Evaluating intraspecific genetic diversity using environmental DNA and denoising approach: A case study using tank water
Autor: | Hirotoshi Sato, Toshifumi Minamoto, Masaki Miya, Hiroki Yamanaka, Satsuki Tsuji, Masayuki Ushio |
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Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
lcsh:GE1-350
Genetic diversity Ecology ASV methods Biology environmental DNA mitochondrial haplotype Intraspecific competition lcsh:Microbial ecology erroneous sequences intraspecific genetic diversity Evolutionary biology Genetics lcsh:QR100-130 Environmental DNA Ecology Evolution Behavior and Systematics lcsh:Environmental sciences |
Zdroj: | Environmental DNA, Vol 2, Iss 1, Pp 42-52 (2020) |
ISSN: | 2637-4943 |
Popis: | Recent advances in environmental DNA (eDNA) analysis using high‐throughput sequencing (HTS) provide a noninvasive way to evaluate the intraspecific genetic diversity of aquatic macroorganisms. However, erroneous sequences present in HTS data can result in false positive haplotypes; therefore, reliable strategies are necessary to eliminate such erroneous sequences when evaluating intraspecific genetic diversity using eDNA metabarcoding. In this study, we propose an approach combining denoising using amplicon sequence variant (ASV) method and the removal of haplotypes with low detection rates. A mixture of rearing water of Ayu (Plecoglossus altivelis altivelis) was used as an eDNA sample. In total, nine haplotypes of Ayu mitochondrial D‐loop region were contained in the sample and amplified by two‐step tailed PCR. The 15 PCR replicates indexed with different tags were prepared from the eDNA sample to compare the detection rates between true haplotypes and false positive haplotypes. All PCR replications were sequenced by HTS, and the total number of detected true haplotypes and false positive haplotypes was compared with and without denoising using the two types of ASV methods, Divisive Amplicon Denoising Algorithm 2 (DADA2) and UNOISE3. The use of both ASV methods considerably reduced the number of false positive haplotypes. Moreover, all true haplotypes were detected in all 15 PCR replicates, whereas false positive haplotypes had detection rates varying from 1/15 to 15/15. Thus, by removing haplotypes with lower detection rates than 15/15, the number of false positive haplotypes was further reduced. The approach proposed in this study successfully eliminated most of the false positive haplotypes in the HTS data obtained from eDNA samples, which allowed us to improve the detection accuracy for evaluating intraspecific genetic diversity using eDNA analysis. |
Databáze: | OpenAIRE |
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