Mesorhabditis线虫自假配种的多样化和杂交不亲和性。

IF 3.4 Q1 Agricultural and Biological Sciences BMC Evolutionary Biology Pub Date : 2020-08-18 DOI:10.1186/s12862-020-01665-w
Caroline Launay, Marie-Anne Félix, Joris Dieng, Marie Delattre
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引用次数: 7

摘要

背景:假交配是一种雌性依靠雄性的精子来激活其卵母细胞的生殖系统,通常寄生在其他物种的雄性身上,但不使用精子DNA。美索habditis belari线虫使用一种特殊形式的假交配,雌性产生自己的雄性作为精子的来源。雄性是由真正受精的稀有卵子发育而来的,而雌性是通过雌核形成的。因此,雄性不会将自己的基因组遗传给雌性后代。本研究探讨了Mesorhabditis属植物生殖模式的多样性,并探讨了假配子物种的物种屏障。结果:从土壤和腐烂的植物物质中收集了60多株芽孢杆菌。我们发现,与有性Mesorhabditis物种的雄性相比,假配子物种的雄性表现出更小的身体、雄性尾巴和精子细胞,正如预期的那样,雄性面临很少的竞争。利用rDNA序列和杂交,我们确定了11个自假配子的生物种,这些种对关系密切,假配子可能是Mesorhabditis属的单一起源。不同物种的雄性和雌性杂交甚至没有产生雌性后代。这种令人惊讶的物种屏障在假配子卵激活前或交配后取决于物种对。在后一种情况下,当杂交胚胎产生时,大多数在第一次胚胎细胞分裂之前就停止了。自假配子物种之间的杂交不亲和是由于精子与卵母细胞相互作用缺陷以及合子中心体重构缺陷造成的。结论:我们建立了一个有性和伪有性物种的集合,为探索向无性过渡的起源和后果提供了一个理想的框架。我们的结果表明,物种形成发生在假配子状态。尽管基因组冲突是有性生殖物种杂交不相容的原因,但我们在这里揭示了中心体是建立物种屏障的关键细胞器。
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Diversification and hybrid incompatibility in auto-pseudogamous species of Mesorhabditis nematodes.

Background: Pseudogamy is a reproductive system in which females rely on the sperm of males to activate their oocytes, generally parasitizing males of other species, but do not use the sperm DNA. The nematode Mesorhabditis belari uses a specific form of pseudogamy, where females produce their own males as a source of sperm. Males develop from rare eggs with true fertilization, while females arise by gynogenesis. Males thus do not contribute their genome to the female offspring. Here, we explored the diversity of reproductive mode within the Mesorhabditis genus and addressed species barriers in pseudogamous species.

Results: To this end, we established a collection of over 60 Mesorhabditis strains from soil and rotting vegetal matter. We found that males from pseudogamous species displayed a reduced size of their body, male tail and sperm cells compared to males of sexual Mesorhabditis species, as expected for males that face little competition. Using rDNA sequences and crosses, we could define 11 auto-pseudogamous biological species, with closely related species pairs and a possible single origin of pseudogamy in the Mesorhabditis genus. Most crosses between males and females of different species did not even produce female progeny. This surprising species barrier in pseudogamous egg activation was pre or postcopulatory depending on the species pair. In the latter case, when hybrid embryos were produced, most arrested before the first embryonic cell division. Hybrid incompatibility between auto-pseudogamous species was due to defective interaction between sperm and oocyte as well as defective reconstitution of zygotic centrosomes.

Conclusions: We established a collection of sexual and pseudo-sexual species which offer an ideal framework to explore the origin and consequences of transition to asexuality. Our results demonstrate that speciation occurs in the pseudogamous state. Whereas genomic conflicts are responsible for hybrid incompatibility in sexual species, we here reveal that centrosomes constitute key organelles in the establishment of species barrier.

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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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