A novel neurotropic microsporidium from the swamp guppy Micropoecilia picta from Grenada, West Indies.

IF 1.1 4区 农林科学 Q3 FISHERIES
C J Schuster, D P Marancik, C E Couch, C Leong, J J Edwards, R M Kaplan, M L Kent
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引用次数: 0

Abstract

A novel microsporidium was observed in wild swamp guppies Micropoecilia picta from Levera Pond within Levera National Park Grenada, West Indies. Initial observations indicated similarity with Pseudoloma neurophilia, an important pathogen in zebrafish Danio rerio. P. neurophilia exhibit broad host specifity, including members of the family Poecillidae, and both parasites infect the central nervous system. However, spore morphology and molecular phylogeny based on rDNA showed that the swamp guppy microsporidium (SGM) is distinct from P. neurophilia and related microsporidia (Microsporidium cerebralis and M. luceopercae). Spores of the SGM were smaller than others in the clade (3.6 µm long). Differences were also noted in histology; the SGM formed large aggregates of spores within neural tissues along with a high incidence of numerous smaller aggregates and single spores within the surface tissue along the ventricular spaces that extended submeninx, whereas P. neurophilia and M. cerebralis infect deep into the neuropile and cause associated lesions. Analysis of small subunit ribosomal DNA sequences showed that the SGM was <93% similar to these related microsporidia. Nevertheless, one of 2 commonly used PCR tests for P. neurophilia cross reacted with tissues infected with SGM. These data suggest that there could be other related microsporidia capable of infecting zebrafish and other laboratory fishes that are not being detected by these highly specific assays. Consequently, exclusive use of these PCR tests may not accurately diagnose other related microsporidia infecting animals in laboratory and ornamental fish facilities.

一种来自西印度群岛格林纳达沼泽古比鱼 Micropoecilia picta 的新型神经性小孢子虫。
在西印度群岛格林纳达勒维拉国家公园勒维拉池塘的野生沼泽河鲦中观察到一种新型微孢子虫。初步观察结果表明,这种微孢子虫与斑马鱼Danio rerio的重要病原体Pseudoloma neurophilia很相似。P.neurophilia具有广泛的宿主特异性,包括Poecillidae科的成员,两种寄生虫都会感染中枢神经系统。然而,孢子形态学和基于 rDNA 的分子系统发育表明,沼泽古比鱼微孢子虫(SGM)有别于神经嗜血杆菌和相关的微孢子虫(脑微孢子虫和 M. luceopercae)。SGM 的孢子比该支系的其他孢子小(3.6 微米长)。在组织学方面也存在差异;SGM 在神经组织内形成大的孢子聚集体,同时在沿脑室间隙延伸至门下的表层组织内也有大量较小的聚集体和单孢子,而 P. neurophilia 和 M. cerebralis 则会感染到神经椎体深处并引起相关病变。对小亚基核糖体 DNA 序列的分析表明,SGM 是
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来源期刊
Diseases of aquatic organisms
Diseases of aquatic organisms 农林科学-兽医学
CiteScore
3.10
自引率
0.00%
发文量
53
审稿时长
8-16 weeks
期刊介绍: DAO publishes Research Articles, Reviews, and Notes, as well as Comments/Reply Comments (for details see DAO 48:161), Theme Sections and Opinion Pieces. For details consult the Guidelines for Authors. Papers may cover all forms of life - animals, plants and microorganisms - in marine, limnetic and brackish habitats. DAO''s scope includes any research focusing on diseases in aquatic organisms, specifically: -Diseases caused by coexisting organisms, e.g. viruses, bacteria, fungi, protistans, metazoans; characterization of pathogens -Diseases caused by abiotic factors (critical intensities of environmental properties, including pollution)- Diseases due to internal circumstances (innate, idiopathic, genetic)- Diseases due to proliferative disorders (neoplasms)- Disease diagnosis, treatment and prevention- Molecular aspects of diseases- Nutritional disorders- Stress and physical injuries- Epidemiology/epizootiology- Parasitology- Toxicology- Diseases of aquatic organisms affecting human health and well-being (with the focus on the aquatic organism)- Diseases as indicators of humanity''s detrimental impact on nature- Genomics, proteomics and metabolomics of disease- Immunology and disease prevention- Animal welfare- Zoonosis
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