Evolutionary insights of interferon lambda genes in tetrapods

Type III interferon (IFN), also known as IFN-λ, is an innate antiviral protein. We retrieved the sequences of IFN-λ and their receptors from 42 tetrapod species and conducted a computational evolutionary analysis to understand the diversity of these genes. The copy number variation (CNV) of IFN-λ wa...

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Bibliographic Details
Published in:Journal of evolutionary biology 2024-08, Vol.37 (9), p.1101-1112
Main Authors: Gautam, Devika, Sindhu, Anil, Vats, Ashutosh, Rajput, Shiveeli, Rana, Chanchal, De, Sachinandan
Format: Article
Language:English
Subjects:
Animals
Buffaloes - genetics
Cattle - genetics
DNA Copy Number Variations
Evolution, Molecular
Interferon Lambda
Interferons - genetics
Interferons - metabolism
Interleukins - genetics
Mammals - genetics
Phylogeny
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Summary:Type III interferon (IFN), also known as IFN-λ, is an innate antiviral protein. We retrieved the sequences of IFN-λ and their receptors from 42 tetrapod species and conducted a computational evolutionary analysis to understand the diversity of these genes. The copy number variation (CNV) of IFN-λ was determined through qPCR in Indian cattle and buffalo. The tetrapod species feature intron-containing type III IFN genes. Some reptiles and placental mammals have 2 IFN-λ loci, while marsupials, monotremes, and birds have a single IFN-λ locus. Some placental mammals and amphibians exhibit multiple IFN-λ genes, including both intron-less and intron-containing forms. Placental mammals typically possess 3-4 functional IFN-λ genes, some of them lack signal peptides. IFN-λ of these tetrapod species formed 3 major clades. Mammalian IFN-λ4 appears as an ancestral form, with syntenic conservation in most mammalian species. The intron-less IFN-λ1 and both type III IFN receptors have conserved synteny in tetrapod. Purifying selection was noted in their evolutionary analysis that plays a crucial role in minimizing genetic diversity and maintaining the integrity of biological function. This indicates that these proteins have successfully retained their biological function and indispensability, even in the presence of the type I IFNs. The expansion of IFN-λ genes in amphibians and camels have led to the evolution of multiple IFN-λ. The CNV can arise from gene duplication and conversion events. The qPCR-based absolute quantification revealed that IFN-λ3 and IFN-λ4 have more than 1 copy in buffalo (Murrah) and 6 cattle breeds (Sahiwal, Tharparkar, Kankrej, Red Sindhi, Jersey, and Holstein Friesian). Overall, these findings highlight the evolutionary diversity and functional significance of IFN-λ in tetrapod species.
ISSN:1420-9101
1420-9101
DOI:10.1093/jeb/voae094