All‐in‐one Xylella detection and identification: A nanopore sequencing‐compatible conventional PCR

All‐in‐one Xylella detection and identification: A nanopore sequencing‐compatible conventional PCR

Xylella fastidiosa is a plant‐pathogenic bacterium that poses a serious threat to the production of economically important plant species including grapes, almonds, olives and a broad range of amenity plants, causing significant economic losses worldwide. While multiple molecular detection assays hav...

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Veröffentlicht in:Plant pathology 2024-06, Vol.73 (5), p.1072-1089
Hauptverfasser: Wong‐Bajracharya, Johanna, Webster, John, Rigano, Luciano A., Kant, Pragya, Englezou, Anna, Snijders, Fridtjof, Roach, Rebecca, Wang, Cuiping, Kehoe, Monica, Mann, Rachel, Constable, Fiona E., Chapman, Toni A.
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Sprache:eng
Schlagworte:
Amplification
Assaying
Bacteria
Biosecurity
Economic impact
Economic importance
Genomes
Insects
Olives
Plant bacterial diseases
Plant species
Polymerase chain reaction
Species
Xylella
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container_end_page 1089
container_issue 5
container_start_page 1072
container_title Plant pathology
container_volume 73
creator Wong‐Bajracharya, Johanna
Webster, John
Rigano, Luciano A.
Kant, Pragya
Englezou, Anna
Snijders, Fridtjof
Roach, Rebecca
Wang, Cuiping
Kehoe, Monica
Mann, Rachel
Constable, Fiona E.
Chapman, Toni A.
description Xylella fastidiosa is a plant‐pathogenic bacterium that poses a serious threat to the production of economically important plant species including grapes, almonds, olives and a broad range of amenity plants, causing significant economic losses worldwide. While multiple molecular detection assays have been developed for X . fastidiosa , there is a lack of molecular tools available for detection and differentiation of the closely related pear pathogen, Xylella taiwanensis . In this study, we present a novel conventional PCR assay with primers that can amplify both Xylella species. The amplified product could be sequenced and used for discrimination between the two species and the subspecies within the fastidiosa species. This PCR assay was designed using a genome‐informed approach to target the ComEC/Rec2 gene of both Xylella species, ensuring a higher specificity than other previously developed PCR assays. A test performance study across five national plant diagnostic laboratories in Australia and New Zealand demonstrated this assay's high sensitivity and specificity to all known species and subspecies within the Xylella genus. This PCR assay can be used for Xylella identification at the species and subspecies level and is compatible with Sanger sequencing and nanopore sequencing for rapid turnaround time. The newly developed conventional PCR assay presented here offers rapid detection and accurate identification of both Xylella species from plant, insect vector or bacterial samples, enabling timely implementation of biosecurity measures or disease management responses.
doi_str_mv 10.1111/ppa.13877
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source Wiley Online Library Journals Frontfile Complete
subjects Amplification
Assaying
Bacteria
Biosecurity
Economic impact
Economic importance
Genomes
Insects
Olives
Plant bacterial diseases
Plant species
Polymerase chain reaction
Species
Xylella
title All‐in‐one Xylella detection and identification: A nanopore sequencing‐compatible conventional PCR
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