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Classical and non-classical major histocompatibility complex class II genes in the chickenParker, Aimée Dawn January 2013 (has links)
No description available.
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Investigation into the immunogenicity of human leukocyte antigen mismatches in kidney transplantationKosmoliaptsis, Vasilis January 2011 (has links)
No description available.
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Synthesis and oxidation studies of sulfur containing inhibitors for human leukocyte elastase : (2) synthesis of cyclic peptide analogs for tissue factor pathway inhibitor (TFPI) : Part 2 synthesis and evaluation of aziridinecarboxylic acid analogs as a new family of cysteine proteinase inhibitorsYamamoto, Masaru 08 1900 (has links)
No description available.
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Human lymphocyte antigens.Hammond., Michael Graham. January 1992 (has links)
This thesis embodies much of my work done over the past 25 years. The impetus
for these studies was the need to provide the best tissue typing available for organ
transplantation and to overcome the problems of defining HLA antigens in
different ethnic groups. These goals were achieved by extensive international
collaboration and participation in the International Histocompatibility Workshops.
The discovery that the HLA antigens are associated with many diseases led to an
epidemic of investigations in which over 500 diseases have been studied. In
retrospect, it is not surprising that auto-immune diseases such as diabetes and
rheumatoid arthritis showed such marked associations with HLA antigens. The
studies in Part II of this thesis were aimed at finding out if the HLA associations
reported in Caucasian populations were also present in the Black and Indian
populations.
These research interests led to my being invited by the National Science Council
of the Republic of China in Taiwan to be a Visiting Professor at the National
Taiwan University in Taipei for the 1989 academic year. I investigated the
association between HLA and naso-pharyngeal carcinoma in Chinese during that
year.
I wish to express my appreciation to Dr Peter Brain who inspired the early
investigations and continued to encourage and support my research. I am grateful
to all my co-authors and the many colleagues, clinicians and laboratory staff who
have contributed to the various research programmes.
Studies of the relationship of the HLA system to cancer, diabetes, arthritis and
other diseases have been supported in part by grants from the National Cancer
Association and the Medical Research Council of South Africa. / Thesis (D.Sc.)-University of Natal, Durban, 1992.
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The role of calnexin, calreticulin and heavy chain glycosylation in MHC class I assemblyAdhikari, Raju January 2002 (has links)
Class I heavy chain (HC) must assemble with β-microglobulin (β2m) and acquire optimal peptide in order to be presented to cytotoxic T cells (CTLs). Calnexin is involved in the initial folding of class I HC and subsequent assembly with β2m. Incorporation of "empty" or suboptimally loaded class I molecules into the multimolecular loading complex is essential for them to acquire optimal peptides. The loading complex consists of several cofactors: TAP, tapasin, ERp57 and calreticulin. The precise role of calnexin and calreticulin in the regulated assembly and peptide loading and the significance of their physical interaction with other cofactors of the loading as well as preloading complex still remains unclear. Using mouse fibroblasts that lack calreticulin, I have studied the role of calreticulin in the assembly and loading of H2-K<sup>b</sup> and H2-D<sup>b</sup> expressed in these cells. MHC class I molecules in calreticulin-deficient cells are able to assemble with β2m normally, but their subsequent loading with optimal, stabilising peptides is defective despite their ability to interact with the TAP complex. The "empty" or suboptimally loaded class I molecules exit the ER rapidly. Reflecting the loading defect, presentation of endogenously processed antigens by class I molecules in calreticulin-deficient cells is impaired. I have used a human calnexin-deficient cell line CEM.NK<sup>R</sup> to study assembly of class I in the absence of calnexin. The results demonstrate that contrary to current understanding, calnexin has an important role in class I HC assembly with 32- microglobulin. The role of heavy chain glycosylation in class I biogenesis is still controversial. My findings suggest asparagine (N)-linked glycosylation of human class I heavy chain at position 86 is optimal and any deviations from "normal" glycosylation results in poor loading with peptides and some defect in the assembly with β2m. Despite affecting the loading function, glycosylation did not have significant effect on presentation of a high affinity binding epitope to HLA-A*0201 specific CTLs. Finally, I show that co-operation from all domains of calreticulin is essential in order to generate a fully functional calreticulin. Interestingly, proline-rich (P) -domain of calreticulin downregulated expression of a number of cellular proteins including MHC class I HC, despite restoring the cytosolic calcium levels in calreticulindeficient cells. The effect of P-domain on class I expression was at the level of transcription.
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An evolutionary and functional analysis of the extended B7 family of costimulatory moleculesIaboni, Andrea January 2002 (has links)
No description available.
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Environmental, social, and genetic factors predisposing Xenopus laevis tadpoles to infectionBarribeau, Seth January 2007 (has links)
This work examines the ecological, social and genetic factors that predispose amphibians to infection. In the last 30 years many amphibian populations have declined due to infectious disease, although few researchers have studied the factors involved in mediating amphibian infection. My research is designed to explore some of these factors. I first examined the effects of crowding, kin composition (the relatedness of individuals in a group), and habitat complexity on the growth and survival of Xenopus laevis tadpoles exposed to the bacterial pathogen Aeromonas hydrophila. In tadpoles, stress, and in particular corticosterone, a hormone associated with stress, is known to inhibit growth. Crowding, kin composition, and habitat complexity have all been linked to tadpole growth. As corticosterone exposure is also linked to reduced immune function, I examined how these ecological factors influence tadpoles' disease resistance. Tadpoles exposed to the bacterium were significantly smaller and more likely to die than control tadpoles. Tadpoles reared only with siblings (pure sibship groups) were larger, less variable in size, and had lower mortality rates than tadpoles reared in mixed sibship groups. The size difference between pure and mixed sibship groups was greatest when they were exposed to the pathogen. Habitat complexity reduced size variation within tanks but did not affect mean tadpole size. Mixed kinship composition and high tadpole density can increase competition, reduce growth, and increase disease susceptibility. These results indicate that growth was inhibited by pathogen exposure but kin association may ameliorate this effect. The Major Histocompatibility Complex (MHC) is an integral part of the vertebrate adaptive immune system. To determine the importance of the MHC in conferring disease resistance in amphibians, I challenged X. laevis tadpoles, bearing different combinations of four MHC haplotypes (f, g, j, and r), with A. hydrophila in two experiments. Exposure to A. hydrophila affected the growth and survival of these tadpoles and that the MHC moderated these effects. Tadpoles with two MHC haplotypes (r and g) were susceptible to this pathogen and tadpoles with the other two haplotypes (f and j) were resistant. Heterozygous tadpoles with both susceptible and resistant haplotypes were always intermediate to either homozygotes in size and survival. These results demonstrate that MHC genotype plays a major role in determining the impact of bacterial pathogens on the growth and survival of X. laevis tadpoles. To test whether the effect of exposure to pathogens differs according to the similarity of the hosts I challenged tadpoles with natural levels of the microorganisms associated with different MHC genotypes by exposing the tadpoles to water preconditioned by adults of different MHC genotypes. If the pathogens are adapted to the MHC genotype of their hosts, tadpoles exposed to water from adults with which they shared MHC haplotypes would be more susceptible than those exposed to water from MHC-dissimilar adults. Alternatively, if the hosts are adapted to their pathogens tadpoles may be more resistant to pathogens from MHC-similar frogs than those from MHC-dissimilar frogs. I found that tadpoles exposed to water from MHC-dissimilar animals developed faster, but without increased growth, and were more likely to die than those exposed to water from MHC-similar animals. Furthermore, there was an optimal difference between the tadpoles’ and the donors’ MHC where tadpoles were sufficiently different to the donor to defend against its locally adapted pathogens, and sufficiently similar to not be exposed to especially virulent foreign pathogens. Finally, I present an inventory of bacteria found in the gut and skin (nonsystemic sites) and heart, muscle, and abdominal cavity (systemic sites) of captive frogs. I found several species of bacteria previously identified as amphibian pathogens and many bacteria in systemic sites that have not been considered pathogenic to amphibians. None of the frogs tested positive for the amphibian chytrid fungus, Batrachochytrium dendrobatidis. I discuss the potential importance of these species of bacteria as amphibian pathogens and as protective probiotics, using New Zealand frogs as a case study. In its sum, this work describes some of the factors that can affect amphibians’ ability to resist disease. I show that the genetic constitution of an individual, specifically in terms of the MHC, affects the impact of a disease, and so too does its social and ecological conditions, including the level of crowding, the kinship of its groupmates and the specific microbial challenges of its immediate environment. I also show that many of the factors linked to tadpole growth and development that are well described in other amphibians also affect Xenopus tadpoles.
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Polymorphism in chicken immune response genes and resistance to diseaseO'Neill, Ann Marie, Ewald, Sandra J. January 2007 (has links) (PDF)
Dissertation (Ph.D.)--Auburn University, 2007. / Abstract. Vita. Includes bibliographic references.
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Application of molecular genetic techniques to the study of major histocompatibility complex class II allelic associations with insulin-dependent diabetes mellitus in Chinese /Chang, Yea-wen. January 1997 (has links)
Thesis (M. Phil.)--University of Hong Kong, 1997. / Includes bibliographical references (leaf 118-137).
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Studies on [beta]2-microglobulin and transplantation antigensSege, Karin. January 1980 (has links)
Thesis (doctoral)--University of Uppsala, 1980. / Includes bibliographical references (p. 33-41).
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