Genotyping of Black Sea trematodes of the family Opecoelidae by mitochondrial markers

Q4 Environmental Science
A. V. Katokhin, Y. Kornyychuk
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引用次数: 2

Abstract

Opecoelidae Ozaki, 1925 (Trematoda: Opecoeloidea) is the biggest trematode family in the Black Sea in terms of species and genera number. Maritae of the most common Black Sea Opecoelidae trematodes are well described morphologically; nevertheless, information on their genomes structure is sketchy, and data on mitochondrial genomes are absent. The aim was to study the structure of mitochondrial genome fragments of Black Sea trematode species: Cainocreadium flesi Korniychuk & Gaevskaya, 2000, Gaevskajatrema perezi (Mathias, 1926) Gibson & Bray, 1982, and Helicometra fasciata (Rudolphi, 1819) Odhner, 1902. Sequences were made for CO1 (the cytochrome c oxidase subunit I) and 16S mitochondrial genes. To amplify CO1 gene fragment of Cainocreadium and Helicometra trematodes, primers were developed. Phylogenetic relationships within the analyzed part of the Opecoelidae family were reconstructed on the basis of our data and the corresponding GenBank data by the Maximum Likelihood estimation and the MEGA X programme. To root the phylogenetic trees, the corresponding sequences of the closely related trematode Brachycladium goliath (Brachycladioidea: Brachycladiidae) were used. For the first time, nucleotide sequences of CO1 and 16S mitochondrial genes fragments of Black Sea trematodes C. flesi, G. perezi, and H. fasciata from different definitive fish hosts were determined and deposited in the GenBank. In case of C. flesi, no host-specific lines were found in the structure of CO1 mitochondrial gene fragment, but high CO1 nucleotide diversity was noted. Black Sea H. fasciata, parasitizing peacock wrasse, Symphodus tinca, were revealed to be a host-specific CO1 haplogroup; its taxonomical status requires further clarification, and ecological and genetic studies of the putative H. fasciata species complex from different water areas are needed. No host-specific genetic lines were found when analyzing the sequences of H. fasciata 16S rRNA mitochondrial gene fragment. No significant differences in 16S fragment were registered between G. perezi trematodes from different Black Sea definitive hosts; however, the intraspecific 16S nucleotide diversity was rather high.
黑海隐虫科吸虫线粒体标记基因分型研究
Ozaki Opecoelidae, 1925(吸虫目:吸虫总科)是黑海最大的吸虫科,以种类和属数计。最常见的黑海隐卵绦虫的卵状体在形态上有很好的描述;然而,关于它们的基因组结构的信息是粗略的,线粒体基因组的数据是缺失的。目的是研究黑海吸虫物种的线粒体基因组片段的结构:Cainocreadium flesi Korniychuk & Gaevskaya, 2000, Gaevskajatrema perezi (Mathias, 1926) Gibson & Bray, 1982,以及Helicometra fasciata (Rudolphi, 1819) Odhner, 1902。对CO1(细胞色素c氧化酶亚基I)和16S线粒体基因进行了测序。为了扩增Cainocreadium和helicometermatodes的CO1基因片段,开发了引物。利用最大似然估计和MEGA X程序,根据我们的数据和相应的GenBank数据,重建了所分析部分Opecoelidae科的系统发育关系。利用近缘吸虫歌利亚短枝吸虫(短枝总科:短枝吸虫科)的相应序列建立系统发育树。首次测定了黑海吸虫C. flesi、G. perezi和H. fasciata的CO1和16S线粒体基因片段的核苷酸序列,并将其保存在GenBank中。肉芽孢杆菌的CO1线粒体基因片段结构中未发现宿主特异性系,但CO1核苷酸多样性较高。结果表明,寄生于孔雀濑鱼的黑海纹条麻蝇是宿主特异性的CO1单倍群;其分类学地位有待进一步明确,并需要对来自不同水域的推定的筋膜棘鱼种群进行生态学和遗传学研究。分析筋膜鼠16S rRNA线粒体基因片段序列,未发现宿主特异性遗传系。来自黑海不同终宿主的佩雷兹吸虫的16S片段无显著差异;但种内16S核苷酸多样性较高。
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来源期刊
Marine Biological Journal
Marine Biological Journal Environmental Science-Ecology
CiteScore
0.90
自引率
0.00%
发文量
17
审稿时长
21 weeks
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