Major Histocompatibility Complex (MHC) Genes and Disease Resistance in Fish

Yamaguchi, Takuya; Dijkstra, Johannes M.

doi:10.3390/cells8040378

Cited by 80 publications

(56 citation statements)

References 254 publications

(391 reference statements)

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“…29,33 Interestingly, some fish species have lost MHC class II genes but the functional consequences are unclear. 37 Apart from "classic" peptide-binding MHC molecules, a large number of class Ib exist. Their genes are found in the MHC locus on the human chromosome (Chr:)6 but also in MHC paralogous regions on other chromosomes.…”

Section: Mhc-restricted Cells and Other Cells With Highly Variable mentioning

confidence: 99%

A glance over the fence: Using phylogeny and species comparison for a better understanding of antigen recognition by human γδ T‐cells

Herrmann

Karunakaran

Fichtner

2020

Immunological Reviews

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The discovery that butyrophilins (BTNs) control the development and activity of human and mouse γδ T-cell subsets, 1-3 the increasing knowledge on γδ T-cell antigen receptor (TCR)-ligand interaction 4,5 together with the exploding interest in cell-based therapeutics stimulated a general interest in γδ T-cells during the last years. 6 One fascinating aspect of γδ T-cells is their Janus-faced nature. Cells with γδ TCRs are found in all classes of jawed vertebrates, yet they can be highly divergent between species and specialized within an organism. There are clear indications for functions in the adaptive immune response, yet they also show features of an innate immune cell. 7

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Section: Mhc-restricted Cells and Other Cells With Highly Variable mentioning

confidence: 99%

A glance over the fence: Using phylogeny and species comparison for a better understanding of antigen recognition by human γδ T‐cells

Herrmann

Karunakaran

Fichtner

2020

Immunological Reviews

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“…A great number of vertebrates have been observed to have high variation in MHC loci numbers, including fish [9,36], reptiles [37], birds [2,10,26], and mammals [15], which usually have more than one locus. For instance, three loci of MHC class I are expressed in Atlantic salmon [38], at least six loci are expressed in Blue tits [10], and 17 loci in a Cichlid species [39] but only two loci in Chinese sturgeon and paddlefish [9], as well as chickens [40].…”

Section: Discussionmentioning

confidence: 99%

The MHC Class Ia Genes in Chenfu’s Treefrog (Zhangixalus chenfui) Evolved via Gene Duplication, Recombination, and Selection

Huang

Jiang

et al. 2019

Animals

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Simple Summary: Amphibians, the first terrestrial vertebrates, provide materials for adaptive evolutionary studies, such as the evolution of the major histocompatibility complex (MHC). To date, various MHC evolutionary mechanisms have been identified in frogs, but more research is needed to determine the evolutionary mechanisms of the frog MHC. The main purpose of this study was to evaluate polymorphisms in the MHC class Ia genes of the Chenfu's Treefrog. The MHC class Ia genes of the Chenfu's Treefrog have high polymorphism. The mechanisms responsible for the formation of the polymorphisms include gene duplication, recombination, and selection. Abstract:The molecular mechanisms underlying the evolution of adaptive immunity-related proteins can be deduced by a thorough examination of the major histocompatibility complex (MHC). Currently, in vertebrates, there is a relatively large amount of research on MHCs in mammals and birds. However, research related to amphibian MHC genes and knowledge about the evolutionary patterns is limited. This study aimed to isolate the MHC class I genes from Chenfu's Treefrog (Zhangixalus chenfui) and reveal the underlying evolutionary processes. A total of 23 alleles spanning the coding region of MHC class Ia genes were identified in 13 individual samples. Multiple approaches were used to test and identify recombination from the 23 alleles. Amphibian MHC class Ia alleles, from NCBI, were used to construct the phylogenetic relationships in MEGA. Additionally, the partition strategy was adopted to construct phylogenetic relationships using MrBayes and MEGA. The sites of positive selection were identified by FEL, PAML, and MEME. In Chenfu's Treefrog, we found that: (1) recombination usually takes place between whole exons of MHC class Ia genes; (2) there are at least 3 loci for MHC class Ia, and (3) the diversity of genes in MHC class Ia can be attributed to recombination, gene duplication, and positive selection. We characterized the evolutionary mechanisms underlying MHC class Ia genes in Chenfu's Treefrog, and in so doing, broadened the knowledge of amphibian MHC systems.

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“…The large variation of mhc genes and the specificity of the effects of such variations make them targets of choice for pathogen-specific resistance mechanisms. Table 1 summarizes the relevant QTL studies pointing toward the implication of adaptive mechanisms in disease resistance (also, reviewed in Yamaguchi and Dijkstra, 2019).…”

Section: Qtl Pointing Toward Adaptive Mechanisms Of Resistance/suscepmentioning

confidence: 99%

Combining Multiple Approaches and Models to Dissect the Genetic Architecture of Resistance to Infections in Fish

et al. 2020

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Major Histocompatibility Complex (MHC) Genes and Disease Resistance in Fish

Cited by 80 publications

References 254 publications

A glance over the fence: Using phylogeny and species comparison for a better understanding of antigen recognition by human γδ T‐cells

A glance over the fence: Using phylogeny and species comparison for a better understanding of antigen recognition by human γδ T‐cells

The MHC Class Ia Genes in Chenfu’s Treefrog (Zhangixalus chenfui) Evolved via Gene Duplication, Recombination, and Selection

Combining Multiple Approaches and Models to Dissect the Genetic Architecture of Resistance to Infections in Fish

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