Background/objectives: Infectious bronchitis (IB) is a highly infectious avian disease caused by the infectious bronchitis virus (IBV). The disease causes lesions mainly in the respiratory, reproductive, and renal systems and has a significant economic impact on the poultry industry worldwide.
Methods: We discovered two unique IBV isolates (T-62: PP737794.1 and CL-61: PP783617.1) circulating in Canada and molecularly characterized them.
Results: The phylogenetic analysis revealed that the IBV isolates belong to genotype I and fall between lineages 25 and 7. Further analysis of the T-62 IBV isolate indicated that it is a potential recombinant of the Iowa state isolate (IA1162/2020-MW) and that the CL-61 strain of the IBV is also a recombinant IBV with the Connecticut (Conn) vaccine strain as its major parent. The S1 glycoprotein of the CL-61 and T-62 strains of the IBV had 85.7% and 73.2% amino acid (aa) identities respectively compared to the Conn vaccine strain. There were 67 and 129 aa substitutions among the S1 glycoprotein of the CL-61 and T-62 strains of the IBV compared to the Conn vaccine, respectively. Importantly, two and nineteen of these aa variations were in hypervariable regions 1 (HVR1) and HVR3. Finally, the two IBV isolates possessed a higher affinity for the sialic acid ligand compared to the DMV/1639 and Mass/SES IBV strains.
Conclusions: Genetic recombination in the IBV results in the continual emergence of new variants, posing challenges for the poultry industry. As indicated by our analyses, live attenuated vaccine strains play a role in the genetic recombination of the IBV, resulting in the emergence of variants.
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| http://dx.doi.org/10.3390/genes15111480 | DOI Listing |
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