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巴西南部和东南部大西洋森林中双门齿目有袋动物的寄生虫,Aspidodera raillieti(线虫:异腹足目)的种群遗传结构和表型多样性。

Population genetic structure and phenotypic diversity of Aspidodera raillieti (Nematoda: Heterakoidea), a parasite of Didelphini marsupials in Brazil's South and Southeast Atlantic Forest.

机构信息

Programa de Pós-Graduação em Biologia Parasitária (PPGBP), Instituto Oswaldo Cruz, Fundação Oswaldo Cruz, Manguinhos, Rio de Janeiro, RJ, Brazil.

Laboratório de Biologia e Parasitologia de Mamíferos Silvestres Reservatórios, Instituto Oswaldo Cruz, Fundação Oswaldo Cruz, Manguinhos, Rio de Janeiro, RJ, Brazil.

出版信息

Parasit Vectors. 2022 Jun 13;15(1):203. doi: 10.1186/s13071-022-05288-6.

DOI:10.1186/s13071-022-05288-6
PMID:35698157
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9195327/
Abstract

BACKGROUND

The population genetics of parasites may be influenced by host specificity, life cycle, host geographical range, evolutionary history, and host population structure. The nematode Aspidodera raillieti infects different marsupial and rodent hosts in the Nearctic and Neotropical regions, implying a gene flow among populations. However, niche diversification of the main hosts of A. raillieti in superimposed areas may provide conditions for population genetic structuring within this parasite species. We examined the genetic structuring of A. raillieti infecting three marsupial species co-occurring along the South and Southeast Brazilian Atlantic Forest, a hotspot of biodiversity.

METHODS

We employed morphometric analyses and partial mitochondrial cytochrome c oxidase I gene sequences (MT-CO1) to characterize populations via phylogenetic and phylogeographic analyses.

RESULTS

Among 175 A. raillieti specimens recovered from the marsupial hosts Didelphis aurita, D. albiventris, and Philander quica, we identified 99 MT-CO1 haplotypes forming four haplogroups and four clades in networks and phylogenetic trees, respectively. Clades I and II encompassed parasites of D. albiventris from the South region, clade III comprised parasites of D. aurita from the South and Southeast regions, and clade IV encompassed parasites of D. aurita and D. albiventris from the South and Southeast regions and parasites of P. quica from the South region. High genetic differentiation between clades, with a high fixation index and greater genetic variation in the analysis of molecular variance (AMOVA), indicated low gene flow between clades. Haplotypes shared among host species revealed a lack of host specificity. A significant correlation in the Mantel test suggested parasite isolation by distance, while there was no evidence of geographical structure between populations. Negative neutrality test values for clades III and IV suggested recent population expansion. Morphometric differentiation between A. raillieti specimens recovered from different host species, as well as from different localities, was more evident in males.

CONCLUSION

The genetic structure of A. raillieti populations in the South and Southeast Atlantic Forest resulted from historical events rather than from current geographical distribution or host specificity. We also demonstrate morphometric variation associated with host species and localities, suggesting phenotypic plasticity to host attributes and to spatial variables.

摘要

背景

寄生虫的群体遗传学可能受到宿主特异性、生命周期、宿主地理范围、进化历史和宿主种群结构的影响。在新热带和近北极地区,线虫 Aspidodera raillieti 感染不同的有袋类和啮齿类宿主,这意味着种群之间存在基因流动。然而,A. raillieti 的主要宿主在重叠区域的生态位多样化可能为该寄生虫种内的种群遗传结构提供条件。我们研究了在南、东南巴西大西洋森林中共同存在的三种有袋动物宿主中感染的 A. raillieti 的遗传结构,该地区是生物多样性的热点地区。

方法

我们采用形态测量分析和部分线粒体细胞色素 c 氧化酶 I 基因序列(MT-CO1),通过系统发育和系统地理学分析来描述种群。

结果

从 Didelphis aurita、D. albiventris 和 Philander quica 这三种有袋动物宿主中回收的 175 个 A. raillieti 标本中,我们鉴定出 99 个 MT-CO1 单倍型,形成了四个单倍群和四个网络和系统发育树中的支系。支系 I 和 II 包含来自南部地区的 D. albiventris 的寄生虫,支系 III 包含来自南部和东南部地区的 D. aurita 的寄生虫,支系 IV 包含来自南部和东南部地区的 D. aurita 和 D. albiventris 的寄生虫以及来自南部地区的 P. quica 的寄生虫。支系之间的遗传分化很高,固定指数高,分析分子方差(AMOVA)的遗传变异较大,表明支系之间的基因流很低。宿主种间共享的单倍型表明缺乏宿主特异性。Mantel 检验中的显著相关性表明寄生虫的隔离是由距离引起的,而种群之间没有地理结构的证据。支系 III 和 IV 的负中性检验值表明最近种群扩张。从不同宿主物种和不同地点回收的 A. raillieti 标本之间的形态差异,在雄性中更为明显。

结论

在南、东南大西洋森林中,A. raillieti 种群的遗传结构是由历史事件而不是当前的地理分布或宿主特异性造成的。我们还证明了与宿主物种和地点相关的形态变异,表明对宿主属性和空间变量的表型可塑性。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0861/9195327/62d806de6a28/13071_2022_5288_Fig8_HTML.jpg

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