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鱼类的球虫寄生虫具有深刻的系统发育多样性,并衍生出陆地脊椎动物中的每一个主要寄生群体。

Coccidian parasites of fish encompass profound phylogenetic diversity and gave rise to each of the major parasitic groups in terrestrial vertebrates.

作者信息

Rosenthal Benjamin M, Dunams-Morel Detiger, Ostoros Gyorgyi, Molnár Kálmán

机构信息

Beltsville Agricultural Research Center, Agricultural Research Service, United States Department of Agriculture, 10300, Baltimore Avenue, Beltsville, MD 20705, United States.

Beltsville Agricultural Research Center, Agricultural Research Service, United States Department of Agriculture, 10300, Baltimore Avenue, Beltsville, MD 20705, United States.

出版信息

Infect Genet Evol. 2016 Jun;40:219-227. doi: 10.1016/j.meegid.2016.02.018. Epub 2016 Feb 19.

DOI:10.1016/j.meegid.2016.02.018
PMID:26911642
Abstract

Fish are the oldest and most diverse group of vertebrates; it therefore stands to reason that fish may have been the original hosts for many types of extant vertebrate parasites. Here, we sought to determine whether coccidian parasites of fish are especially diverse. We therefore sampled such parasites from thirty-nine species of fish and tested phylogenetic hypotheses concerning their relationships, using 18S rDNA. We found compelling phylogenetic support for distinctions among at least four lineages of piscine parasites presently ascribed to the genus Goussia. Some, but not all parasites attributed to Eimeria were confirmed as such. Major taxonomic revisions are likely justified for these parasites of fish, which appear to have given rise to each of the major lineages of coccidian parasites that subsequently proliferated in terrestrial vertebrates, including those such as Toxoplasma gondii that form tissue cysts in intermediate hosts.

摘要

鱼类是最古老且种类最多样的脊椎动物群体;因此可以合理推测,鱼类可能是许多现存脊椎动物寄生虫的原始宿主。在此,我们试图确定鱼类的球虫寄生虫是否特别多样。于是,我们从39种鱼类中采集了此类寄生虫样本,并使用18S核糖体DNA测试了有关它们之间关系的系统发育假说。我们发现了令人信服的系统发育证据,支持目前归属于格氏球虫属的至少四个鱼类寄生虫谱系之间的区分。一些但并非所有归属于艾美耳属的寄生虫都得到了确认。对这些鱼类寄生虫进行重大分类修订可能是合理的,它们似乎产生了球虫寄生虫的各个主要谱系,这些谱系随后在陆生脊椎动物中大量繁殖,包括那些在中间宿主体内形成组织囊肿的寄生虫,如弓形虫。

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