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Nuclear Magnetic Resonance Study of Antigen-Antibody Complexes, Including Sequence Specific Assignments and Structural Analysis of Neurophysin as an Antigen ModelBarbar, Elisar Jamil 01 January 1993 (has links)
The interaction between molecules is essential in a wide range of biological processes. A detailed knowledge of these interactions is necessary for understanding these processes. Among the systems that involve important interactions is the immune system. NMR spectroscopy has a large number of spectral parameters that were used in this work to study antibody-antigen interactions. These same parameters were also used to begin a structural analysis of a medium-sized protein, neurophysin, that has important interactions with neurohormones, and served here as a model antigen. A set of ligands differing in size and charge was designed and used to probe the binding site of anti-phosphocholine antibodies. These ligands ranged from small organic species to medium sized proteins. Amino acids, peptides and proteins were homogeneously linked to phenyl phosphocholine and analyzed by NMR techniques. Transferred nuclear Overhauser effect measurements were used to determine the conformation of bound ligands. The conformational change observed in some ligands was explained as either due to the antibody selecting one conformation that already exists, or the antibody binding inducing a conformational change. Titration data and detailed NMR analysis showed a more rigid M3C65 antibody fragment upon binding. In summary, with eight examples of ligands and four examples of antibodies studied by NMR, a spectrum of effects was seen, including a lock-and-key model and limited local induced fit. The contribution of the carrier molecule to antibody binding was in restricting the conformation of the ligand. Bigger ligands that are expected to be more immunogenic, showed less binding avidity as determined by immunological assays. Fluorinated ligands were synthesized to determine the kinetics of binding using 19F NMR spectra. Higher concentration of a fragment of the antibody M3C65 was analyzed to determine assignments of some residues in the combining site of the antibody. High resolution NMR techniques were used to assign resonances in neurophysin. The physiological role of neurophysin includes hormone storage and stabilization of oxytocin and vasopressin against proteolytic degradation within the posterior pituitary. Neurophysin is a 10 KD protein that dimerizes at high concentrations needed for NMR studies. An organic cosolvent was used to lower the dimerization constant, and hence inrease the spectral resolution. This permitted sequence-specific assignments that were then used to identify residues in the neurophysin-hormone binding site. Chemical shift differences and conformational changes were observed for the residues glutamate 47 and leucine 50. The 3₁₀ helix was further stabilized towards a more ideal helix upon hormone-analog peptide binding. Some of the residues contributing to the monomer-monomer interface were also assigned. Dimerization ill1duced chemical shift differences and conformational changes were observed for phenylalanine 35, threonine 38, and alanine 69. Tyrosine: 49 and phenylalanine 22 were affected but to a lesser extent. One characteristic of neurophysin in all studied cases was dynamic equilibrium between different folding states.
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Determinação de elementos de relevância clínica em tecidos biológicos decamundongos distróficos Dmdmdx/J por AAN / Elements determination of clinical relevance in biological tissues of Dmdmdx/j dystrophic mice strains investigated by NAAMetairon, Sabrina 14 March 2012 (has links)
Neste trabalho a determinação de elementos químicos em tecidos biológicos (sangue total, ossos e orgãos) de camundongos distróficos, usados como modelo animal da Distrofia Mucular de Duchenne (DMD), foi realizada utilizando técnica analítica nuclear. O objetivo do presente trabalho foi a determinação dos valores de referência para elementos de relevância em bioquímica clínica (Ca, Cl, K, Mg e Na) e nutricional (Br e S) em sangue total, tíbia, quadríceps anterior e coração de camundongos da linhagem distrófica Dmdmdx/J (10 machos e 10 fêmeas) e grupo controle C57BL/6J (10 machos), utilizando a técnica de Análise por Ativação com Nêutrons AAN. Para obter mais detalhes das alterações que esta disfunção pode causar nesses tecidos biológicos, foram calculadas matrizes de correlação entre as espécies Dmdmdx/J e comparadas ao grupo controle C57BL/6J. Para a realização deste estudo 119 amostras de tecidos biológicos foram irradiadas no reator nuclear IEA-R1 no IPEN (São Paulo, Brasil). Os resultados de análise, por AAN, constituem as primeiras estimativas para os valores de referência nesses tecidos biológicos dos camundongos Dmdmdx/J e C57BL/6J. Além disso, as alterações em alguns dos coeficientes de correlações entre os animais saudáveis e com disfunção indicam uma conexão entre esses elementos no sangue, tíbia, quadríceps e coração. Esses dados poderão auxiliar pesquisadores avaliar e comparar as vantagens e desvantagens dos diferentes tratamentos, realizados na distrofia muscular, quando estes modelos animais forem empregados, auxiliando os pesquisadores a avaliar a eficácia de novos procedimentos terapêuticos antes de serem empregados em paciente com DMD. / In this work the determination of chemistry elements in biological tissues (whole blood, bones and organs) of dystrophic mice, used as animal model of Duchenne Muscular Dystrophy (DMD), was performed using analytical nuclear technique. The aim of this work was to determine reference values of elements of clinical (Ca, Cl, K, Mg, Na) and nutritional (Br and S) relevance in whole blood, tibia, quadriceps and hearts from Dmdmdx/J (10 males and 10 females) dystrophic mice and C57BL/6J (10 males) control group mice, using Neutron Activation Analysis technique (NAA). To show in more details the alterations that this disease may cause in these biological tissues, correlations matrixes of the DMDmdx/J mouse strain were generated and compared with C57BL/6J control group. For this study 119 samples of biological tissue were irradiated in the IEA-R1 nuclear reactor at IPEN (São Paulo, Brazil). The concentrations of these elements in biological tissues of Dmdmdx/J and C57B/6J mice are the first indicative interval for reference values. Moreover, the alteration in some correlation coefficients data among the elements in the health status and in the diseased status indicates a connection between these elements in whole blood, tibia, quadriceps and heart. These results may help the researchers to evaluate the efficiency of new treatments and to compare the advantages of different treatment approaches before performing tests in patients with muscular dystrophy.
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Determinação de elementos de relevância clínica em tecidos biológicos decamundongos distróficos Dmdmdx/J por AAN / Elements determination of clinical relevance in biological tissues of Dmdmdx/j dystrophic mice strains investigated by NAASabrina Metairon 14 March 2012 (has links)
Neste trabalho a determinação de elementos químicos em tecidos biológicos (sangue total, ossos e orgãos) de camundongos distróficos, usados como modelo animal da Distrofia Mucular de Duchenne (DMD), foi realizada utilizando técnica analítica nuclear. O objetivo do presente trabalho foi a determinação dos valores de referência para elementos de relevância em bioquímica clínica (Ca, Cl, K, Mg e Na) e nutricional (Br e S) em sangue total, tíbia, quadríceps anterior e coração de camundongos da linhagem distrófica Dmdmdx/J (10 machos e 10 fêmeas) e grupo controle C57BL/6J (10 machos), utilizando a técnica de Análise por Ativação com Nêutrons AAN. Para obter mais detalhes das alterações que esta disfunção pode causar nesses tecidos biológicos, foram calculadas matrizes de correlação entre as espécies Dmdmdx/J e comparadas ao grupo controle C57BL/6J. Para a realização deste estudo 119 amostras de tecidos biológicos foram irradiadas no reator nuclear IEA-R1 no IPEN (São Paulo, Brasil). Os resultados de análise, por AAN, constituem as primeiras estimativas para os valores de referência nesses tecidos biológicos dos camundongos Dmdmdx/J e C57BL/6J. Além disso, as alterações em alguns dos coeficientes de correlações entre os animais saudáveis e com disfunção indicam uma conexão entre esses elementos no sangue, tíbia, quadríceps e coração. Esses dados poderão auxiliar pesquisadores avaliar e comparar as vantagens e desvantagens dos diferentes tratamentos, realizados na distrofia muscular, quando estes modelos animais forem empregados, auxiliando os pesquisadores a avaliar a eficácia de novos procedimentos terapêuticos antes de serem empregados em paciente com DMD. / In this work the determination of chemistry elements in biological tissues (whole blood, bones and organs) of dystrophic mice, used as animal model of Duchenne Muscular Dystrophy (DMD), was performed using analytical nuclear technique. The aim of this work was to determine reference values of elements of clinical (Ca, Cl, K, Mg, Na) and nutritional (Br and S) relevance in whole blood, tibia, quadriceps and hearts from Dmdmdx/J (10 males and 10 females) dystrophic mice and C57BL/6J (10 males) control group mice, using Neutron Activation Analysis technique (NAA). To show in more details the alterations that this disease may cause in these biological tissues, correlations matrixes of the DMDmdx/J mouse strain were generated and compared with C57BL/6J control group. For this study 119 samples of biological tissue were irradiated in the IEA-R1 nuclear reactor at IPEN (São Paulo, Brazil). The concentrations of these elements in biological tissues of Dmdmdx/J and C57B/6J mice are the first indicative interval for reference values. Moreover, the alteration in some correlation coefficients data among the elements in the health status and in the diseased status indicates a connection between these elements in whole blood, tibia, quadriceps and heart. These results may help the researchers to evaluate the efficiency of new treatments and to compare the advantages of different treatment approaches before performing tests in patients with muscular dystrophy.
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