AI Article Synopsis
- Virus emergence can happen through the sharing and mixing of viruses between species, especially when multiple viruses infect the same host, leading to new genetic combinations.
- Camels carry various RNA viruses with the potential to infect other species, including humans, with astroviruses being especially noteworthy for their ability to jump between different species.
- A study was conducted on astroviruses in dromedary and Bactrian camels, identifying novel viral sequences and highlighting the need for ongoing monitoring to understand cross-species transmission and assess potential risks to human health.
Article Abstract
Virus emergence may occur through interspecies transmission and recombination of viruses coinfecting a host, with potential to pair novel and adaptive gene combinations. Camels are known to harbor diverse ribonucleic acid viruses with zoonotic and epizootic potential. Among them, astroviruses are of particular interest due to their cross-species transmission potential and endemicity in diverse host species, including humans. We conducted a molecular epidemiological survey of astroviruses in dromedaries from Saudi Arabia and Bactrian camels from Inner Mongolia, China. Herein, we deployed a hybrid sequencing approach coupling deep sequencing with rapid amplification of complementary deoxyribonucleic acid ends to characterize two novel Bactrian and eight dromedary camel astroviruses, including both partial and complete genomes. Our reported sequences expand the known diversity of dromedary camel astroviruses, highlighting potential recombination events among the astroviruses of camelids and other host species. In Bactrian camels, we detected partially conserved gene regions bearing resemblance to human astrovirus types 1, 4, and 8 although we were unable to recover complete reading frames from these samples. Continued surveillance of astroviruses in camelids, particularly Bactrian species and associated livestock, is highly recommended to identify patterns of cross-species transmission and to determine any epizootic threats and zoonotic risks posed to humans. Phylogenomic approaches are needed to investigate complex patterns of recombination among the astroviruses and to infer their evolutionary history across diverse host species.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9869654 | PMC |
| http://dx.doi.org/10.1093/ve/veac125 | DOI Listing |
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