利用部分28S rDNA序列分析推测棘口虫科棘口虫种(E. malayanum、E. revolutum、E. miyagawai)和conoideum的遗传距离和系统发育关系

L. Hoa, Pham Thi Khanh Linh, N. T. Khué, Do Thi Roan, Le Thi Kim Xuyen, Do Thi Thanh Huong
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引用次数: 0

摘要

棘孔虫病是由肠道吸虫(棘孔虫科,棘孔虫亚目)引起的一种被忽视的疾病,常见于亚洲国家的社区,如印度、印度尼西亚、菲律宾、中国、马来西亚、新加坡、韩国、日本、泰国、老挝、柬埔寨和越南。核糖体转录单位的遗传标记常用于遗传研究和系统发育分析。从人畜共患的马来棘孔虫(菌株E/ amara - emi3 - th)、革命棘孔虫(菌株Erevo-MSD15-TH)、宫川棘孔虫(Emiya-RED11-TH)和conoideum (Hcono-RED42-TH)中获得28S rDNA序列的一部分(域D1-D3,最终用于1062-1067 bp);并用于遗传距离估计和系统发育分析的比对。选取棘孔虫科19属42种62株,包括棘孔虫科、棘孔虫科、Artyfechinostomum、Patagifer、neo棘孔虫科、Hypoderaeum、棘孔虫科、Drepanocephalus、Euparyphium、Chaunocephalus、Neopetasiger、Ribeiroia、Cathaemasia、Rhopalias、Isthmiophora、Petasiger、Moliniella、Pegosomum和Schistosoma(血吸虫科)。16株/10种间的遗传距离估算结果表明,同一种内菌株间的种内差异水平较低,如宫川芽孢杆菌(0-0.10%)、芦叶芽孢杆菌(0.10-0.50%)和conoideum芽孢杆菌(0-0.10%),而同一属内菌株间的种内差异较高(一般大于1.0%),属间菌株/种间的种内差异最高(3.06-4.12%)。28S rDNA序列分析和系统发育关系很好地支持了棘孔虫/ Artyfechinostomum malayanum的属间分类,并且拓扑结构显示了棘孔虫亚目棘孔虫科不同属成员种的明确、良好的支持位置。测序需要更多的感测样本,特别是对5个属的人畜共患物种:Artyfechinostomum、Echinostoma、Hypoderaeum、Echinoparyphium和isthmiophhora进行测序。由此获得的线粒体和核数据将是一个很好的来源,用于清楚地评估这些物种的分类和属关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic distance and phylogenetic relationships of some Echinostoma species (E. malayanum, E. revolutum, E. miyagawai) and Hypoderaeum conoideum (family Echinostomatidae) inferred from partial 28S rDNA sequence analysis
Echinostomiasis is a neglected disease caused by the intestinal flukes (family Echinostomatidae, suborder Echinostomata) and is common in communities in Asian countries, such as India, Indonesia, the Philippines, China, Malaysia, Singapore, Korea, Japan, Thailand, Laos, Cambodia and Vietnam. The genetic markers from the nuclear ribosomal transcription units are commonly used in genetic studies and phylogenetic analyses. A portion of the 28S rDNA sequence (domains D1–D3, of 1062–1067 bp for the final use) was obtained from the zoonotic Echinostoma malayanum (strain E/Amala-EMI3-TH), E. revolutum (strain Erevo-MSD15-TH), E. miyagawai (Emiya-RED11-TH), and Hypoderaeum conoideum (Hcono-RED42-TH) species; and used to perform an alignment for genetic distance estimation and phylogenetic analysis. The alignment was performed using 62 strains of 42 species from 19 genera of the family Echinostomatidae, including Echinoparyphium, Echinostoma, Artyfechinostomum, Patagifer, Neoacanthoparyphium, Hypoderaeum, Echinoparyphium, Drepanocephalus, Euparyphium, Chaunocephalus, Neopetasiger, Ribeiroia, Cathaemasia, Rhopalias, Isthmiophora, Petasiger, Moliniella, Pegosomum, and Schistosoma (family Schistosomatidae). The genetic distance estimation among 16 strains/10 species has shown a low intra-specific divergence level between strains within the same species, such as E. miyagawai (0–0.10%), E. revolutum (0.10–0.50%), and H. conoideum (0–0.10%), while between strains within the same genus it was higher (normally over 1.0%) and among strains/species between genera it was the highest (3.06–4.12%). The 28S rDNA sequence analysis and phylogenetic relationship well supported the Echinostoma/ Artyfechinostomum malayanum intergeneric taxonomy and the topology indicated clear, well-supported positions of member species in different genera in the family Echinostomatidae of the suborder Echinostomata. More sensu lato samples of the genera, are required for sequencing, particularly those of zoonotic species in the five genera: Artyfechinostomum, Echinostoma, Hypoderaeum, Echinoparyphium, and Isthmiophora. The resultant mitochondrial and nuclear data obtained from these species will be a good source to use to clearly assess the taxonomic and generic relationships.
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