2021
DOI: 10.3390/microorganisms9020361
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DNA Metabarcoding for the Characterization of Terrestrial Microbiota—Pitfalls and Solutions

Abstract: Soil-borne microbes are major ecological players in terrestrial environments since they cycle organic matter, channel nutrients across trophic levels and influence plant growth and health. Therefore, the identification, taxonomic characterization and determination of the ecological role of members of soil microbial communities have become major topics of interest. The development and continuous improvement of high-throughput sequencing platforms have further stimulated the study of complex microbiota in soils … Show more

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Cited by 55 publications
(37 citation statements)
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References 240 publications
(251 reference statements)
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“…When investigating generalist species or predators with unknown diets, universal primers followed by DNA sequencing have been frequently used in both vertebrates (De Barba et al., 2014 ; Jarman et al., 2013 ; Shutt et al., 2020 ; Šturm et al., 2021 ) and invertebrates (Pons, 2006 ; Symondson, 2002 ). Metabarcoding with next‐generation sequencing allows for high‐throughput identification of several species by simultaneously sequencing DNA from multiple species in environmental samples (eDNA; Francioli et al., 2021 ; Taberlet et al., 2012 ). In prey detection with generic primers, the amplifiable host DNA can however largely outnumber the presence of prey DNA (Krehenwinkel et al., 2017 ), and strategies to prevent host DNA amplification may be necessary, for example, by using predator‐specific blocking primers (Krehenwinkel et al., 2019 ; Shi et al., 2021 ; Vestheim & Jarman, 2008 ).…”
Section: Introductionmentioning
confidence: 99%
“…When investigating generalist species or predators with unknown diets, universal primers followed by DNA sequencing have been frequently used in both vertebrates (De Barba et al., 2014 ; Jarman et al., 2013 ; Shutt et al., 2020 ; Šturm et al., 2021 ) and invertebrates (Pons, 2006 ; Symondson, 2002 ). Metabarcoding with next‐generation sequencing allows for high‐throughput identification of several species by simultaneously sequencing DNA from multiple species in environmental samples (eDNA; Francioli et al., 2021 ; Taberlet et al., 2012 ). In prey detection with generic primers, the amplifiable host DNA can however largely outnumber the presence of prey DNA (Krehenwinkel et al., 2017 ), and strategies to prevent host DNA amplification may be necessary, for example, by using predator‐specific blocking primers (Krehenwinkel et al., 2019 ; Shi et al., 2021 ; Vestheim & Jarman, 2008 ).…”
Section: Introductionmentioning
confidence: 99%
“…The use of ITS2 subregion may offer a more ubiquitous primer location and reduced length variability, resulting in fewer taxonomic errors in comparison to ITS1 [79]. Nevertheless, conflicting results have been emerged in the comparisons between the sub-regions ITS1 or ITS2 for the analyses of fungal profiles [83]. The advantages of using the full ITS region instead of ITS1 or ITS2 with third-generation HTS platforms such as Oxford Nanopore or Pacific Biosciences include the higher taxonomic discrimination and the decreased amplification of non-living microorganisms; however, a shortcoming is the low performance with poor-quality samples due to the DNA deterioration, where full ITS sequencing may be impossible [1].…”
Section: Limitations and Challenges In Sample Collection And Laboratory Methodologiesmentioning
confidence: 99%
“…HTS significant biases may happen from additive systematic and random errors, which include, among others, biases in genetic material extraction, markers, primers, PCR, library preparation, sequencing, bioinformatics analysis, index-switching, low clustering, unequal sequencing depth, etc. [1,83]. Moreover, DNA metabarcoding for microbiota analyses presents significant shortcomings, including the variability of copy numbers of the targeted barcodes in microorganism genomes, the poor taxonomic discrimination at the species level for some microbiota, and errors in the taxonomic assignment of sequences based on the selected variable region [83].…”
Section: Limitations and Challenges In Sample Collection And Laboratory Methodologiesmentioning
confidence: 99%
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“…Thus, NGS would be a prime technology to identify the status quo of an infection. Nevertheless, biases introduced by primer selection and PCR can be considered as important shortcomings of NGS [16]. For examples, universal ITS primer sets for fungi may have limited ability to identify plant pathogens of different taxa, especially oomycetes [17].…”
Section: Introductionmentioning
confidence: 99%