Journal
VETERINARY SCIENCES
Volume 10, Issue 3, Pages -Publisher
MDPI
DOI: 10.3390/vetsci10030223
Keywords
avian orthoavulavirus-1 (AOAV-1); pigeon paramyxovirus-1 (PPMV-1); Newcastle disease; diagnostics; real-time reverse transcription-polymerase chain reaction assay (rRT-PCR)
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Avian orthoavulavirus-1 (AOAV-1), also known as Newcastle disease virus, causes significant economic losses in poultry worldwide. This study demonstrates the importance of monitoring and improving diagnostic methods for detecting currently circulating AOAV-1 strains, particularly pigeon paramyxovirus-1 (PPMV-1) strains.
Simple Summary Avian orthoavulavirus-1 (AOAV-1) can cause Newcastle disease in poultry, and thus lead to massive economic losses worldwide. Compared to the original assay, the adapted real-time reverse-transcription PCR presented here proved to be more sensitive for detecting currently circulating AOAV-1 strains, in particular the pigeon-type strains (pigeon paramyxovirus-1). This highlights the importance of constant monitoring of existing methods. Avian orthoavulavirus-1 (AOAV-1) is the causative agent of Newcastle disease in poultry. This highly infectious disease causes large economic losses annually and worldwide. AOAV-1 does not only infect poultry, but it has a very broad host range and has been detected in over 230 bird species to date. A distinct group of viral strains within AOAV-1 are pigeon-adapted strains, also named pigeon paramyxovirus-1 (PPMV-1). AOAV-1 is transmitted through the feces of infected birds and secretions from the nasal and oral cavities and eyes. It is worth mentioning that wild birds can transmit the virus to captive birds, especially feral pigeons to poultry. Therefore, early and sensitive detection of this virus-including the monitoring of pigeons-is of utmost importance. A variety of molecular methods for the detection of AOAV-1 already exist, but the detection of the F gene cleavage site of currently circulating PPMV-1 strains has not proven to be particularly sensitive or suitable. As presented here, by modifying the primers and probe of an already established real-time reverse-transcription PCR, the sensitivity could be increased, allowing for a more reliable detection of the AOAV-1 F gene cleavage site. Furthermore, it becomes clear how important it is to constantly monitor and, if necessary, adapt existing diagnostic procedures.
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