Whole genome duplications have provided teleosts with many roads to peptide loaded MHC class I molecules

Abstract Background In sharks, chickens, rats, frogs, medaka and zebrafish there is haplotypic variation in MHC class I and closely linked genes involved in antigen processing, peptide translocation and peptide loading. At least in chicken, such MHCIa haplotypes of MHCIa, TAP2 and Tapasin are shown...

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Bibliographic Details
Main Author: Grimholt, Unni
Format: Article in Journal/Newspaper
Language:unknown
Published: Figshare 2018
Subjects:
Genetics
FOS Biological sciences
Evolutionary Biology
Immunology
FOS Clinical medicine
110309 Infectious Diseases
FOS Health sciences
60506 Virology
Atlantic salmon
Online Access:https://dx.doi.org/10.6084/m9.figshare.c.4013827
https://figshare.com/collections/Whole_genome_duplications_have_provided_teleosts_with_many_roads_to_peptide_loaded_MHC_class_I_molecules/4013827
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Summary:Abstract Background In sharks, chickens, rats, frogs, medaka and zebrafish there is haplotypic variation in MHC class I and closely linked genes involved in antigen processing, peptide translocation and peptide loading. At least in chicken, such MHCIa haplotypes of MHCIa, TAP2 and Tapasin are shown to influence the repertoire of pathogen epitopes being presented to CD8+ T-cells with subsequent effect on cell-mediated immune responses. Results Examining MHCI haplotype variation in Atlantic salmon using transcriptome and genome resources we found little evidence for polymorphism in antigen processing genes closely linked to the classical MHCIa genes. Looking at other genes involved in MHCI assembly and antigen processing we found retention of functional gene duplicates originating from the second vertebrate genome duplication event providing cyprinids, salmonids, and neoteleosts with the potential of several different peptide-loading complexes. One of these gene duplications has also been retained in the tetrapod lineage with orthologs in frogs, birds and opossum. Conclusion We postulate that the unique salmonid whole genome duplication (SGD) is responsible for eliminating haplotypic content in the paralog MHCIa regions possibly due to frequent recombination and reorganization events at early stages after the SGD. In return, multiple rounds of whole genome duplications has provided Atlantic salmon, other teleosts and even lower vertebrates with alternative peptide loading complexes. How this affects antigen presentation remains to be established.

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