小孢子虫和无脊椎动物宿主：围绕感染小龙虾的诺斯玛属（诺斯玛目）新品系的基因组信息分类法

IF 8.2 1区化学 Q1 CHEMISTRY, ANALYTICAL

ACS Sensors Pub Date : 2024-11-11 DOI:10.1007/s13225-024-00543-w

Cheyenne E. Stratton, Sara A. Bolds, Lindsey S. Reisinger, Donald C. Behringer, Amjad Khalaf, Jamie Bojko

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引用次数: 0

摘要

小孢子虫是一个经常被忽视的真菌门类，随着基因组学技术的应用，其多样性和分类学知识日益丰富。它们是感染包括甲壳动物在内的多种宿主的强制性寄生虫。甲壳动物本质上是古老的昆虫，它们与小孢子虫的关系既多样又复杂。小龙虾与其小孢子虫寄生虫之间的关系呈现出地理空间和分类学上的多样性。通过经典（组织学、超微结构学、发育学）和基因组学（系统发育学、系统基因组学）方法，我们描述了来自北美洲的三个新物种，从而扩展了小龙虾感染小孢子虫属的已知多样性：感染Procambarus pictus和Procambarus spiculifer的Nosema astafloridana n. sp.、感染Faxonius rusticus的Nosema rusticus n. sp.以及感染Faxonius propinquus和Faxonius virilis的Nosema wisconsinii n. sp.。此外，我们还提供了SSU序列数据，以进一步丰富Procambarus clarkii和Pacifasticus gambelii的Nosema多样性。水生甲壳动物感染的诺斯马氏菌的分类一直受到微孢子虫学家的关注--利用基因组数据，我们巩固了这种系统关系。我们的基因组数据揭示了陆生昆虫感染诺斯马属真菌和水生甲壳动物感染诺斯马属真菌之间的系统发育分化，但将我们的新物种归入了诺斯马属真菌。比较基因组分析表明，Nosema rusticus n. sp.是一种四倍体生物，是已知的第一个Nosema属多倍体。对基因组数据的注释突出表明，与片脚类动物和昆虫感染的微孢子虫相比，小龙虾感染的诺斯马属具有明显的蛋白质组差异。除了发现新的多样性和基因组支持的系统学之外，我们还考虑了这些新的 "入侵 "寄生虫在生物入侵系统中的作用，探讨了它们与入侵宿主的关系。

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Microsporidia and invertebrate hosts: genome-informed taxonomy surrounding a new lineage of crayfish-infecting Nosema spp. (Nosematida)

The Microsporidia, an often overlooked fungal lineage, exhibit increasing diversity and taxonomic understanding with the use of genomic techniques. They are obligate parasites infecting a diversity of hosts, including crustaceans. Crustacea are, in essence, ancient insects and their relationship with the Microsporidia is both diverse and convoluted. Relationships between crayfish and their microsporidian parasites display geospatial and taxonomic diversity. Through classical (histological, ultrastructural, developmental) and genomic (phylogenetic, phylogenomic) approaches, we expand the known diversity of crayfish-infecting microsporidia into the genus Nosema by describing three novel species from North America: Nosema astafloridana n. sp. infecting Procambarus pictus and Procambarus spiculifer, Nosema rusticus n. sp. infecting Faxonius rusticus, and Nosema wisconsinii n. sp. infecting Faxonius propinquus and Faxonius virilis. Additionally, we provide SSU sequence data for further Nosema diversity from Procambarus clarkii and Pacifasticus gambelii. The taxonomy of aquatic crustacean-infecting Nosema have been under scrutiny among microsporidiologists—using genomic data we solidify this systematic relationship. Our genomic data reveal phylogenomic divergence between terrestrial insect-infecting Nosema and aquatic crustacean-infecting Nosema but place our novel species within the Nosema. Comparative genomic analysis reveal that Nosema rusticus n. sp. is a tetraploid organism, making this the first known polyploid from the genus Nosema. Annotation of the genomic data highlight that crayfish-infecting Nosema have distinct proteomic differences when compared to amphipod and insect-infecting microsporidians. Alongside the new diversity uncovered and genome-supported systematics, we consider the role of these new ‘invasive’ parasites in biological invasion systems, exploring their relationship with their invasive hosts.

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来源期刊

ACS Sensors Chemical Engineering-Bioengineering

CiteScore

14.50

自引率

3.40%

发文量

372

期刊介绍： ACS Sensors is a peer-reviewed research journal that focuses on the dissemination of new and original knowledge in the field of sensor science, particularly those that selectively sense chemical or biological species or processes. The journal covers a broad range of topics, including but not limited to biosensors, chemical sensors, gas sensors, intracellular sensors, single molecule sensors, cell chips, and microfluidic devices. It aims to publish articles that address conceptual advances in sensing technology applicable to various types of analytes or application papers that report on the use of existing sensing concepts in new ways or for new analytes.