Using Next-Generation Sequencing for DNA Barcoding: Capturing Allelic Variation in <i>ITS2</i>

Batovska, Jana; Cogan, Noel O. I.; Lynch, Stacey E.; Blacket, Mark J.

doi:10.1534/g3.116.036145

Cited by 41 publications

(56 citation statements)

References 42 publications

(56 reference statements)

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“…These methods have been assessed and compared with traditional Sanger sequencing and found to be both superior and more efficient in terms of labour and cost (Shokralla et al 2014;Shokralla et al 2015;Batovska et al 2017).…”

Section: S E Q U E N C I N G D N a B A R C O D E Smentioning

confidence: 99%

DNA barcoding mosquitoes: advice for potential prospectors

Beebe

2018

Parasitology

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S U M M A R YMosquitoes' importance as vectors of pathogens that drive disease underscores the importance of precise and comparable methods of taxa identification among their species. While several molecular targets have been used to study mosquitoes since the initiation of PCR in the 1980s, its application to mosquito identification took off in the early 1990s. This review follows the research's recent journey into the use of mitochondrial DNA (mtDNA) cytochrome oxidase 1 (COI or COX1) as a DNA barcode target for mosquito species identification -a target whose utility for discriminating mosquitoes is now escalating. The pros and cons of using a mitochondrial genome target are discussed with a broad sweep of the mosquito literature suggesting that nuclear introgressions of mtDNA sequences appear to be uncommon and that the COI works well for distantly related taxa and shows encouraging utility in discriminating more closely related species such as cryptic/sibling species groups. However, the utility of COI in discriminating some closely related groups can be problematic and investigators are advised to proceed with caution as problems with incomplete lineage sorting and introgression events can result in indistinguishable COI sequences appearing in reproductively independent populations. In these -if not all -cases, it is advisable to run a nuclear marker alongside the mtDNA and thus the utility of the ribosomal DNAand in particular the internal transcribed spacer 2 -is also briefly discussed as a useful counterpoint to the COI.

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Section: S E Q U E N C I N G D N a B A R C O D E Smentioning

confidence: 99%

DNA barcoding mosquitoes: advice for potential prospectors

Beebe

2018

Parasitology

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“…Based on ribosomal, plastid and mitochondrial phylogenies, Symbiodinium are divided in nine clades (A-I, Figure 1) and many subclades (Rowan and Powers, 1991;LaJeunesse, 2001;Pochon et al, 2014). Species-level diversity is still being assessed, mainly through sequencing of the internal transcribed spacer 2 (ITS2, see LaJeunesse and Trench, 2000), either by denaturing gradient gel electrophoresis (DGGE) based separation of ITS2 genomic copies (LaJeunesse and Trench, 2000;LaJeunesse, 2002;Thornhill et al, 2006) or by next-generation sequencing based elucidation of ITS2 diversity (Arif et al, 2014;Batovska et al, 2016;Hume et al, 2016;Ziegler et al, 2017). As a result, many new taxa and/or strains have been described recently (LaJeunesse et al, 2012;Hume et al, 2015;Lee et al, 2015;Ziegler et al, 2017), with probably more than 100 extant species being present in the genus Symbiodinium (LaJeunesse, 2001).…”

Section: Symbiodinium Diversitymentioning

confidence: 99%

“…This approach holds a dual premise: firstly, intragenomic allelic diversity of the ITS2 marker allows to resolve differences within and between individuals and species previously not possible (Batovska et al, 2016); secondly, in the case of Symbiodinium, deep sequencing of ITS2 diversity may uncover symbiont associations previously not detected (Arif et al, 2014;Boulotte et al, 2016). However, the contribution of low abundant Symbiodinium taxa to host resilience remains to be determined (Lee et al, 2016).…”

Section: Symbiodinium Diversitymentioning

confidence: 99%

Marine Invertebrate Larvae Associated with Symbiodinium: A Mutualism from the Start?

et al. 2017

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Symbiodinium are dinoflagellate photosynthetic algae that associate with a diverse array of marine invertebrates, and these relationships are comprehensively documented for adult animal hosts. Conversely, comparatively little is known about the associations during larval development of animal hosts, although four different metazoan phyla (Porifera, Cnidaria, Acoelomorpha, and Mollusca) produce larvae associated with Symbiodinium. These phyla represent considerable diversities in larval forms, manner of symbiont acquisition, and requirements on the presence of symbionts for successful metamorphosis. Importantly, the different requirements are conveyed by specific symbiont types that are selected by the host animal larvae. Nevertheless, it remains to be determined whether these associations during larval stages already represent mutualistic interactions, as evident from the relationship of Symbiodinium with their adult animal hosts. For instance, molecular studies suggest that the host larval transcriptome is nearly unaltered after symbiont acquisition. Even so, a symbiosis-specific gene has been identified in Symbiodinium that is expressed in larval host stages, and similar genes are currently being described for host organisms. However, some reports suggest that the metabolic exchange between host larvae and Symbiodinium may not cover the energetic requirements of the host. Here, we review current studies to summarize what is known about the association between metazoan larvae and Symbiodinium. In particular, our aim was to gather in how far the mutualistic relationship present between adult animals hosts and Symbiodinium is already laid out at the time of symbiont acquisition by host larvae. We conclude that the mutualistic relationship between animal hosts and algal symbionts in many cases is not set up during larval development. Furthermore, symbiont identity may influence whether a mutualism can be established during host larval stages.

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“…Before the advent of next‐generation sequencing (NGS) techniques, studies characterizing intragenomic variants of rDNA used methods such as cloning PCR products to create monotypic products for sequencing (eg Králová‐Hromadová et al ., ). However, with the ability to now sequence every product from a PCR‐amplification using NGS, intragenomic variants can be characterized in much greater detail (Ruiz‐Estévez et al ., ; Batovska et al ., ; Cunning et al ., ). With this unprecedented amount of data comes new challenges, including quality control of raw data and recognizing platform‐specific sequencing errors and errors created during PCR amongst true variants.…”

Section: Introductionmentioning

confidence: 98%

“…Batovska et al . () clustered Illumina‐generated ITS2 reads of mosquitos at 95% sequence identity, but acknowledged that this may have been too low, in one case masking variants that were of high enough abundance to cause issues in the corresponding Sanger sequencing of the specimens, and that subsequent clustering of the reads at 98% identity produced multiple variants. In microalgae, a clustering identity of 97% within samples was shown to collapse variation more likely to be intragenomic, whilst preserving interspecies diversity (Cunning et al ., ).…”

Section: Introductionmentioning

confidence: 99%

Intragenomic internal transcribed spacer 2 variation in a genus of parasitoid wasps (Hymenoptera: Braconidae): implications for accurate species delimitation and phylogenetic analysis

Fagan‐Jeffries

Cooper

Bradford

et al. 2019

Insect Molecular Biology

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A recent DNA barcoding study of Australian microgastrines (Hymenoptera: Braconidae) sought to use next‐generation sequencing of the cytochrome c oxidase subunit 1 (COI) barcoding gene region, the wingless (WG) gene and the internal transcribed spacer 2 (ITS2) to delimit molecular species in a highly diverse group of parasitic wasps. Large intragenomic distances between ITS2 variants, often larger than the average interspecific variation, caused difficulties in using ITS2 for species delimitation in both threshold and tree‐based approaches, and the gene was not included in the reported results of the previous DNA barcoding study. We here report on the intragenomic, and the intra‐ and interspecies, variation in ITS2in the microgastrine genus Diolcogasterto further investigate the value of ITS2as a marker for species delimitation and phylogenetics of the Microgastrinae. Distinctive intragenomic variant patterns were found in different species of Diolcogaster, with some species possessing a single major variant, and others possessing many divergent variants. Characterizing intragenomic variation of ITS2is critical as it is a widely used marker in hymenopteran phylogenetics and species delimitation, and large intragenomic distances such as those found in this study may obscure phylogenetic signal.

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Using Next-Generation Sequencing for DNA Barcoding: Capturing Allelic Variation in ITS2

Cited by 41 publications

References 42 publications

DNA barcoding mosquitoes: advice for potential prospectors

DNA barcoding mosquitoes: advice for potential prospectors

Marine Invertebrate Larvae Associated with Symbiodinium: A Mutualism from the Start?

Intragenomic internal transcribed spacer 2 variation in a genus of parasitoid wasps (Hymenoptera: Braconidae): implications for accurate species delimitation and phylogenetic analysis

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