Global ETD Search

111	Part 1: An Investigation Of Protein: Protein Interactions Related To Hypertension And Pertussis; Part 2: The Use Of Municipal Wastewater As A Medium For Cultivation And Induction Of Lipid Synthesis In The Oleaginous Yeast Rhodotorula Glutinis Hetrick, Mary Michelle 10 December 2010 (has links) The Renin Angiotensin System (RAS) plays a vital role in the regulation of blood pressure and fluid homeostasis. RAS is regulated via the hormone Angiotensin II through an association with the Na+/H+ exchanger NHE6. Here, NHE6 was found to be activated by Angiotensin II through the Angiotensin II AT1 receptor. Furthermore, it was shown that NHE6 requires phosphorylation for activation and this phosphorylation signaling mechanism does not involve phospholipase C. The elucidation of the signaling pathway associated with NHE6 and AT1 allows for the greater understanding of function and regulation of the NHE6 protein. The Angiotensin receptor AT2 is a G-coupled protein receptor (GPCR) that is highly expressed in infant neural tissue. The S1 subunit of the pertussis toxin can inhibit GPCR signaling via ADP-ribosylation of the cognate Gi protein, suggesting that the S1 subunit may interfere with AT2 signaling. In order to observe whether S1 associates with AT2, Chinese hamster ovary cells were transfected with plasmids expressing AT2 or mutants of AT2. The lysates of these cells were incubated with His-tagged S1 subunit and it was observed that only the wild-type AT2 co-immunoprecipitated with S1. These results imply that there is a direct interaction between the S1 subunit and AT2. Municipal wastewater can be considered as an effective growth medium for the cultivation of microorganisms due to organic material found in the water. Oleaginous microorganisms produce large amounts of triacylglycerols (TAGs) when cultivated on medium containing high sugar content and low nitrogen. These TAGs can then be converted into biodiesel. To determine if the oleaginous yeast Rhodotorula glutinis could survive and synthesize lipids using wastewater as a cultivation medium, R. glutinis was inoculated into primary effluent wastewater supplemented with glucose. Results indicated that R. glutinis was able to survive and synthesize lipids in the wastewater which is suggestive that R. glutinis can successfully compete with indigenous microorganisms in the wastewater. Rhodotorula glutinis Oleaginous Microorganisms Pertussis Toxin NHE6 Angiotensin II AT2 AT1
112	An Analysis of the Effects of Pertussis Toxin on T Cell Signaling Schneider, Olivia Dawn January 2009 (has links) No description available. Microbiology T cells Pertussis toxin B subunit Jurkat TCR signaling CXCR4
113	Bordetella pertussis: participação da arginase, TGF-b e TLR4 no controle da síntese de óxido nítrico em macrófagos derivados de medula óssea murina. / Bordetella pertussis: Involvement of arginase, TGF-b and TLR4 in the control of nitric oxide synthesis in macrophages derived from murine bone marrow. Rosetti, Andreza da Silva 20 May 2009 (has links) Bordetella pertussis e Bordetella parapertussis são os principais agentes causadores da coqueluche no homem. O óxido nítrico é fundamental para o controle de diversos processos fisiopatológicos. Neste trabalho analisamos sinais moleculares envolvidos na produção de NO em macrófagos derivados de medula óssea murina (BMDMO) infectadas por Bpertussis e Bparapertussis. Nossos resultados mostraram que BMDMO de C57BL/6 estimulados com Bpertussis não sintetizaram níveis significativos de nitrito, ao contrário da infecção com Bparapertussis. BMDMO de C57BL/6 infectados por Bpertussis e Bparapertussis produziram níveis elevados de arginase e de TGFb e esta produção foi dependente de TLR4, porém a produção de NO pelos BMDMO de C3H/HeJ infectados com Bparapertussis foi independente deste receptor. A adição exógena de PT em BMDMO infectados com Bparapertussis reduziu a quantidade de NO sintetizada. Concluímos que TGFb e arginase contribuem para o controle da produção de NO durante a infecção in vitro de BMDMO com Bpertussis e este mecanismo depende de LPS envolvendo TLR4 e PT. / Bordetella pertussis and Bordetella parapertussis are the main etiologic causes of human whooping cough. Nitric oxide (NO) is crucial for several physiopathologic events. Herein we analyzed the molecular signals required for NO production by murine bone marrow-derived macrophages (BMDM) infected with Bpertussis or Bparapertussis. Our data show that BMDM obtained from C57Bl/6 mice was not able to produce measurable levels of nitrite when stimulated with Bpertussis while infection of these cells with Bparapertussis induced high levels of nitrite. Arginase and TLR4-dependent TGF-b were produced in response to infection with either Bpertussis or Bparapertussis. NO production by BMDM obtained from C3H/HeJ mice occurred after Bparapertussis infection in the absence of TLR4. Addition of pertussis toxin to the C57Bl/6 BMDM cultures infected with Bparapertussis decreased NO levels. In conclusion, TGF-b and arginase play a role controlling NO production by BMDM during in vitro infection by Bpertussis. This effect depends on the presence of LPS-TLR4 and PT signaling pathways. B. pertussis B. pertussis Anaerobic bacteria gram-negative Arginase Arginase Bactérias anaeróbicas gram-negativas Biotechnology Biotecnologia Immune regulation Macrófagos Macrophage Nitric oxide Óxido nítrico Regulação imune TGF-b TGF-b
114	Bordetella pertussis: participação da arginase, TGF-b e TLR4 no controle da síntese de óxido nítrico em macrófagos derivados de medula óssea murina. / Bordetella pertussis: Involvement of arginase, TGF-b and TLR4 in the control of nitric oxide synthesis in macrophages derived from murine bone marrow. Andreza da Silva Rosetti 20 May 2009 (has links) Bordetella pertussis e Bordetella parapertussis são os principais agentes causadores da coqueluche no homem. O óxido nítrico é fundamental para o controle de diversos processos fisiopatológicos. Neste trabalho analisamos sinais moleculares envolvidos na produção de NO em macrófagos derivados de medula óssea murina (BMDMO) infectadas por Bpertussis e Bparapertussis. Nossos resultados mostraram que BMDMO de C57BL/6 estimulados com Bpertussis não sintetizaram níveis significativos de nitrito, ao contrário da infecção com Bparapertussis. BMDMO de C57BL/6 infectados por Bpertussis e Bparapertussis produziram níveis elevados de arginase e de TGFb e esta produção foi dependente de TLR4, porém a produção de NO pelos BMDMO de C3H/HeJ infectados com Bparapertussis foi independente deste receptor. A adição exógena de PT em BMDMO infectados com Bparapertussis reduziu a quantidade de NO sintetizada. Concluímos que TGFb e arginase contribuem para o controle da produção de NO durante a infecção in vitro de BMDMO com Bpertussis e este mecanismo depende de LPS envolvendo TLR4 e PT. / Bordetella pertussis and Bordetella parapertussis are the main etiologic causes of human whooping cough. Nitric oxide (NO) is crucial for several physiopathologic events. Herein we analyzed the molecular signals required for NO production by murine bone marrow-derived macrophages (BMDM) infected with Bpertussis or Bparapertussis. Our data show that BMDM obtained from C57Bl/6 mice was not able to produce measurable levels of nitrite when stimulated with Bpertussis while infection of these cells with Bparapertussis induced high levels of nitrite. Arginase and TLR4-dependent TGF-b were produced in response to infection with either Bpertussis or Bparapertussis. NO production by BMDM obtained from C3H/HeJ mice occurred after Bparapertussis infection in the absence of TLR4. Addition of pertussis toxin to the C57Bl/6 BMDM cultures infected with Bparapertussis decreased NO levels. In conclusion, TGF-b and arginase play a role controlling NO production by BMDM during in vitro infection by Bpertussis. This effect depends on the presence of LPS-TLR4 and PT signaling pathways. B. pertussis Arginase Bactérias anaeróbicas gram-negativas Biotecnologia Macrófagos Óxido nítrico Regulação imune TGF-b B. pertussis Anaerobic bacteria gram-negative Arginase Biotechnology Immune regulation Macrophage Nitric oxide TGF-b
115	Adenylátcyklázový toxin Bordetella pertussis jako marker pro studium endocytózy komplementového receptoru CD11b/CD18. / Adenylate-cyclase toxin of Bordetella pertussis as a marker for the study of the complement receptor CD11b/CD18 endocytosis. Chvojková, Věra January 2012 (has links) Bordetella pertussis is an important human pathogen that causes an infection disease called whooping cough. This gram-negative bacterium produces an adenylate cyclase toxin (CyaA) that recognizes an integrin receptor CD11b/CD18 present on the surface of myeloid phagocytes and delivers an adenylate cyclase (AC) domain into the cell cytosol. This thesis deals with the endocytic machinery of CyaA and its potential use as a specific marker for endocytosis of the CD11b/CD18 receptor molecule. Detoxified mutant of CyaA, CyaA-AC- , that has the capacity to promote calcium influx as well the potassium efflux, was shown to trigger activation of the integrin receptor CD11b/CD18 followed with endocytic uptake by clathrin-dependent pathway. On the other side, the inactive mutant CyaA-KP-AC- that is unable to provoke integrin activation was endocytosed by clathrin-independent pathway. These results suggest that the various endocytic pathways of the CD11b/CD18 are determined by different conformational states of the receptor molecule.
116	An Ecological Perspective on Pertussis Goard, Jody Ruth 01 January 2016 (has links) In 2012, 48,277 cases of pertussis were diagnosed in the United States. Pertussis, otherwise known as whooping cough, is a highly contagious, often debilitating, sometimes deadly, vaccine-preventable disease with an increasing incidence and death rate in the U.S, which may be due to vaccine exemptions. The purpose of this project was to determine if a relationship exists between immunization policies and immunization exemption rates, immunization exemption rates and pertussis rates, and immunization policies and pertussis rates in each state. Bronfenbrenner's bio-ecological framework was used to guide the project. Publically available data from the Centers for Disease Control and Prevention (CDC), schools of public health, state health departments, and public health officials were retrieved for this cross-sectional, ecological comparison study. Spearman's r product-moment correlation coefficient was used to investigate the relationship between the variables. States with lenient vaccine laws had higher exemption rates (r = .359, p < .01), and states with higher exemption rates had higher pertussis rates (r = .470, p < .01). Finally, states with lenient vaccine laws had higher pertussis rates (r = .111, p = 0.439). This project should be added to the literature used to inform and educate the public as well as influence policy makers. As a result of this study, arguments for eliminating non-medical vaccine exemptions should be strengthened. As policies are changed, social change should follow in the form of decreased immunization exemption rates and decreased pertussis rates. Immunization exemption Immunization policy Pertussis rate Vaccine exemption Vaccine preventable disease rate Public Health Education and Promotion Public Policy
117	Analyse du contrôle allostérique et prédiction de structure pour une toxine de pathogène : l'apport des simulations de dynamique moléculaire Selwa, Edithe 25 September 2012 (has links) (PDF) La protéine CyaA est un facteur de virulence majeur de Bordetella pertussis, impliqué dans la maladie de la coqueluche. Le domaine catalytique AC de CyaA est directement transféré dans la cellule hôte eucaryote, où il est activé comme adénylcyclase par la calmoduline, une protéine ubiquitaire et sensible aux ions calcium. Ainsi, AC transforme l'ATP en AMPc de manière incontrôlée, ce qui conduit à des dérèglements cellulaires. Seule la structure de AC complexé à la calmoduline chargée d'ions calcium avait été résolue par cristallographie aux rayons X. À partir de cette structure, des simulations de dynamique moléculaire de AC libre, et en complexe avec la calmoduline nous ont permis de caractériser l'effet de la calmoduline et des ions calcium sur la plasticité conformationnelle du complexe. Les tendances conformationelles de AC libre ont aussi été étudiées. L'analyse conjointe des influences énergétiques et des liaisons hydrogène a révélé un réseau d'interactions entre AC et la calmoduline, dans lequel trois résidus clés, susceptibles de jouer un rôle allostérique sur l'activité de l'adénylcyclase ont été modifiés par mutagenèse dirigée. Ces tests expérimentaux ont conduits à la mise en évidence d'une région allostérique qui assure la communication de l'information de transition conformationnelle entre le site de fixation de la calmoduline et le site catalytique. Une exploration conformationnelle plus approfondie de AC à l'état non-lié a été entreprise par une méthode innovante de dynamique accélérée par la température (TAMD). Elle nous a conduit à la prédiction de conformations échantillonnées de AC dans son état libre. Ces prédictions pourraient être utilisées à l'avenir pour stabiliser l'état libre et faciliter l'étude expérimentale de sa structure Bordetella pertussis calmoduline calcium dynamique moléculaire allostérie TAMD
118	Identification Of The New Immunogenic Proteins Of Bordetella Pertussis By Immunoproteomics Altindis, Emrah 01 April 2007 (has links) (PDF) The genus Bordetella contains several pathogenic species generally associated with upper respiratory tract infections in warm-blooded animals. Bordetella pertussis is the etiologic agent of whooping cough. Whooping cough is presently one of the ten most common causes of death from infectious diseases and reported by the World Health Organisation (WHO) to cause 50 million cases and 350000 deaths worldwide per year, mainly among unvaccinated individuals in poor countries. The term proteome, in analogy to the term genome, was coined to describe the complete set of proteins that an organism has produced under a defined set of conditions. Proteomics has been used to identify novel bacterial vaccine candidates against several human pathogens. Fueled by growing DNA sequence information, the analysis of the proteome becomes a valuable and useful tool for antigen discovery. Much of information about immunogenic component can be derived from proteomics coupled to Western blotting, namely immunoproteomics. v In the present study, we report first immunoproteomics analysis to identify candidate antigens of B. pertussis for vaccine development. Different sera from mice, which were immunized or challenged with B. pertussis, were analyzed for reactivity by Western blot against whole cell extracts of B. pertussis Tohama and Saadet strains separated by 2-DE. We identified 15 immunogenic proteins of Bordetella pertussis as a total (60 kDa chaperonin, heat shock protein, serum resistance protein, putative substrate-CoA ligase, ATP-dependent protease, preprotein translocase secA subunit, S-adenosylmethionine synthetase, elongation factor Tu, RNA polymerase alpha subunit, ketol-acid reductoisomerase, pertactin, lysyl-tRNA synthetase, serum resistance protein, carbamoyl-phosphate synthase large chain, 30S ribosomal protein S1 subunit), 6 of which being identified as immunogenic in a pathogenic microbe (ATP-dependent protease, carbamoylphosphate synthase large chain, lysyl-tRNA synthetase, putative chromosome partition protein, preprotein translocase secA subunit, 30S ribosomal protein S1 subunit) and 5 identified as immunogenic for Bordetella pertussis (RNA polymerase alpha subunit, S-adenosylmethionine synthatase, putative substrate-CoA ligase, elongation factor Tu, ketol-acid reductoisomerase) for the first time. QR Antigen-Antibody Reactions 187-187.3
119	Assessment Of Immune Protective Capacity Of The Recombinant Iron-superoxide Dismutase (fesod) From Bordetella Pertussis Apak, Aycan 01 December 2011 (has links) (PDF) Whooping cough (pertussis) is a highly contagious acute respiratory disease caused by the strict human pathogen Bordetella pertussis, a gram-negative coccobacillus. The worldwide mass-vaccination was started in 1940s and to date, a number of whole-cell (Pw) and acellular pertussis vaccine (Pa) formulations were developed. Yet the current vaccines are incapable of providing sustained, lifelong immunity and eliminating subclinical infections, which pose a threat especially for unimmunized infants as well as adolescents and adults. Thus, finding new protein candidates with high immune protective capacities is necessary to enhance the clinical efficacy of current acellular pertussis (Pa) vaccines. In this study, iron-superoxide dismutase (FeSOD) protein was investigated for its capacity of conferring protectivity as well as stimulating humoral and cellular responses against B. pertussis infection in a mouse model. For this purpose, sodB gene, which encodes iron-superoxide dismutase FeSOD protein, was amplified from the genomic DNA of the universal B. pertussis strain &lsquo / Tohama I&rsquo / and sequentially cloned to pGEM&reg / -T subcloning and pET-28a(+) expression vectors. Afterwards sodb/pET28a(+) construct was introduced to E. coli BL21(DE3) cells and the gene was overexpressed therein via IPTG induction. The expressed FeSOD protein was then purified by affinity chromatography and its previously reported immunogenicity was confirmed by Western blot. After filter-sterilization, the protein was adsorbed to alum [Al(OH)3] adjuvant and introduced to BALB/c twice at three weeks intervals intraperitoneally at a concentration of 20 &mu / g purified FeSOD protein/mouse. Another group of mice were immunized in tandem with heat-inactivated whole-cell suspension of B. pertussis. Ten days after the second immunization, mice were intranasally challenged with the local &lsquo / Saadet&rsquo / strain of B. pertussis. Next the lungs of groups of mice were excised, homogenized and plated as serial dilutions on days 5, 8 and 14 post-challenge, and viable lung CFU counts were carried out. Whole cell immunization conferred complete bacterial clearance following B. pertussis intranasal infection while FeSOD immunization failed to attain such protection. In addition to the protectivity assay, ELISA was performed to assess the humoral (i.e. IgG) immune response triggered upon FeSOD- and whole-cell immunizations and a statistically significant increase in anti-FeSOD IgG production was observed in FeSOD-immunized group. Finally, cellular immune response was tested via cytokine (IFN-&gamma / ) assay, in which spleens of mice were excised, splenocytes were cultured and the level of IFN-&gamma / production upon FeSOD addition to the cultures was measured via ELISA. This test showed that whole-cell immunization triggered IFN-&gamma / production at significant levels while FeSOD-immunization did not / indicating the failure of alum-adsorbed FeSOD immunization in inducing cell-mediated immune response. QR Vaccines 189-189.5
120	PSF - Programa de Saude da Familia: comparando a mortalidade infantil, cobertura vacinal e hospitalizacoes, entre municipios com e sem o programa no Estado de Sao Paulo Cruz, Mariangela Guanae Bortolo da. January 2002 (has links) Mestre -- Universidade de Sao Paulo. Faculdade de Saude Publica. Departamento de Saude Materno-Infantil, Sao Paulo, 2002.

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