Development and Validation of a Bioinformatic Workflow for the Rapid Detection of Viruses in Biosecurity

Waite, David W.; Liefting, L. W.; Delmiglio, Catia; Chernyavtseva, Anastasia; Ha, Hyekyung; Thompson, Jeremy R.

doi:10.3390/v14102163

Cited by 8 publications

(4 citation statements)

References 107 publications

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“…However, Illumina produces shorter read lengths and involves a longer turn around time before results become available than thirdgeneration platforms such as Oxford Nanopore Technology (ONT) (Pecman et al, 2022). Also, ONT provides a convenient means of identifying plant viruses (Bronzato-Badial et al, 2018;Ben Chehida et al, 2021;Liefting et al, 2021;Maina et al, 2022;Pecman et al, 2022;Waite et al, 2022). Its ONT direct RNA sequencing approach involves sequencing RNA without the need for prior amplification and it directly reads RNA without the need for reverse transcription (Phannareth et al, 2020).…”

Section: Illumina and Oxford Nanopore Sequencingmentioning

confidence: 99%

“…Under these circumstances, preventing incursions of damaging viruses and their virus vectors, and eradicating or containing any that establish successfully, is becoming an increasingly difficult challenge for biosecurity authorities located within different world regions and countries. Fortunately, rapid technological advances that improve the effectiveness of virus diagnosis in preborder, border and postborder situations are providing new opportunities to detect viruses earlier and more reliably (Jones, 2014;Martin et al, 2016;Kreuze, et al, 2023;Waite et al, 2022;Adams and Fox, 2016;Barrero et al, 2017;Pecman et al, 2017;Bronzato-Badial et al, 2018;FAO, 2019;Piper et al, 2019;Liefting et al, 2021;Maina et al, 2021;Whattam et al, 2021;Gauthier et al, 2022;Lelwala et al, 2022;Mackie et al, 2022;AlcaláBriseño et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

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Enhancing biosecurity against virus disease threats to Australian grain crops: current situation and future prospects

Maina,

Jones

2023

Front. Hortic.

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Australia is a major grain exporter, and this trade makes an important contribution to its economy. Fortunately, it remains free of many damaging virus diseases and virus vectors found elsewhere. However, its crop biosecurity is under increasing pressure from global ecological, climatic, and demographic challenges. Stringent biosecurity and plant health programs safeguard Australian grain production from damaging virus and virus vector incursions entering via different pathways. These programs formerly relied upon traditional testing procedures (indicator hosts, serology, PCRs) to intercept incoming virus-contaminated plant material. Recently, the integration of rapid genomic diagnostics innovation involving High Throughput Sequencing (HTS) smart tools into sample testing schedules is under exploration to improve virus testing accuracy, efficiency, and cost effectiveness under diverse circumstances. This process includes evaluating deployment of Illumina and Oxford Nanopore Technology shotgun sequencing. It also includes evaluating targeted viral genome HTS and virus vector metabarcoding approaches. In addition, using machine learning and deep learning capacities for big data analyses and remote sensing technologies will improve virus surveillance. Tracking damaging virus variants will be improved by surveillance networks which combine virus genomic-surveillance systems with an interoperable virus database. Sequencing Australian virus specimen collections will help ensure the accuracy of virus identifications based solely on genetic information. Enhancing routine diagnosis and data collection using these innovations will improve post entry virus interception and background virus and vector surveillance. This will help reduce the frequency of new incursions, improve virus management during eradication, containment and other plant health activities, and achieve more profitable Australian grain production.

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Section: Illumina and Oxford Nanopore Sequencingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Enhancing biosecurity against virus disease threats to Australian grain crops: current situation and future prospects

Maina,

Jones

2023

Front. Hortic.

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“…Nanopore sequencing has been used for phytodiagnostics of different pathogenic species and following different approaches. These include the detection of different plant viruses in potato [14], tomato [15], cassava [10], wheat [16], yam [17] and various other plants [15,18,19] either following standard MinION protocols or elaborated cost-effective adaptations [18,20]. Several relevant studies provide reports on the identification of Xylella fastidiosa subspecies and sequence types from naturally infected plant material [21], tomato phytopathogenic bacteria identification [22], and mango dieback disease-associated fungal species [23].…”

Section: Introductionmentioning

confidence: 99%

Nanopore-Sequencing Metabarcoding for Identification of Phytopathogenic and Endophytic Fungi in Olive (Olea europaea) Twigs

Theologidis,

Karamitros,

Vichou

et al. 2023

JoF

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Metabarcoding approaches for the identification of plant disease pathogens and characterization of plant microbial populations constitute a rapidly evolving research field. Fungal plant diseases are of major phytopathological concern; thus, the development of metabarcoding approaches for the detection of phytopathogenic fungi is becoming increasingly imperative in the context of plant disease prognosis. We developed a multiplex metabarcoding method for the identification of fungal phytopathogens and endophytes in olive young shoots, using the MinION sequencing platform (Oxford Nanopore Technologies). Selected fungal-specific primers were used to amplify three different genomic DNA loci (ITS, beta-tubulin, and 28S LSU) originating from olive twigs. A multiplex metabarcoding approach was initially evaluated using healthy olive twigs, and further assessed with naturally infected olive twig samples. Bioinformatic analysis of basecalled reads was carried out using MinKNOW, BLAST+ and R programming, and results were also evaluated using the BugSeq cloud platform. Data analysis highlighted the approaches based on ITS and their combination with beta-tubulin as the most informative ones according to diversity estimations. Subsequent implementation of the method on symptomatic samples identified major olive pathogens and endophytes including genera such as Cladosporium, Didymosphaeria, Paraconiothyrium, Penicillium, Phoma, Verticillium, and others.

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“…Paper five in the series [ 5 ] was about preventing exotic viruses from gaining new geographical territory. The paper presented a bioinformatic workflow for detecting viruses for which no current tests exist.…”

mentioning

confidence: 99%

State-of-the-Art Plant Virus Research in Australasia

Wylie

Habili

2023

Viruses

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Development and Validation of a Bioinformatic Workflow for the Rapid Detection of Viruses in Biosecurity

Cited by 8 publications

References 107 publications

Enhancing biosecurity against virus disease threats to Australian grain crops: current situation and future prospects

Enhancing biosecurity against virus disease threats to Australian grain crops: current situation and future prospects

Nanopore-Sequencing Metabarcoding for Identification of Phytopathogenic and Endophytic Fungi in Olive (Olea europaea) Twigs

State-of-the-Art Plant Virus Research in Australasia

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