AI Article Synopsis
- Many organisms have cryptic breeding systems that influence their ecology and evolution, making them hard to study through traditional observational methods.
- Genomic approaches, such as analyzing genetic transmission from parents to offspring, can help understand these systems, especially in cases like Daphnia magna where self-fertilization and automictic parthenogenesis are compared.
- This study confirms that offspring produced by automixis, primarily through terminal fusion, can be distinguished from those produced by self-fertilization using genome-wide heterozygosity data, highlighting the value of genomic techniques in revealing breeding mechanisms.
Article Abstract
The breeding systems of many organisms are cryptic and difficult to investigate with observational data, yet they have profound effects on a species' ecology, evolution, and genome organization. Genomic approaches offer a novel, indirect way to investigate breeding systems, specifically by studying the transmission of genetic information from parents to offspring. Here we exemplify this method through an assessment of self-fertilization vs. automictic parthenogenesis in Daphnia magna. Self-fertilization reduces heterozygosity by 50% compared to the parents, but under automixis, whereby two haploid products from a single meiosis fuse, the expected heterozygosity reduction depends on whether the two meiotic products are separated during meiosis I or II (i.e., central vs. terminal fusion). Reviewing the existing literature and incorporating recombination interference, we derive an interchromosomal and an intrachromosomal prediction of how to distinguish various forms of automixis from self-fertilization using offspring heterozygosity data. We then test these predictions using RAD-sequencing data on presumed automictic diapause offspring of so-called nonmale producing strains and compare them with "self-fertilized" offspring produced by within-clone mating. The results unequivocally show that these offspring were produced by automixis, mostly, but not exclusively, through terminal fusion. However, the results also show that this conclusion was only possible owing to genome-wide heterozygosity data, with phenotypic data as well as data from microsatellite markers yielding inconclusive or even misleading results. Our study thus demonstrates how to use the power of genomic approaches for elucidating breeding systems, and it provides the first demonstration of automictic parthenogenesis in Daphnia.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4649641 | PMC |
| http://dx.doi.org/10.1534/genetics.115.179879 | DOI Listing |
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