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-European foulbrood (EFB) is a serious and widespread disease of honey bee larvae. It is a notifiable disease in the United Kingdom under existing legislation, so colonies must be officially screened for signs of disease. The current study developed a rapid and sensitive test to diagnose EFB in the field. A monoclonal antibody, highly specific for its causative agent, Melissococcus plutonius, was produced, optimised and incorporated into a Lateral Flow Device (LFD). Laboratory trials of LFDs found them to be very effective, detecting M. plutonius in 96-100% (n = 137) of EFB-infected samples with no crossreactivity with other bee brood pathogens. Field validation data was equally robust: correct diagnoses were obtained on 96% (n = 184) of samples subjected to LFD-testing on site; false positives were rare (∼1%). EFB LFDs are now issued to all Appointed Bee Inspectors in England and Wales as the sole diagnostic tool for routine confirmation of M. plutonius infection in the field, allowing much more efficient disease detection and control.European foulbrood / honey bee / LFD / field test / Apis mellifera

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Development of a lateral flow device for in‐field detection and evaluation of PCR‐based diagnostic methods for Xanthomonas campestris pv. musacearum, the causal agent of banana xanthomonas wilt

Hodgetts

Karamura

Johnson

et al. 2014

Plant Pathology

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Xanthomonas campestris pv. musacearum (Xcm) is the causal agent of banana xanthomonas wilt, a major threat to banana production in eastern and central Africa. The pathogen is present in very high levels within infected plants and can be transmitted by a broad range of mechanisms; therefore early specific detection is vital for effective disease management. In this study, a polyclonal antibody (pAb) was developed and deployed in a lateral flow device (LFD) format to allow rapid in-field detection of Xcm. Published Xcm PCR assays were also independently assessed: only two assays gave specific amplification of Xcm, whilst others cross-reacted with non-target Xanthomonas species. Pure cultures of Xcm were used to immunize a rabbit, the IgG antibodies purified from the serum and the resulting polyclonal antibodies tested using ELISA and LFD. Testing against a wide range of bacterial species showed the pAb detected all strains of Xcm, representing isolates from seven countries and the known genetic diversity of Xcm. The pAb also detected the closely related Xanthomonas axonopodis pv. vasculorum (Xav), primarily a sugarcane pathogen. Detection was successful in both naturally and experimentally infected banana plants, and the LFD limit of detection was 10 5 cells mL À1 . Whilst the pAb is not fully specific for Xcm, Xav has never been found in banana. Therefore the LFD can be used as a first-line screening tool to detect Xcm in the field. Testing by LFD requires no equipment, can be performed by non-scientists and is cost-effective. Therefore this LFD provides a vital tool to aid in the management and control of Xcm.

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Infection and Quiescence of Mango Stem-End Rot Pathogens

Johnson¹,

Cooke²,

Mead³

1993

Acta Hortic.

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Mycelium Growth Promotion by Water Extractives from the Inner Bark of Radiata Pine (Pinus radiata D. Don)

Morita¹,

Yazaki²,

Johnson³

2001

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Stimulation of Oospore production in Phytophthora cinnamomi by Trichoderma species isolated from Eucalypt roots.

Johnson¹,

Heather

1982

Austral. Plant Pathol.

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The Development of Monoclonal Antibodies to the secA Protein of Cape St. Paul Wilt Disease Phytoplasma and Their Evaluation as a Diagnostic Tool

et al. 2014

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Partial recombinant secA proteins were produced from six different phytoplasma isolates representing five 16Sr groups and the expressed, purified recombinant (partial secA) protein from Cape St. Paul wilt disease phytoplasma (CSPWD, 16SrXXII) was used to immunise mice. Monoclonal antibodies (mAbs) were selected by screening hybridoma supernatants for binding to the recombinant proteins. To characterise the binding to proteins from different phytoplasmas, the antibodies were screened by ELISA and western blotting, and epitope mapping was undertaken. Eight different mAbs with varying degrees of specificity against recombinant proteins from different phytoplasma groups were selected. Western blotting revealed that the mAbs bind to proteins in infected plant material, two of which were specific for phytoplasmas. ELISA testing of infected material, however, gave negative results suggesting that either secA was not expressed at sufficiently high levels, or conformational changes of the reagents adversely affected detection. This work has shown that the phytoplasma secA gene is not a suitable antibody target for routine detection, but has illustrated proof of principle for the methodology.

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G. C. Johnson

Development and validation of a novel field test kit for European foulbrood

Development of a lateral flow device for in‐field detection and evaluation of PCR‐based diagnostic methods for Xanthomonas campestris pv. musacearum, the causal agent of banana xanthomonas wilt

Infection and Quiescence of Mango Stem-End Rot Pathogens

Mycelium Growth Promotion by Water Extractives from the Inner Bark of Radiata Pine (Pinus radiata D. Don)

Stimulation of Oospore production in Phytophthora cinnamomi by Trichoderma species isolated from Eucalypt roots.

The Development of Monoclonal Antibodies to the secA Protein of Cape St. Paul Wilt Disease Phytoplasma and Their Evaluation as a Diagnostic Tool

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