2005
A link between variability of MHC IIB genes and metazoan parasites in the selected populations of the chub (Leuciscus cephalus Linnaeus, 1958)
STEINEROVÁ, Mária, Andrea ŠIMKOVÁ a Jiří JARKOVSKÝZákladní údaje
Originální název
A link between variability of MHC IIB genes and metazoan parasites in the selected populations of the chub (Leuciscus cephalus Linnaeus, 1958)
Název česky
Vztah mezi variabilitou MHC IIB genů a mnohobuněčnými parazity ve vybraných populacích jelce tlouště (Leuciscus cephalus Linnaeus, 1958)
Autoři
STEINEROVÁ, Mária, Andrea ŠIMKOVÁ a Jiří JARKOVSKÝ
Vydání
Košice, Proceedings of the Thirteenth Helminthological Days held at Ředkovec (Czech Republic) May 9 – 13, 2005, Helminthologia 42(3): 171-186, od s. 171-186, 1 s. 2005
Nakladatel
Helminthologia
Další údaje
Jazyk
angličtina
Typ výsledku
Stať ve sborníku
Obor
10600 1.6 Biological sciences
Stát vydavatele
Slovensko
Utajení
není předmětem státního či obchodního tajemství
Organizační jednotka
Přírodovědecká fakulta
ISBN
0440-6605
Klíčová slova anglicky
MHC IIB genes, metazoan parasites, cyprinid fish
Příznaky
Mezinárodní význam
Změněno: 8. 1. 2007 19:33, prof. RNDr. Andrea Vetešníková Šimková, PhD.
V originále
The genes of the MHC (major histocompatibility complex) play a central role in mediating a vertebrate s immune response to diseases and parasites. The MHC family is divided into two major subfamilies, class I and class II. In the teleost fishes, the class I and II genes are not localized on the same linkage group. The MHC loci are characterized by high levels of polymorphism, and the products of these genes are the sign of individuality. The allelic lineages of MHC are often shared by related species (this feature is called as trans-species polymorphism). Variability of MHC loci is maintained by two main types of mechanisms: the pathogen-driven balancing selection and reproductive mechanisms. There are two basic types of the hypothesis of the pathogen-driven balancing selection: (1) overdominance hypothesis based on the advantage being heterozygotes at MHC alleles, which permits to recognize wider range of antigens derived from the pathogens than in the case of homozygotes, (2) negative frequency dependent selection hypothesis (or rare-allele advantage) proposing that the individuals with a rare MHC allele respond better to new pathogens. The hypothesis of MHC dependent mating preferences proposes that selection of MHC alleles contributing to the immune recognition of pathogens or parasites could be connected with sexual selection which may provide a choice of good genes in order to increase the offspring resistance. Considering the class IIB the polymorphism is concentrated in exon 2 corresponding to ß1 domain of this class which includes the peptide binding regions (PBR). The PBR should interact with the parasitic antigens and parasites, the source of the antigen, are likely the selective agents. The goal of this study was to investigate the variability in exon 2 of class II beta-encoding genes (DAB genes) in four populations of the chub (Leuciscus cephalus L.) collected from the different water basins not historically connected, and evaluate the potential role of the metazoan parasites on the MHC genes differentiation. The results indicate the relationship between MHC allelic diversity and parasites.
Česky
The genes of the MHC (major histocompatibility complex) play a central role in mediating a vertebrate s immune response to diseases and parasites. The MHC family is divided into two major subfamilies, class I and class II. In the teleost fishes, the class I and II genes are not localized on the same linkage group. The MHC loci are characterized by high levels of polymorphism, and the products of these genes are the sign of individuality. The allelic lineages of MHC are often shared by related species (this feature is called as trans-species polymorphism). Variability of MHC loci is maintained by two main types of mechanisms: the pathogen-driven balancing selection and reproductive mechanisms. There are two basic types of the hypothesis of the pathogen-driven balancing selection: (1) overdominance hypothesis based on the advantage being heterozygotes at MHC alleles, which permits to recognize wider range of antigens derived from the pathogens than in the case of homozygotes, (2) negative frequency dependent selection hypothesis (or rare-allele advantage) proposing that the individuals with a rare MHC allele respond better to new pathogens. The hypothesis of MHC dependent mating preferences proposes that selection of MHC alleles contributing to the immune recognition of pathogens or parasites could be connected with sexual selection which may provide a choice of good genes in order to increase the offspring resistance. Considering the class IIB the polymorphism is concentrated in exon 2 corresponding to ß1 domain of this class which includes the peptide binding regions (PBR). The PBR should interact with the parasitic antigens and parasites, the source of the antigen, are likely the selective agents. The goal of this study was to investigate the variability in exon 2 of class II beta-encoding genes (DAB genes) in four populations of the chub (Leuciscus cephalus L.) collected from the different water basins not historically connected, and evaluate the potential role of the metazoan parasites on the MHC genes differentiation. The results indicate the relationship between MHC allelic diversity and parasites.
Návaznosti
| GA524/04/1128, projekt VaV |
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| MSM0021622416, záměr |
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