybridize in nature. Here, we address these questions using the meadow grasshopper Pseudochorthippus parallelus where populations that readily hybridize in two natural hybrid zones show hybrid male sterility in laboratorial crosses. Using mitochondrial data, we infer that such populations have diverged some 100,000 years ago, surviving multiple glacial periods in isolated Pleistocenic refugia. Nuclear data shows that secondary contact has led to extensive introgression throughout the species range, including between populations showing hybrid male sterility. We find repeatable patterns of genomic differentiation across the two hybrid zones, yet such patterns are consistent with shared genomic constraints across taxa rather than their role in reproductive isolation. Together, our results suggest that Haldane’s rule can evolve relatively quickly within species, particularly when associated to strong demographic changes. At such early stages of species formation, hybrid male sterility still permits extensive gene flow, allowing future studies to identify genomic regions associated with reproductive barriers.

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Asymmetric introgression reveals the genetic architecture of a plumage trait

Cited by 51 publications

References 63 publications

The genetic basis of spatial cognitive variation in a food-caching bird

The genetic basis of spatial cognitive variation in a food-caching bird

Evolution of assortative mating following selective introgression of pigmentation genes between two Drosophila species

Extensive introgression despite Haldane’s rule: insights from grasshopper hybrid zones

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