|
|
Effects of peripheral inflammation on gene expression modulation in passerines and parrots
Kuttiyarthu Veetil, Nithya ; Vinkler, Michal (advisor) ; Hyršl, Pavel (referee) ; Harazim, Markéta (referee)
(English) Birds have well-defined roles in maintaining the ecological balance as predators, seed dispersers, nutrient cyclers, and pollinators making them an integral part of many ecosystems. Birds are often the flag-ship species and are important for wildlife preservation. Some of the avian populations are very well connected across the globe through their annual migration, increasing risks of epidemics of infections. Birds also face different levels of existence encounters in challenging living conditions like deserts and cold mountains. To cope with these diverse environments not only need physiological adaptations, but also a very well-equipped immune system, optimised to challenges common to the environment they inhabit. How well a host immune system responds to pathogens determines the overall fitness of the organism and its survival. Insight into the avian immune system functions is of great significance as birds are reservoirs of innumerable pathogens. They have been the primary source of several major epidemics' onset leading to worldwide human and animal fatalities (e.g., COVID-19, Avian influenza, or West Nile virus outbreaks). Similar to all living beings, avian hosts and pathogens are always in a continuous adaptational arms race. This coevolution of hosts and their pathogens forms the...
|
|
|
MHC class I allelic variability and pro-inflammatory responsiveness in domestic fowl breeds
Pojezdná, Anežka ; Vinkler, Michal (advisor) ; Hyršl, Pavel (referee)
Domestic fowl (Gallus gallus f. domestica) is an economically important model species in science. Knowledge of the immune system of this species is therefore crucial. In research the commercial stocks are usually used together with laboratory inbred lines. They have an unnatural variability, as a result of inbreeding, their genetic and phenotypic variability is reduced. This laboratory lines are therefore not the best model for research of variability. Presently, genetically diversified poultry populations can be found in rural stocks and fancy breeds. These breeds could be good model for research in variability of immunoresponse. In this thesis, I try to map the genetic variability of the binding site of MHC class I glycoproteins in fowl breeds. In chickens are these molecules encoded in duplicated gene called BF (BF1 and BF2). These genes are relatively well known and considerable variability has been described in domestic fowl. Our results suggest a high genetic variability of MHC I in domestic fowl breeds. We had identified 41 haplotypes in 25 individuals of 14 breeds, including 7 haplotypes already known from the literature. I also focused on proinflammatory activity in fowl breeds. I watched swelling of tissue and expression of pro-inflammatory cytokines IL-6 and IL-1 after subcutaneous...
|
|
|
MHC class I allelic variability and pro-inflammatory responsiveness in domestic fowl breeds
Pojezdná, Anežka ; Vinkler, Michal (advisor) ; Hyršl, Pavel (referee)
Domestic fowl (Gallus gallus f. domestica) is an economically important model species in science. Knowledge of the immune system of this species is therefore crucial. In research the commercial stocks are usually used together with laboratory inbred lines. They have an unnatural variability, as a result of inbreeding, their genetic and phenotypic variability is reduced. This laboratory lines are therefore not the best model for research of variability. Presently, genetically diversified poultry populations can be found in rural stocks and fancy breeds. These breeds could be good model for research in variability of immunoresponse. In this thesis, I try to map the genetic variability of the binding site of MHC class I glycoproteins in fowl breeds. In chickens are these molecules encoded in duplicated gene called BF (BF1 and BF2). These genes are relatively well known and considerable variability has been described in domestic fowl. Our results suggest a high genetic variability of MHC I in domestic fowl breeds. We had identified 41 haplotypes in 25 individuals of 14 breeds, including 7 haplotypes already known from the literature. I also focused on proinflammatory activity in fowl breeds. I watched swelling of tissue and expression of pro-inflammatory cytokines IL-6 and IL-1 after subcutaneous...
|
|
|
Polymorphism of TLR2/TLR1 and TLR2/TLR6 heterodimers in wild-derived house mouse inbred strains
Bainová, Zuzana ; Vinkler, Michal (advisor) ; Hyršl, Pavel (referee)
Contrary to the classical mouse inbred strains with unnatural genetic variability, wild-derived strains offer a more suitable model for evolutionary immunology. Toll-like receptors (TLRs) belong to initial detectors of invading pathogens. Although TLRs recognise conserved structures they were shown to be polymorphic. This polymorphism is associated with various diseases. In my thesis, I describe variability of Tlr1, 2 and 6 in 24 inbred strains derived from two subspecies of house mouse (Mus m. musculus and M. m. domesticus). These Tlrs exhibit different levels in variability among the strains. In Tlr1 the polymorphic sites are spread along the whole exodomain. Tlr6 is quite conserved (a lower amount of substitutions located far from the binding region and with minor modifications in the amino acid residue properties). Tlr2, on the contrary, contains some substitutions with substantial alternations of residue properties that are located within or nearby the binding region and the subspecies differ at these sites. All alleles of M. m. domesticus and M. m. musculus, except for Tlr1 PWD, Tlr2 STAIL, are phylogenetically separated. The strains and the subspecies vary in the production of IL-1β, IL-12 a NO after stimulation by TLR1, 2 and 6 ligands. This trend is, however, presumably influenced by the effect of...
|
guest ::
