A retrospective study was conducted to investigate the presence of ferlavirus, ball python nidovirus and bacteria in 32 tracheobronchial lavages from ball pythons raised in captivity and affected by respiratory disease. A touchdown reverse transcription polymerase reaction (RT-PCR) was performed to detect ball python nidovirus RNA targeting a 260-bp portion of the ORF1a gene, while a nested RT-PCR was applied to identify RNA targeting the 518-bp ferlavirus partial L gene. RT-PCR positive products were submitted for Sanger's sequencing and phylogeny reconstruction. Bacteriological examinations were performed to diagnose a possible bacterial involvement. BLAST analysis revealed that the nucleotide sequences of the six (18.8%) RT-PCR positive amplicons were 90-97% identical to the partial sequence of the ORF1a gene of the recently described ball python nidovirus. All tested snakes were negative for ferlavirus. Thirteen out of 32 samples (40.6%) were bacteriologically positive. Respiratory tract diseases can be a substantial problem for snake breeders, considering the rapid transmission of respiratory pathogens. The results and published studies show that ball python nidovirus is circulating in python collections and could be linked to suboptimal management practices. Surveillance programs are desirable as part of the routine snake health assessment. Tracheobronchial lavage is a fast, practical, cost-effective procedure for sample collection.
First molecular detection of ball python nidovirus in Italy - Short communication
Origgi, Francesco;
2019-01-01
Abstract
A retrospective study was conducted to investigate the presence of ferlavirus, ball python nidovirus and bacteria in 32 tracheobronchial lavages from ball pythons raised in captivity and affected by respiratory disease. A touchdown reverse transcription polymerase reaction (RT-PCR) was performed to detect ball python nidovirus RNA targeting a 260-bp portion of the ORF1a gene, while a nested RT-PCR was applied to identify RNA targeting the 518-bp ferlavirus partial L gene. RT-PCR positive products were submitted for Sanger's sequencing and phylogeny reconstruction. Bacteriological examinations were performed to diagnose a possible bacterial involvement. BLAST analysis revealed that the nucleotide sequences of the six (18.8%) RT-PCR positive amplicons were 90-97% identical to the partial sequence of the ORF1a gene of the recently described ball python nidovirus. All tested snakes were negative for ferlavirus. Thirteen out of 32 samples (40.6%) were bacteriologically positive. Respiratory tract diseases can be a substantial problem for snake breeders, considering the rapid transmission of respiratory pathogens. The results and published studies show that ball python nidovirus is circulating in python collections and could be linked to suboptimal management practices. Surveillance programs are desirable as part of the routine snake health assessment. Tracheobronchial lavage is a fast, practical, cost-effective procedure for sample collection.Pubblicazioni consigliate
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