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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Preterm Exposure Pattern Alters Immunological Pattern, an Interim Analysis; Preliminary Data

Shah, Darshan S., Nandakumar, Subhadra, Jaishankar, Gayatri B., Chilakala, Sandeep, DeVoe, M., Kumaraguru, Uday 01 January 2009 (has links)
Abstract available through the Journal of Investigative Medicine.
42

Mechanisms of modulation of immune responses during blood-stage malaria

Ahvazi, Behrouz C. January 1994 (has links)
No description available.
43

The humoral immune response to streptococcal cell wall-induced arthritis in the rat.

Effertz, Bernard Stephen. January 1989 (has links)
I investigated the humoral immune response to streptococcal cell walls (SCW) in arthritis susceptible Lewis and resistant Fisher rats. All rats were given a single intraperitoneal injection of either SCW or saline (controls). Rats were sacrificed, three rats per time point, over an eleven week period and serum was collected for ELISA. SCW injected Lewis rats produced anti-SCW antibody, whereas control rats did not. Anti-SCW antibody was significantly elevated over controls between days 14-28 (post injection). Both saline and SCW injected Fisher rats produced anti-SCW antibody, but with different kinetics. Anti-SCW antibody increased by day 7 and remained elevated over controls till day 21, after which there was no difference. ELISA were designed to determine the SCW epitope(s) recognized by anti-SCW antibody. Formamide extracts of SCW, peptidoglycan and polysaccharide, were investigated along with the terminal epitope of polysaccharide, N-acetyl-D-glucosamine, and the peptidoglycan precursor peptide. The data revealed that anti-SCW antibody was directed against a combined SCW epitope, given the lack of significant binding to any of the SCW epitopes tested. Isotype analysis of anti-SCW antibody revealed that the Lewis response was composed primarily of IgG2a whereas the Fisher response was composed primarily of IgM. Binding of rat IgG isotypes to whole streptococcus, SCW, peptidoglycan, and polysaccharide was investigated, given the possibility of background binding by the streptococcal Fc-receptor. Streptococcal binding of rat IgG was specific for IgG2c and the polysaccharide portion of SCW was necessary for binding. Passive immunization of naive Lewis rats with antibody from rats with active arthritis was ineffective at transferring the disease. However, subcutaneous injection of affinity purified anti-SCW antibody or IgG into Lewis rats, followed twenty-four hours later by a single intraperitoneal injection of SCW, suppressed the acute phase and inhibited the chronic disease. IgM rheumatoid factor (RF) was present in the serum of both saline and SCW injected Lewis and Fisher rats. However, SCW injection only induced a significant increase in IgM RF (between days 3-7) in Lewis rats. Passive immunization of Fisher rats with affinity purified IgM RF (from Lewis serum), three days post SCW injection, was ineffective at inducing arthritis.
44

Immune response of human monocyte-derived dendritic cells to co-infection of influenza virus and Streptococcus pneumoniae

Wu, Yuet., 吳越. January 2010 (has links)
published_or_final_version / Paediatrics and Adolescent Medicine / Master / Master of Philosophy
45

Interleukin 17A and interleukin 23 in chronic hepatitis B and hepatocellular carcinoma

Li, Jian, 李健 January 2011 (has links)
published_or_final_version / Clinical Oncology / Doctoral / Doctor of Philosophy
46

Association of markers in genes of the growth hormone axis with the viral load in lymphoid tissues of chickens infected with Marek's disease virus

Linher, Katja. January 2000 (has links)
Vaccination against Marek's disease (MD) is greatly enhanced by host genetic resistance. Genes of the growth hormone (GH) axis have been reported to affect the ontogeny and effector functions of cells of the immune system. Two strains of White Leghorn chickens bred for contrasting homozygous markers in the GH and GH receptor (GHR) genes were challenged with MDV. Contrasts for the significant interaction between marker genotype and tissue indicated that the GH/GHR marker genotype caused a shift in the distribution of the viral load in lymphoid tissues in the two strains. The analysis suggests that genetic variations in genes of the GH axis may differentially affect the host response to MDV replication in lymphoid tissues. Regarding the early time course of infection, at day 6 the viral load was highest in the thymus, while at day 10, it was highest in the spleen, indicating that the virus may have accumulated in the spleen or was continuing to replicate in this tissue. (Abstract shortened by UMI.)
47

Investigation of the molecular adjuvant potential of Trypanosoma congolense BiP/HSP70 using congopain as model antigen.

Hadebe, Sabelo Goodman. 10 December 2013 (has links)
African animal trypanosomiasis is a major threat to African agriculture causing a loss estimated to 4.5 billion US$ per annum. Trypanosoma congolense is the major causative agent in African animal trypanosomiasis and is transmitted by tsetse flies of the Glossina spp. Congopain, a major cathepsin L-like cysteine peptidase in T. congolense is associated with trypanotolerance in N‘Dama cattle and is a target for an anti-disease vaccine. It is suggested that trypanotolerant cattle control the disease by antibody mediated neutralisation of congopain, and that immunisation of cattle against congopain can mimic trypanotolerance resulting in minimised disease pathology. Susceptible cattle immunised with recombinant catalytic domain of congopain, C2, produced high levels of anti-congopain IgG specific antibodies against congopain, maintained weight and exhibited less severe anaemia. However, there was no effect on the establishment of T. congolense infection and acute anaemia development in trypanosusceptible cattle. It has been suggested that failure of congopain to give full protection of the host may be due to poor presentation to the immune system by conventional adjuvants used in previous studies. The aim of the present study was to improve the presentation of the catalytic domain of congopain (C2) to the immune system, by linking it to the proposed molecular adjuvant, BiP, an ER localised HSP70. A further aim was to localise the domain(s) of BiP where the adjuvant properties reside. BiP consists of an ATPase domain (ATPD), a peptide binding domain (PBD) and a C-terminal domain (C-term). Consequently, BiP69, BiP69 lacking the C-terminal domain (BiP60), BiP coding fragments (ATPD, PBD and C-term) and the C2 coding sequence were amplified by PCR from either genomic T. congolense DNA or plasmid DNA. The PCR products were each sub-cloned into a pTZ57RT vector, and C2 cloned into a pET-28a expression vector. The BiP coding fragments were inserted into the recombinant pET-28a-C2 vector, resulting in pET-28a-BiP69-C2, pET-28a-BiP60-C2, pET-28a-ATPD-C2, pET-28a-PBD-C2 and pET-28a-C-term-C2 coding chimeras. The fusion proteins were expressed in an E. coli system as insoluble inclusion bodies at the expected sizes of 96 kDa (BiP69-C2), 88 kDa (BiP60-C2), 47 kDa (PBD-C2), 34 kDa (C-term-C2) and 27 kDa (C2). However, the ATPD-C2 fusion protein was expressed at a larger and smaller size in different attempts. Protein expression was confirmed by western blots using anti-BiP antibodies and anti-congopain N-terminal peptide antibodies. Recombinantly expressed peptide binding domain (PBD)-C2, C-terminus-C2, BiP69-C2, BiP60-C2 chimeras and a BiP69 fusion protein were purified and refolded by a Ni-NTA based one-step on-column refolding method. Bacterial proteins co-purifying with BiP69-C2 and BiP60-C2 chimeras were removed by incubation with 5 mM ATP in the dissociation buffer, but poor yields resulted in using these chimeras as non-pure proteins. Immunisation of Balb/c mice with the BiP69-C2 fusion protein chimera induced a higher antibody response to C2 compared to immunisation with the BiP69/C2 mixture or with C2 in Adjuphos/Quil A. BiP69-C2 and PBD-C2 chimeras and BiP69/C2 mixture induced a robust antibody response to BiP69, but no correlation could be made with the contribution to control of parasitemia and disease induced pathology. Mice immunised with BiP69-C2 and PBD-C2 chimeras showed a better booster effect of T. congolense infection with higher anti-C2 antibody stimulation compared to control groups. Immunisation did not change the establishment of T. congolense infection and anaemia development in most immunised groups. However, mice immunised with the BiP69/C2 mixture and with the PBD-C2 chimera produced anti-C2 antibodies possible contributing to clearing parasites 10 days and 16 days earlier respectively, than mice immunised with BiP69-C2, C-term-C2 and BiP60-C2 chimeras and PBS, C2 and C2 in Adjuphos/Quil A control groups and showed no clinical symptoms of the disease. There was no significant difference in percentage mice survival between BiP-C2 chimera immunised mice and control groups immunised with C2 alone or with a mixture of Adjuphos/Quil A or immunised with PBS. In the present study, it was shown that BiP69 has adjuvant effects when linked to C2 and that its peptide binding domain acts as an adjuvant. It is possible that the removal of the C-terminal domain reduced the adjuvant potency of the peptide binding domain suggesting a prominent role in the adjuvant effect of the BiP molecule. Finding the exact role of the C-terminal domain in the adjuvant effect of BiP would be of utmost interest, and would involve comparing anti-C2 antibody response produced by immunisation with C2 linked to the peptide binding domain with or without the C-terminal domain. Future work includes repeating this study in trypanosusceptible cattle to confirm these findings. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2011.
48

Identification of genetic markers associated with Marek's disease resistance in chickens

Masilamani, Twinkle Jasmine January 2003 (has links)
Marek's disease (MD) is a highly contagious and economically important disease in the poultry industry. It is caused by an oncogenic avian herpes virus. The ability of the virus to evolve into new strains is a continual threat. Vaccination, proper management and genetic resistance are required to completely eliminate the pathogen. The discovery of several markers associated with MD resistance shows that genetic selection for resistance is feasible. Our objective was to identify markers in QTL regions that are associated with MD viraemia. The markers analysed were in the ODC gene, the GH gene and two chemokine genes, all of which are candidate genes for immune responsiveness. A database in a commercial strain of White Leghorn chickens was created. Heterozygous males and homozygous females were identified. The offspring were challenged with MD virus and spleen and thymus samples were collected six days after infection. The viral titre was quantified using competitive PCR. The data was analysed using non-parametric statistics. We found that the paternal alleles of a Hindlll RFLP in the ODC gene were associated with differences in MD viraemia in one of the six sire families analysed. In addition, a Sacl RFLP located in the GH gene also segregated for alleles, which affected MD viraemia. The analysis of the ODC gene was extended to include a second RFLP at a Msp\ site. Together with the Hindlll RFLP it defines three different haplotypes. One genotypic class AB (Hindlll (+/-), Mspl (+/+)) was associated with low vireamia in the thymus and the genotype BB (Hindlll (-/-), Mspl (+/+)) with high viraemia in the spleen. The result suggests that genetic variations in the ODC and GH gene affect MD viraemia. However, we cannot exclude that the observed effects might be due to linkage disequilibrium with adjacent genes. In the latter case, chromosome 3 and chromosome 1, which harbour the ODC and GH gene respectively, must segregate for regions that affect viraemia. The markers identified in this analysis can be used in marker assisted selection.
49

Association of markers in genes of the growth hormone axis with the viral load in lymphoid tissues of chickens infected with Marek's disease virus

Linher, Katja. January 2000 (has links)
No description available.
50

Identification of genetic markers associated with Marek's disease resistance in chickens

Masilamani, Twinkle Jasmine January 2003 (has links)
No description available.

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