AI Article Synopsis
- The innate immune system in mammals includes proteins like TRIM5 and TRIM22, which have been found to restrict various viruses that infect primates.
- This study focuses on the evolution of these proteins in bat genomes, revealing dynamic gene expansion and a low conservation of gene structure among bat species.
- Notably, certain bat species show duplicated versions of these genes, which is unique and may help explain bats' role as virus reservoirs linked to zoonotic diseases.
Article Abstract
The innate immunological response in mammals involves a diverse and complex network of many proteins. Over the last years, the tripartite motif-containing protein 5 (TRIM5) and 22 (TRIM22) have shown promise as restriction factors of a plethora of viruses that infect primates. Although there have been studies describing the evolution of these proteins in a wide range of mammals, no prior studies of the /// gene cluster have been performed in the Chiroptera order. Here, we provide a detailed analysis of the evolution of this gene cluster in several bat genomes. Examination of different yangochiroptera and yinpterochiroptera bat species revealed a dynamic history of gene expansion occurring in and genes. Multiple copies of were found in the genomes of several bats, demonstrating a very low degree of conservation in the synteny of this gene among species of the Chiroptera order. Our findings also reveal that is often found duplicated in yangochiroptera bat species, an evolutionary phenomenon not yet observed in any other lineages of mammals. In total, we identified 31 TRIM5 and 19 TRIM22 amino acids to be evolving under positive selection, with most of the residues being placed in the PRYSPRY domain, known to be responsible for binding to the viral capsid during restriction in the primate orthologous TRIM proteins. Altogether, our results help to shed light on the distinctive role of bats in nature as reservoirs of viruses, many of which have become threatening zoonotic diseases through virus spillover in the last decades.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8879501 | PMC |
| http://dx.doi.org/10.3390/v14020345 | DOI Listing |
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