通过单细胞转录组学揭示甲藻寄主中隐藏的联合体和包囊感染

Elizabeth C Cooney, Brian S Leander, Patrick J Keeling
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摘要

自由生活的核心甲藻通常会受到两个寄生支系成员的感染,这两个支系本身与甲藻有密切的亲缘关系,即海洋肺泡虫和perkinsids。这些寄生虫种类繁多,具有重要的生态意义,但大多数种类难以直接观察或培养,因此我们对它们的了解通常仅限于环境中的 18S rRNA 基因序列,而且大多数种类都没有基因组尺度的分子数据。在这里,我们报告了从各种自由生活的甲藻的分离单细胞中发现的大量辛迪宁寄生虫和一种与所有已知的周基寄生虫都是姊妹的寄生虫。在收集到的 14 个受感染的宿主细胞中,只有 5 个在收集时通过光学显微镜观察到明显的感染。单细胞转录组测序结果显示,寄生虫及其宿主的转录组覆盖率相对较高。宿主和寄生虫的同源物在系统发生学上被区分开来,使我们能够根据 198 个基因推断出一个稳健的系统发生树。这棵树显示,有一种寄生虫属于一个未被描述的世系,它是perkinsids的姊妹,而其余的寄生虫则是syndinian支系的成员。在 18S rRNA 基因调查中观察到了所有这些寄生虫的近亲,但直到现在还没有一种寄生虫与特定宿主有关联。这些发现说明,单细胞分离和转录组测序是深入了解隐蔽单细胞寄生虫进化史和宿主关系的有效策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hidden syndinian and perkinsid infections in dinoflagellate hosts revealed by single-cell transcriptomics
Free-living core dinoflagellates are commonly infected by members of two parasitic clades that are themselves closely related to dinoflagellates, the marine alveolates and perkinsids. These parasites are abundant and ecologically important, but most species have been difficult to observe directly or cultivate, so our knowledge of them is usually restricted to environmental 18S rRNA gene sequences, and genome-scale molecular data are not available for most species. Here, we report numerous syndinian parasites and one parasite that is sister to all known perkinsids from isolated single cells of diverse, free-living dinoflagellates. Of the 14 infected host cells collected, only five were noticeably infected via light microscopy at the time of collection. Single-cell transcriptome sequencing yielded relatively high transcriptomic coverage for parasites as well as their hosts. Host and parasite homologs were distinguished phylogenetically allowing us to infer a robust phylogenomic tree based on 198 genes. The tree showed one parasite belongs to an undescribed lineage that is sister to perkinsids, whereas the remainder are members of the syndinian clade. Close relatives of all these parasites have been observed in 18S rRNA gene surveys, but until now none had been linked to a specific host. These findings illustrate the efficacy of single-cell isolation and transcriptome sequencing as a strategy for gaining deeper insights into the evolutionary history and host relationships of hidden single-celled parasites.
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