In many nonmammalian vertebrates, the genomic organization of the MHC class I region leads to biased expression of a single classical MHC class I gene coevolving with TAP transporters, whereas class I genes are poorly expressed. This contrasts to the three codominantly expressed classical MHC class I genes in humans and mice. In a sequenced haplotype from White Pekin duck, Anas platyrhynchos, there is one predominantly expressed MHC class I, UAA, although they have five MHC class I genes in the complex, arranged TAP1-TAP2-UAA-UBA-UCA-UDA-UEA The UAA gene, situated proximal to the TAP2 gene, is expressed at levels 10-fold greater than that of another expressed gene, UDA.
View Article and Find Full Text PDFMHC class I is critically involved in defense against viruses, and diversity from polygeny and polymorphism contributes to the breadth of the immune response and health of the population. In this article, we examine MHC class I diversity in wild mallard ducks, the natural host and reservoir of influenza A viruses. We previously showed domestic ducks predominantly use UAA, one of five MHC class I genes, but whether biased expression is also true for wild mallards is unknown.
View Article and Find Full Text PDFMHC class I proteins mediate a variety of functions in antiviral defense. In humans and mice, three MHC class I loci each contribute one or two alleles and each can present a wide variety of peptide Ags. In contrast, many lower vertebrates appear to use a single MHC class I locus.
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