V9 Hypervariable Region Metabarcoding Primers for Euglenozoa and Metamonada

Q1 Agricultural and Biological Sciences
Jiří Novák, Sebastian Cristian Treitli, Zoltán Füssy, Kristína Záhonová, Blanka Hamplová, Štěpánka Hrdá, Vladimír Hampl
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Abstract

Short amplicon sequencing is a commonly used method to study the diversity of organisms in various habitats. The hypervariable regions of the small subunit rRNA gene (18S rDNA) are the most general barcodes for eukaryotes, which can provide detailed taxonomic information across a wide range of eukaryotic diversity. However, some organisms are often missed by universal primers, which have difficulty amplifying their barcodes. In this study, specific primers were designed for the amplification of the highly diverse 18S-V9 region of the Euglenozoa and Metamonada groups. The performance of the newly designed primers—V9Eug and V9Meta—was compared with the universal V9 primer on cultured communities derived from a range of freshwater environments of the Soos Natural Reserve and the Slavkov Forest in the Czech Republic. The V9Eug primer was more specific with Euglenozoa representing 91.8% of reads and 57.0% of OTUs, while the V9Meta primer showed lower specificity with only 48.4% of reads and 19.7% of OTUs assigned to Metamonada. Both the Euglenozoa and Metamonada primer pairs significantly improved recovery of their target groups compared to the universal V9 primer pair, detecting 2.7 and 1.8 times more OTUs, respectively. These results provide a more sensitive protocol for studying the diversity of these eukaryotic taxa.

Abstract Image

V9 超变异区元条码引物(外生动物和水生动物
短扩增子测序是研究各种生境中生物多样性的常用方法。小亚基 rRNA 基因(18S rDNA)的超变异区是真核生物最通用的条形码,可为广泛的真核生物多样性提供详细的分类信息。然而,通用引物往往会漏掉一些生物,因为通用引物难以扩增它们的条形码。本研究设计了特异性引物,用于扩增种类繁多的真核生物(Euglenozoa)和水螅类(Metamonada)的 18S-V9 区域。新设计的引物-V9Eug 和 V9Meta 的性能与通用 V9 引物在来自捷克共和国 Soos 自然保护区和 Slavkov 森林淡水环境的培养群落中的性能进行了比较。V9Eug 引物的特异性更强,91.8% 的读数和 57.0% 的 OTU 属于 Euglenozoa,而 V9Meta 引物的特异性较低,只有 48.4% 的读数和 19.7% 的 OTU 属于 Metamonada。与通用 V9 引物对相比,Euglenozoa 引物对和 Metamonada 引物对都显著提高了目标群的回收率,检测到的 OTU 分别增加了 2.7 倍和 1.8 倍。这些结果为研究这些真核生物类群的多样性提供了更灵敏的方案。
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来源期刊
Environmental DNA
Environmental DNA Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
11.00
自引率
0.00%
发文量
99
审稿时长
16 weeks
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