2022
DOI: 10.1111/avj.13197
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Genomics and pathogenesis of the avian coronavirus infectious bronchitis virus

Abstract: Infectious bronchitis virus (IBV) is a member of the family Coronaviridae, together with viruses such as SARS‐CoV, MERS‐CoV and SARS‐CoV‐2 (the causative agent of the COVID‐19 global pandemic). In this family of viruses, interspecies transmission has been reported, so understanding their pathobiology could lead to a better understanding of the emergence of new serotypes. IBV possesses a single‐stranded, non‐segmented RNA genome about 27.6 kb in length that encodes several non‐structural and structural proteins… Show more

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Cited by 21 publications
(17 citation statements)
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“…The S-protein coding sequence of isolate A376 appears to be of recombinant origin similar to but distinct from other sequenced TCoVs such as the Asian and North American TCoVs (at 85.9% and 79% nucleotide similarity, respectively), and only distantly related to other IBVs. This is a known phenomenon, in which the majority of TCoVs originate from a recombination of an IBV backbone with an S-gene fragment of often unknown origin [ 18 , 52 , 66 ]. The ability of AvCoVs to micro-evolve into novel variants via recombination of S1 sequence fragments from different backgrounds is consequential because they could confer on the variants the ability to infect new host tissues or naïve susceptible hosts (diversification of tissue tropism and host range), for instance, if the changes enhance the susceptibility of the S gene to proteolytic activation or increase affinity to receptor binding and efficiency to gain cellular entry (heightening of pathogenicity) [ 18 , 67 ].…”
Section: Discussionmentioning
confidence: 99%
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“…The S-protein coding sequence of isolate A376 appears to be of recombinant origin similar to but distinct from other sequenced TCoVs such as the Asian and North American TCoVs (at 85.9% and 79% nucleotide similarity, respectively), and only distantly related to other IBVs. This is a known phenomenon, in which the majority of TCoVs originate from a recombination of an IBV backbone with an S-gene fragment of often unknown origin [ 18 , 52 , 66 ]. The ability of AvCoVs to micro-evolve into novel variants via recombination of S1 sequence fragments from different backgrounds is consequential because they could confer on the variants the ability to infect new host tissues or naïve susceptible hosts (diversification of tissue tropism and host range), for instance, if the changes enhance the susceptibility of the S gene to proteolytic activation or increase affinity to receptor binding and efficiency to gain cellular entry (heightening of pathogenicity) [ 18 , 67 ].…”
Section: Discussionmentioning
confidence: 99%
“…This is a known phenomenon, in which the majority of TCoVs originate from a recombination of an IBV backbone with an S-gene fragment of often unknown origin [ 18 , 52 , 66 ]. The ability of AvCoVs to micro-evolve into novel variants via recombination of S1 sequence fragments from different backgrounds is consequential because they could confer on the variants the ability to infect new host tissues or naïve susceptible hosts (diversification of tissue tropism and host range), for instance, if the changes enhance the susceptibility of the S gene to proteolytic activation or increase affinity to receptor binding and efficiency to gain cellular entry (heightening of pathogenicity) [ 18 , 67 ]. Novel variants could also gain the ability for immune escape and unresponsiveness to vaccinations.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…The sites sampled reflected the distribution of horseshoe bats in Great Britain, and infection was clearly common within and between populations of lesser horseshoe bats in this study, with no clear sex or age differences in likelihood of shedding. This high frequency of shedding and widespread distribution geographically and demographically, likely indicates either persistent infection and excretion, or frequent reinfection, of the gastrointestinal tract as has been reported for many other coronaviruses, such as those of cats, chickens and pigs (Quinteros, Noormohammadi et al 2022, Thayer, Gogolski et al 2022, Zhang, Chen et al 2022.…”
Section: Discussionmentioning
confidence: 66%
“…The sites sampled reflected the distribution of horseshoe bats in Great Britain, and infection was clearly common within and between populations of lesser horseshoe bats in this study, with no clear sex or age differences in likelihood of shedding. This high frequency of shedding and widespread distribution geographically and demographically, likely indicates either persistent infection and excretion, or frequent reinfection, of the gastrointestinal tract as has been reported for many other coronaviruses, such as those of cats, chickens and pigs [67–69].…”
Section: Discussionmentioning
confidence: 86%