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Studies on the production of human monoclonal antibodiesBell, Graham Thomas January 1988 (has links)
No description available.
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The recombinant expression and characterization of human neuron specific enolaseQuinn, Gregory Bernard January 1992 (has links)
No description available.
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Characterization of the IIIa protein of porcine adenovirus type 3Van Kessel, Jill Andrea 26 April 2006
The L1 region of the porcine adenovirus (PAdV)-3 genome encodes a protein of 622 amino acids named IIIa. Although it binds a neighboring group of nine (GON) hexons at the capsid level and cement the icosahedral shell that contains the viral DNA, little is known regarding its function with respect to viral life cycle. Moreover, the known location of IIIa protein in the capsid may help to express targeting ligands for altering the tropism of PAdV-3. The objective of this study was to characterize the IIIa protein of porcine adenovirus Type 3 (PAdV-3). <p> In order to characterize the IIIa protein, polyclonal antisera were raised in rabbits against different regions of IIIa. Anti-IIIa sera detected a specific protein of 70 kDa in PAdV-3 infected cells using Western blot assay. Immunofluorescence studies indicated that IIIa is predominantly localized in the nucleus of PAdV-3 infected cells. Analysis of PAdV-3 IIIa using antibodies specific for N- and C- terminal domains of the protein suggested that although the N-terminus and C-terminal domains of IIIa are immunogenic, they are not exposed on the surface of PAdV-3 virions. These results were further confirmed by our inability to isolate a chimeric PAdV-3 virion containing a heterologous protein fused to the N-terminus or C-terminus of IIIa. <p>Functional analysis suggested that IIIa may transactivate the major late promoter and down regulate the early region (E) 1A promoter. In order to locate the domains of IIIa responsible for different functions, in-frame deleted/truncated forms of IIIa were constructed. Analysis of the deleted/truncated forms of IIIa suggested that a) the sequences located between amino acids 273-410 and between amino acids 410-622b) affect the nuclear localization and transactivation function respectively.<p>Since protein- protein interactions are important for the biological functions of the protein, we determined the interaction of PAdV-3 IIIa with other viral proteins. IIIa was found to interact with DNA binding protein (DBP), E3 13.7 kDa protein, hexon, fiber, and pIX. These results suggest that PAdV3 IIIa may do more in the viral life cycle than merely act as cement between the hexons to maintain capsid stability and may actually be involved in regulating early to late gene transcription at appropriate stages during viral infection.
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Characterization of the IIIa protein of porcine adenovirus type 3Van Kessel, Jill Andrea 26 April 2006 (has links)
The L1 region of the porcine adenovirus (PAdV)-3 genome encodes a protein of 622 amino acids named IIIa. Although it binds a neighboring group of nine (GON) hexons at the capsid level and cement the icosahedral shell that contains the viral DNA, little is known regarding its function with respect to viral life cycle. Moreover, the known location of IIIa protein in the capsid may help to express targeting ligands for altering the tropism of PAdV-3. The objective of this study was to characterize the IIIa protein of porcine adenovirus Type 3 (PAdV-3). <p> In order to characterize the IIIa protein, polyclonal antisera were raised in rabbits against different regions of IIIa. Anti-IIIa sera detected a specific protein of 70 kDa in PAdV-3 infected cells using Western blot assay. Immunofluorescence studies indicated that IIIa is predominantly localized in the nucleus of PAdV-3 infected cells. Analysis of PAdV-3 IIIa using antibodies specific for N- and C- terminal domains of the protein suggested that although the N-terminus and C-terminal domains of IIIa are immunogenic, they are not exposed on the surface of PAdV-3 virions. These results were further confirmed by our inability to isolate a chimeric PAdV-3 virion containing a heterologous protein fused to the N-terminus or C-terminus of IIIa. <p>Functional analysis suggested that IIIa may transactivate the major late promoter and down regulate the early region (E) 1A promoter. In order to locate the domains of IIIa responsible for different functions, in-frame deleted/truncated forms of IIIa were constructed. Analysis of the deleted/truncated forms of IIIa suggested that a) the sequences located between amino acids 273-410 and between amino acids 410-622b) affect the nuclear localization and transactivation function respectively.<p>Since protein- protein interactions are important for the biological functions of the protein, we determined the interaction of PAdV-3 IIIa with other viral proteins. IIIa was found to interact with DNA binding protein (DBP), E3 13.7 kDa protein, hexon, fiber, and pIX. These results suggest that PAdV3 IIIa may do more in the viral life cycle than merely act as cement between the hexons to maintain capsid stability and may actually be involved in regulating early to late gene transcription at appropriate stages during viral infection.
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Potential Role of AhR in Antibody ProductionBhakta, Mili January 2020 (has links)
No description available.
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Mechanisms of impaired humoral immunity after high thoracic spinal cord injuryLucin, Kurt M. 23 August 2007 (has links)
No description available.
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Carcinogênese induzida por DMBA em camundongo selecionados para a alta ou baixa produção de anticorpos. / DMBA-induced carcinogenesis in mice selected for high or low antidoby production.Antonio, Aline Lavezo 13 June 2014 (has links)
A tumorigênese cutânea é determinada pela combinação de diversos fatores genéticos e ambientais, que envolvem múltiplos eventos onde as células epiteliais podem progredir e se desenvolverem. Todo esse processo é associado com alterações da imunidade celular e humoral. Muitos fatores físicos e químicos podem predispor ao câncer de pele, como o carcinógeno DMBA, com ação iniciadora e promotora. Camundongos geneticamente selecionados para a alta (High) ou baixa (Low) produção de anticorpos constituem uma excelente ferramenta para o estudo da influência da imunidade humoral no desenvolvimento de tumores. Foram avaliados camundongos das linhagens High e Low submetidos ao tratamento com o DMBA na pele após 48 horas, 120 e 240 dias. Mostramos que a linhagem selecionada para a maior produção de anticorpos (High) é a mais sensível ao tratamento com formação de lesões que progrediram para o desenvolvimento de papilomas, apresentando maior incidência e multiplicidade tumoral que os animais Low. Os machos da linhagem High também desenvolveram tumores nos pulmões em decorrência do tratamento com o DMBA na pele. O perfil de citocinas avaliado mostrou que os animais Low tem maior expressão gênica de IFN-g e IL-6 do que os animais High, e estes maior expressão de IL-1b e Cxcl2 que os animais Low após 48 horas do tratamento. A secreção de IL-6 também foi maior nos animais Low com 48 horas, sendo que a produção de TGF-b foi maior nos animais High aos 120 dias. Estes resultados sugerem que na linhagem High o perfil de resposta celular seja do tipo Th2 com produção de IL-10 e TGF-b, o que favorece o surgimento de tumores, e na linhagem Low, a resposta celular seja do tipo Th1, pela presença de IFN-g e TNF-α, favorecendo o reparo tecidual. Como não foram encontradas diferenças na via de metabolização pelas enzimas do citocromo P450 e no polimorfismo do receptor Ahr, outros fatores podem estar relacionados aos fenótipos observados. Assim, estas linhagens geneticamente selecionadas que diferem quanto à capacidade de secreção de anticorpos, representam uma nova ferramenta para o estudo de fatores genéticos que influenciam o microambiente na predisposição ao câncer. / The skin tumorigenesis is determined by the combination of various genetic and environmental factors, involving multiple events, where epithelial cells can progress and develop. This entire process is associated with changes in cellular and humoral immunity. Many physical and chemical factors may predispose to skin cancer, such as DMBA carcinogen with initiating and promoting action. Mice genetically selected for high (High) or low (Low) antibody production are an excellent tool for studying the influence of humoral immunity in the development of tumors. High and Low mice were treated with DMBA on the skin and, after 48 hours, 120 and 240 days, they were evaluated. We showed that High mice are more sensitive to DMBA treatment, presenting lesions that progressed to the development of papillomas and showing higher incidence and tumor multiplicity than Low ones. Males of High strain have also developed lung tumors as a result of treatment with DMBA on the skin. The profile of cytokines evaluated of Low animals showed that gene expression of IFN-g and IL-6 is more elevated than the one observed in High mice; on the other hand, IL- 1b and CXCL2 are increased in High animals, 48 hours after treatment. The secretion of IL-6 was also greater in Low animals, and TGF-b was higher in High animals, after 120 days of treatment. These results suggest that the High mice response has a Th2 profile with secretion of IL- 10 and TGF-b, which favors the growth of tumors; on the other hand, Low mice have a Th1 response, due to the presence of IFNg and TNFα, favoring tissue repair. As no differences were found in the enzymes of cytochrome P450 and in the polymorphism of Ahr receptor, other factors may be related to the observed phenotypes. Thus, these genetically selected mice which differ in the ability to secrete antibodies represent a new tool for the study of genetic factors influencing the microenvironment in its predisposition to cancer.
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CHARACTERIZATION AND APPLICATION OF MONOCLONAL ANTIBODIES AGAINST PORCINE EPIDEMIC DIARRHEA VIRUSWANG, YIN January 1900 (has links)
Master of Science / Department of Diagnostic Medicine/Pathobiology / Weiping Zhang / Porcine epidemic diarrhea virus (PEDV) causes acute diarrhea to pigs at all ages, resulting in high mortality rate of 80-100% in piglets less than one week old. Within one year after the outbreak in April 2013, PEDV has rapidly spread in the US and causes the loss of over 10% of the US pig population. Monoclonal antibody (mAb) is a key reagent for rapid diagnosis of PEDV infection. In this study, we produced a panel of mAbs against nonstructural protein 8 (nsp8), spike(S) protein, and nucleocapsid (N) protein of PEDV. Four mAbs were selected, which can be used in various diagnostic assays, including indirect immunofluorescence assay (IFA), enzyme-linked immunoabsorbent assay (ELISA), Western Blot, immunoprecipitation (IP), immunohistochemistry (IHC) test and fluorescence in situ hybridization (FISH). The mAb 51-79 recognizes amino acid (aa) 33-60 of nsp8, mAb 70-100 recognizes aa1371-1377 of S2 protein, and mAb 66-155 recognizes aa 241-360 of N protein, while mAb 13-519 is conformational. Using the mAb70-100, the immunoprecipitated S2 fragment was examined by protein N-terminal sequencing, and cleavage sites between S1 and S2 was identified. In addition, this panel of mAbs was further applied to determine the infection site of PEDV in the pig intestine. IHC test result showed that PEDV mainly located at the mid jejunum, distal jejunum and ileum. Results from this study demonstrated that this panel of mAbs provides a useful tool for PEDV diagnostics and pathogenesis studies.
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Antibody-mediated rejection of arterialised venous allografts is inhibited by immunosuppression in ratsSplith, Katrin, Jonas, Sven 14 March 2014 (has links) (PDF)
We determined in a rat model (1) the presence and dynamics of alloantibodies recognizing MHC complexes on quiescent Brown-Norway (BN) splenic cells in the sera of Lewis (LEW) recipients of Brown-Norway iliolumbar vein grafts under tacrolimus immunosuppression; and (2) the presence of immunoglobulins in the wall of acute rejected vein allografts.
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Characterization and application of monoclonal antibodies against porcine epidemic diarrhea virusWang, Yin January 1900 (has links)
Master of Science / Department of Diagnostic Medicine and Pathobiology / Weiping Zhang / Porcine epidemic diarrhea virus (PEDV) causes acute diarrhea to pigs at all ages, resulting in high mortality rate of 80-100% in piglets less than one week old. Within one year after the outbreak in April 2013, PEDV has rapidly spread in the US and causes the loss of over 10% of the US pig population. Monoclonal antibody (mAb) is a key reagent for rapid diagnosis of PEDV infection. In this study, we produced a panel of mAbs against nonstructural protein 8 (nsp8), spike(S) protein, and nucleocapsid (N) protein of PEDV. Four mAbs were selected, which can be used in various diagnostic assays, including indirect immunofluorescence assay (IFA), enzyme-linked immunoabsorbent assay (ELISA), Western Blot, immunoprecipitation (IP), immunohistochemistry (IHC) test and fluorescence in situ hybridization (FISH). The mAb 51-79 recognizes amino acid (aa) 33-60 of nsp8, mAb 70-100 recognizes aa1371-1377 of S2 protein, and mAb 66-155 recognizes aa 241-360 of N protein, while mAb 13-519 is conformational. Using the mAb70-100, the immunoprecipitated S2 fragment was examined by protein N-terminal sequencing, and cleavage sites between S1 and S2 was identified. In addition, this panel of mAbs was further applied to determine the infection site of PEDV in the pig intestine. IHC test result showed that PEDV mainly located at the mid jejunum, distal jejunum and ileum. Results from this study demonstrated that this panel of mAbs provides a useful tool for PEDV diagnostics and pathogenesis studies.
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