Global ETD Search

1	The biochemistry of the activation of the alternative pathway of complement Farries, T. C. January 1985 (has links) No description available. 572 Properdin structural studies
2	Structural studies on rhodopsins Al-Saleh, S. S. H. January 1987 (has links) No description available. 572 Rhodopsins structural studies
3	Structural studies on some framework silicates Eddy, M. M. January 1987 (has links) No description available. 530.41 Structural studies of zeolites
4	Estudos estruturais da SEPT8 e análise de suas interações com SEPT5 e SEPT7 / Structural studies of SEPT8 and analysis of its interaction with SEPT5 and SEPT7 Morais, Sinara Teixeira do Brasil 29 May 2014 (has links) Septinas são proteínas que ligam GTP e interagem entre si formando heterocomplexos, os quais formam filamentos e estruturas de maior nível de organização. Tais filamentos, além de se mostrarem importantes durante a citocinese também podem estar envolvidos em outros processos celulares tais como determinação da polaridade celular e reorganização do citoesqueleto. As septinas, inicialmente descobertas em Saccharomyces cerevisiae, já foram identificadas também em fungos, algas-verdes, mamíferos, porém nunca em plantas. Tipicamente, septinas apresentam três domínios estruturais compostos por um domínio central de ligação ao GTP flanqueado por um N-terminal variável e um C-terminal que pode conter sequências do tipo coiled-coil. Este trabalho teve como objetivo a caracterização do domínio de ligação a GTP da septina 8 humana (SEPT8G) por meio de estudos biofísicos. Nesse sentido, SEPT8G foi eficientemente produzida em E. coli, tendo seu estado dimérico em solução confirmado por cromatografia de exclusão molecular. Diferentemente das outras septinas já reportadas, mesmo dimérica a SEPT8G apresentou-se na forma apo. Ensaios de atividade GTPásica foram realizados, confirmando a incapacidade dessa septina em hidrolisar o GTP. Ainda, análises de estabilidade térmica por Dicroísmo Circular revelaram que a presença do íon magnésio leva à diminuição de sua estabilidade estrutural. Baseando-se em resultados prévios de interação obtidos pela técnica do duplo-híbrido em leveduras, estudos voltados à análise da interação entre as septinas 7 e 8 e, posteriormente, entre as septinas 5, 7 e 8 foram realizados. A co-purificação do complexo formado pelas septinas 7 e 8 mostrou-se dependente da região C-terminal completa de SEPT7 de modo que, quando ausente, a interação mostrou-se expressivamente prejudicada. Já o complexo formado pelas septinas 5/7/8 foi obtido contendo as três proteínas em frações equimolares e solúveis, disponibilizando assim um novo heterocomplexo de septinas para ensaios funcionais e estruturais. / Septins are GTP-binding proteins that interact with each other to form heterocomplexes, which form filaments and higher order structures. These filaments are important for cytokinesis and may be involved in other cellular processes such as the determination of cell polarity and cytoskeleton reorganization. The septins, initially discovered in Saccharomyces cerevisiae, have also been identified in fungi, green algae, mammals but not in plants. Typically, septins have three structural domains comprising a central GTP binding domain flanked by a variable N-terminal and a C-terminal which can contain coiled-coil structures. This work sought to characterize the GTP-binding domain of the human septin 8 (SEPT8G) through biophysical studies. Accordingly, SEPT8G was efficiently produced in E. coli, and its dimeric state in solution was confirmed by size exclusion chromatography. Compared to other septins previously reported, the dimeric SEPT8G presented itself as an apo-protein. GTPase activity assays were performed, confirming the inability of this septin to hidrolyse GTP. Additionally, thermal stability analyses by Circular Dichroism showed that the presence of the magnesium ion leads to a decrease of structural stability. Considering previous results of septins interactions from yeast two-hybrid experiments, we have analyzed the interaction between the septins 7, 8 and subsequently among septins 5, 7 and 8. Co-purification of the complex formed by the septins 7 and 8 showed to be dependent on the complete SEPT7 C-terminal region so that, when absent, the interaction was significantly impaired. The obtained complex formed by septins 5/7/8 contained the three proteins in soluble and equimolar fractions, providing a new septin heterocomplex for functional and structural studies. Co-expressão Co-expression Estudos estruturais Septinas Septins Structural studies
5	Estudos estruturais da SEPT8 e análise de suas interações com SEPT5 e SEPT7 / Structural studies of SEPT8 and analysis of its interaction with SEPT5 and SEPT7 Sinara Teixeira do Brasil Morais 29 May 2014 (has links) Septinas são proteínas que ligam GTP e interagem entre si formando heterocomplexos, os quais formam filamentos e estruturas de maior nível de organização. Tais filamentos, além de se mostrarem importantes durante a citocinese também podem estar envolvidos em outros processos celulares tais como determinação da polaridade celular e reorganização do citoesqueleto. As septinas, inicialmente descobertas em Saccharomyces cerevisiae, já foram identificadas também em fungos, algas-verdes, mamíferos, porém nunca em plantas. Tipicamente, septinas apresentam três domínios estruturais compostos por um domínio central de ligação ao GTP flanqueado por um N-terminal variável e um C-terminal que pode conter sequências do tipo coiled-coil. Este trabalho teve como objetivo a caracterização do domínio de ligação a GTP da septina 8 humana (SEPT8G) por meio de estudos biofísicos. Nesse sentido, SEPT8G foi eficientemente produzida em E. coli, tendo seu estado dimérico em solução confirmado por cromatografia de exclusão molecular. Diferentemente das outras septinas já reportadas, mesmo dimérica a SEPT8G apresentou-se na forma apo. Ensaios de atividade GTPásica foram realizados, confirmando a incapacidade dessa septina em hidrolisar o GTP. Ainda, análises de estabilidade térmica por Dicroísmo Circular revelaram que a presença do íon magnésio leva à diminuição de sua estabilidade estrutural. Baseando-se em resultados prévios de interação obtidos pela técnica do duplo-híbrido em leveduras, estudos voltados à análise da interação entre as septinas 7 e 8 e, posteriormente, entre as septinas 5, 7 e 8 foram realizados. A co-purificação do complexo formado pelas septinas 7 e 8 mostrou-se dependente da região C-terminal completa de SEPT7 de modo que, quando ausente, a interação mostrou-se expressivamente prejudicada. Já o complexo formado pelas septinas 5/7/8 foi obtido contendo as três proteínas em frações equimolares e solúveis, disponibilizando assim um novo heterocomplexo de septinas para ensaios funcionais e estruturais. / Septins are GTP-binding proteins that interact with each other to form heterocomplexes, which form filaments and higher order structures. These filaments are important for cytokinesis and may be involved in other cellular processes such as the determination of cell polarity and cytoskeleton reorganization. The septins, initially discovered in Saccharomyces cerevisiae, have also been identified in fungi, green algae, mammals but not in plants. Typically, septins have three structural domains comprising a central GTP binding domain flanked by a variable N-terminal and a C-terminal which can contain coiled-coil structures. This work sought to characterize the GTP-binding domain of the human septin 8 (SEPT8G) through biophysical studies. Accordingly, SEPT8G was efficiently produced in E. coli, and its dimeric state in solution was confirmed by size exclusion chromatography. Compared to other septins previously reported, the dimeric SEPT8G presented itself as an apo-protein. GTPase activity assays were performed, confirming the inability of this septin to hidrolyse GTP. Additionally, thermal stability analyses by Circular Dichroism showed that the presence of the magnesium ion leads to a decrease of structural stability. Considering previous results of septins interactions from yeast two-hybrid experiments, we have analyzed the interaction between the septins 7, 8 and subsequently among septins 5, 7 and 8. Co-purification of the complex formed by the septins 7 and 8 showed to be dependent on the complete SEPT7 C-terminal region so that, when absent, the interaction was significantly impaired. The obtained complex formed by septins 5/7/8 contained the three proteins in soluble and equimolar fractions, providing a new septin heterocomplex for functional and structural studies. Co-expressão Estudos estruturais Septinas Co-expression Septins Structural studies
6	Multidrug transporter MdfA as a target for high-resolution structural studies O'Grady, Christopher Brian 28 January 2010 The MdfA is a 410 amino acid-long integral membrane protein, which belongs to the Major Facilitator superfamily of multidrug transporters. It is predicted to consist of 12 transmembrane helices. MdfA uses the energy of the transmembrane proton gradient to pump a variety of toxic compounds out of E. coli cells. No high resolution structure of MdfA is available. The goals of this research project were to develop a practical method for purification of MdfA, to evaluate the feasibility of structure determination by Nuclear Magnetic Resonance (NMR) and X-ray crystallography, and to develop an activity assay for purified MdfA. To this end, MdfA, with a hexa-histidine tag attached to facilitate protein purification, was successfully expressed and incorporated into the cell membrane using an E. coli expression system. MdfA was extracted from the cell membrane with the detergents 1,2-diheptanoyl-sn-glycero-3-phosphocholine (DHPC), n-dodecyl-B-D-maltoside (DDM), and 1-myristoyl-2-hydroxy-sn-glycero-3-[phospho-rac-(1-glycerol)] (LMPG) and purified by affinity chromatography on nickel-nitrilotriacetic acid agarose. Pure protein was found to be monodisperse in DHPC, DDM and LMPG micelles. To achieve simple amino acid selective isotope labeling for high-resolution NMR studies, MdfA was expressed in a cell-free translation system. To determine if the purified protein was properly folded, 19F NMR experiments were carried out on 5-fluoro-tryptophan-labeled MdfA while titrating the MdfA substrates ethidium bromide and chloramphenicol into the fluoro-tryptophan-labeled MdfA sample. An activity assay was developed for MdfA incorporated into liposomes using the fluorescent dye 9-amino-6-chloro-2-methoxyacridine (ACMA) to detect proton translocation coupled to substrate transport. Results from both the 19F NMR and the transport activity assay indicated that the purified MdfA was properly folded and functional. NMR experiments with pure MdfA yielded spectra of insufficient quality for high-resolution structure determination but did indicate that structural studies of MdfA by NMR are feasible. Crystallization trials yielded crystals that are likely to contain protein and will serve as a starting point for further optimization of crystallization conditions for X-ray structure determination. nuclear magnetic resonance protien purification structural studies membrane protein purification Multidrug transporters membrane protein structural studies MdfA multidrug resistance membrane protein x-ray crystallography
7	Multidrug transporter MdfA as a target for high-resolution structural studies O'Grady, Christopher Brian 28 January 2010 (has links) The MdfA is a 410 amino acid-long integral membrane protein, which belongs to the Major Facilitator superfamily of multidrug transporters. It is predicted to consist of 12 transmembrane helices. MdfA uses the energy of the transmembrane proton gradient to pump a variety of toxic compounds out of E. coli cells. No high resolution structure of MdfA is available. The goals of this research project were to develop a practical method for purification of MdfA, to evaluate the feasibility of structure determination by Nuclear Magnetic Resonance (NMR) and X-ray crystallography, and to develop an activity assay for purified MdfA. To this end, MdfA, with a hexa-histidine tag attached to facilitate protein purification, was successfully expressed and incorporated into the cell membrane using an E. coli expression system. MdfA was extracted from the cell membrane with the detergents 1,2-diheptanoyl-sn-glycero-3-phosphocholine (DHPC), n-dodecyl-B-D-maltoside (DDM), and 1-myristoyl-2-hydroxy-sn-glycero-3-[phospho-rac-(1-glycerol)] (LMPG) and purified by affinity chromatography on nickel-nitrilotriacetic acid agarose. Pure protein was found to be monodisperse in DHPC, DDM and LMPG micelles. To achieve simple amino acid selective isotope labeling for high-resolution NMR studies, MdfA was expressed in a cell-free translation system. To determine if the purified protein was properly folded, 19F NMR experiments were carried out on 5-fluoro-tryptophan-labeled MdfA while titrating the MdfA substrates ethidium bromide and chloramphenicol into the fluoro-tryptophan-labeled MdfA sample. An activity assay was developed for MdfA incorporated into liposomes using the fluorescent dye 9-amino-6-chloro-2-methoxyacridine (ACMA) to detect proton translocation coupled to substrate transport. Results from both the 19F NMR and the transport activity assay indicated that the purified MdfA was properly folded and functional. NMR experiments with pure MdfA yielded spectra of insufficient quality for high-resolution structure determination but did indicate that structural studies of MdfA by NMR are feasible. Crystallization trials yielded crystals that are likely to contain protein and will serve as a starting point for further optimization of crystallization conditions for X-ray structure determination. nuclear magnetic resonance protien purification structural studies membrane protein purification Multidrug transporters membrane protein structural studies MdfA multidrug resistance membrane protein x-ray crystallography
8	HrcA de Caulobacter crescentus e Xylella fastidiosa: estudos comparativos de seqüências e desenvolvimento de modelo estrutural / HrcA from Caulobacter crescentus and Xylella fastidiosa: comparative sequences studies and the development of a structural model Perez, Humberto Rodriguez 28 November 2002 (has links) O gene hrcA é encontrado em quase todos os ramos da árvore filogenética das eubactérias, e seu produto, a proteína HrcA, funciona como repressor da expressão dos operons de choque térmico groESL e dnaKJ, ligando-se à seqüência repetida invertida denominada CIRCE (controlling inverted repeat of chaperonin expression) presente na região regulatória destes operons. O sistema HrcA-CIRCE está, portanto, amplamente representado nas eubactérias. Particularmente, em Caulobacter crescentus, uma α-proteobactéria, este sistema está envolvido no controle da expressão do operon groESL durante o ciclo celular da bactéria. Conhecer a estrutura e as interações de HrcA é importante para entender este processo. Neste trabalho são apresentadas as análises de seqüência das HrcA\'s de C. crescentus e de Xylella fastidiosa, uma proteobactéria do grupo γ, as quais são muito similares. Este estudo levou à proposta de um modelo estrutural com a delimitação dos domínios da proteína, os dobramentos de cada domínio, com base nas interações da HrcA de C. crescentus com o elemento CIRCE e ATP, que estão sendo caracterizadas em nosso laboratório, assim como a atribuição de aminoácidos e motivos conservados funcionais. Adicionalmente, embora a expressão da HrcA recombinante de X. fastidiosa não tenha tido sucesso, a HrcA recombinante de C. crescentus purificada tem se prestado aos ensaios espectroscópicos, ainda que tenha sido detectada uma microagregação que está sendo enfrentada com um protocolo de purificação baseado no uso de α ciclodextrina. Os estudos espectroscópicos preliminares da HrcA C. crescentus dão suporte ao modelo estrutural proposto. / The hrcA gene is found in almost all branches of the filogenetic tree of eubacteria, and its product, the protein HrcA, functions as a repressor regulating the expression of the heat shock operons groESL and dnaKJ, by binding to the inverted repeat sequence called CIRCE (controlling inverted repeat of chaperonin expression). The system HrcA-CIRCE, therefore, is widely represented in eubacteria. Specifically in Caulobacter crescentus, an α-proteobacterium, this system is involved in the cell-cycle control of groESL expression (Baldini et al, 1998). Knowledge of the structure of HrcA and its interactions is important to understand this process. This work presents the analysis of the sequences of HrcA from C. crescentus and Xylella fastidiosa, a proteobacterium of the γ group, which are very similar. A structural model has been proposed, with protein domain delimitation, specific domain folding, based on known interactions of C. crescentus HrcA with the CIRCE element and ATP, obtained in our laboratory, as well as assignment of functional residues and conserved motifs. Additionally, even though no sucess was obtained the expression of recombinant HrcA from X. fastidiosa, purified recombinant HrcA from C. crescentus has been shown to be suitable for spectroscopic studies, in spite of microagregation observed, which is being faced with a purification protocol based on the use of α cyclodextrin. The preliminary spectroscopic studies of HrcA from C. crescentus support the proposed structural model. Biochemistry Bioquímica Estudos estruturais HrcA HrcA Proteínas (Biossíntese; Estrutura) Proteins (Biosynthesis; Structure) Structural studies
9	Caracterização estrutural e funcional de septinas de Schistosoma mansoni / Structural and functional characterization of Schistosoma mansoni septins Zeraik, Ana Eliza 23 October 2013 (has links) Septinas são proteínas pertencentes à família das GTPases que estão envolvidas em uma variedade de funções celulares. Verificamos através de análises bioinformáticas que Schistosoma mansoni, um dos principais agentes etiológicos da esquistossomose, possui quatro genes que codificam septinas (SmSept5, SmSept10, SmSept7.1 e SmSept7.2). O objetivo deste trabalho foi a produção heteróloga das proteínas codificadas por estes genes, visando estudos estruturais e funcionais das mesmas. As septinas SmSEPT5 e SmSEPT10 foram expressas em sistema recombinante e foi possível a obtenção de formas solúveis destas proteínas. Experimentos de gel filtração e cross-linking mostraram que elas são diméricas em solução e estáveis em ampla faixa de pH, embora agregados proteicos tenham sido observados com o aumento da temperatura. Ambas as proteínas foram capazes de ligar GTP e GDP, embora apenas SmSEPT5 tenha apresentado atividade GTPásica. Mg2+ se mostrou essencial para a ligação de GTP a ambas as proteínas, enquanto a ligação do GDP foi independente da presença deste cofator. Ensaios de cristalização com o domínio GTPase de SmSEPT10 resultaram em cristais de ótima qualidade cuja difração resultou na obtenção da estrutura com melhor resolução alcançada até o momento para septinas: 1.9 Å para a forma ligada a GDP e 2.1 Å para a forma ligada a GTP. A análise da sobreposição das estruturas obtidas resultou na observação do deslizamento de uma fita β em relação às demais, que acreditamos estar envolvido com o mecanismo de associação destas proteínas à membranas. Um sistema de coexpressão foi construído em que SmSEPT5, SmSEPT10 e SmSEPT7.2 foram coexpressas e copurificadas, resultando na verificação da formação de hetero-oligômeros e filamentos por estas proteínas. Tratamento de diversas fases do ciclo de vida do parasito com um composto (FCF) que afeta a dinâmica de filamentos de septina, resultou em um fenótipo reversível de paralisia no parasito. Estudos de imunolocalização revelaram a colocalização de septinas e actina em fibras musculares do parasito, sugerindo que a interação entre filamentos de septina e actina pode ter um papel importante nas funções motoras do parasita. A imunolocalização revelou ainda a presença de septinas em placas epiteliais ciliadas de miracídios, células germinativas de miracídios e esporocistos e protonefrídios de cercárias. Os resultados apresentados aqui constituem a primeira descrição de septinas em platelmintos e nos possibilitam o estabelecimento de correlações estruturais e funcionais entre septinas de S. mansoni e complexos análogos de septinas de outros organismos, contribuindo para a elucidação da função desta família de proteínas. / Septins belong to the GTPase family of proteins and are involved in a variety of cellular processes. We have identified four genes encoding septins in Schistosoma mansoni, one of the main causative agents of schistosomiasis, these genes were named SmSept5, SmSept10, SmSept7.1 e SmSept7.2. The aim of this study was to clone the cDNA of these genes in order to subject the resulting proteins to a set of biophysical and functional studies. Biophysical characterizations were undertaken with SmSEPT5 and SmSEPT10 because of the higher solubility of these proteins, which were dimeric in solution and stable over a wide range of pH, although increasing temperatures promoted the aggregation of these proteins. The nucleotide binding assays revealed that both were capable of binding GTP and GDP, although only SmSEPT5 presented GTPase activity. Mg2+ has shown to be essential for GTP binding in both proteins while GDP binding was independent of this cofactor. Crystallization assays with the GTPase domain of SmSEPT10 have resulted in crystals of high quality and consequently high resolution structures were obtained: 1.9 Å to the GDP bound form and 2.1 Å to the GTP bound form, the best resolution achieved to date for any septin member. The sobreposition of the structures obtained enabled us to observe a strand slippage in β3 strand suggesting that it might be part of an activation mechanism involved in the association of these proteins to membranes. A coexpression system was produced, in which SmSEPT5, SmSEPT10 and SmSEPT7.2 were coexpressed and copurified. These proteins were able to assemble into heterocomplexes that further polymerize into filaments. Functional studies performed with a drug (FCF) that affects the dynamics of septin filaments have resulted in a reversible paralysis phenotype in the parasite. Immunolocalization experiments revealed the colocalization of septins and actin in muscular structures of the parasite, suggesting that the interaction of septin and actin filaments might have an important role in the motor activity of the parasite. The immunolocalization also revealed the presence of septins in the ephitelial plates of miracidia, germ cells of miracidia and sporocysts and protonephridia of cercariae. The results presented here constitute the first description of septins in phatyhelmintes and enabled us the establishment of structural and functional relaltionships among septins from S. mansoni and analogous septin complexes in other organisms, contributing to elucidate the function of this family of proteins. Schistosoma mansoni Schistosoma mansoni Estudos estruturais Immunolocalization Imunolocalização Septinas Septins Structural studies
10	Les nanodisques comme outil pour l'étude de protéines membranaires intégrales / Nanodiscs as a tool for the structural studies of membrane protein Huon de Kermadec, Yann 27 November 2015 (has links) Les protéines membranaires représentent environ 2/3 des cibles thérapeutiques. Le développement de nouveaux médicaments est toutefois limité par l'absence de données structurales pour de nombreuses protéines. Les protéines membranaires s'avèrent en effet difficiles à manipuler et à maintenir en solution ce qui complique leur étude structurale. Les protéines sont en général solubilisées grâce à des surfactants comme les détergents, les amphipols, les hémifluorés et les peptergents. Il est aussi possible de les étudier dans des conditions plus physiologiques en les insérant dans des membranes lipidiques telles que des liposomes, des bicelles, ou des nanodisques.Les nanodisques sont des particules protéolipidiques autoassemblées, composées de protéines d'assemblages et de lipides, qui constituent un système de membranes modèles très prometteur permettant de solubiliser des protéines membranaires dans un milieu dépourvu de détergent. D'autres avantages sont aussi la variabilité de la constitution en lipides et l'accessibilité des deux côtés de la membrane.Dans le cadre de ma thèse, j'ai mis au point l'insertion de plusieurs protéines membranaires en nanodisques afin de permettre leur caractérisation fonctionnelle, biophysique et structurale. Nous avons en particulier étudié le transporteur ABC BmrA impliqué dans la résistance aux antibiotiques et cherché à identifier les changements conformationnels de la protéine en nanodisques par microscopie électronique. Les interactions de la protéine YedZ, un homologue de NADPH oxydases, avec ses partenaires solubles potentiels ont été étudiés par différentes méthodes telles que le pontage chimique, la résonance plasmonique de surface et la spectrométrie de masse native. En parallèle, le mécanisme d'assemblage des nanodisques a été investigué. Une interaction entre les protéines d'assemblages et des cations divalents a été mise en évidence. Cette interaction a un effet sur l'oligomérisation de la protéine d'assemblage mais également sur l'homogénéité des nanodisques. Ces observations nous ont permis d'améliorer les conditions de préparation des nanodisques, condition déterminante pour le succès de nombreuses approches structurales. Nous avons pu en particulier explorer la possibilité de cristalliser ces particules en vue d'études cristallographiques. / Membrane proteins represent around 2/3 of therapeutic targets. However, the development of new drugs is hampered by the lack of structural data for many proteins. Membrane proteins are indeed difficult to handle and to maintain stable in solution, which complicates their study by structural methods. Proteins are usually stabilized by surfactants like detergents, amphipols, hemifluorinated compounds and peptergents. It is also possible to study those proteins in an environment mimicking their native conditions by incorporating them in lipid membranes such as liposomes, bicelles or nanodiscs.Nanodiscs are self-assembled proteolipidic particles, composed of a scaffold protein and lipids. This technology is a top-notch model membrane system, which provides a detergent free environment to study membrane proteins in solution. Further advantages are the possibility to vary the lipid composition and the accessibility of the incorporated protein from both sides of the membrane.During my PhD project, I have achieved the insertion of several membrane proteins into nanodiscs for functional, biophysical and structural characterizations. In particular, we have studied Bmra, an ABC transporter involved in multidrug resistance and tried to identify the conformational changes of the protein in nanodiscs by electron microscopy. The interaction of YedZ, a NADPH oxidase homologue, with potential soluble partners has been studied by various methods such as cross-linking, surface plasmon resonance and native mass spectrometry. In parallel, the mechanism of nanodiscs assembly has been investigated. An interaction between the scaffold protein and divalent cations has been revealed. This interaction influences the oligomerization of the scaffold protein but also the nanodiscs homogeneity. Those observations allowed us to improve the preparation of the nanodiscs, which was an essential step torward the success of many structural approaches. In particular, we were able to explore their accessibility to protein crystallography. Protéines membranaires Nanodisques Etudes structurales État oligomérique Membrane proteins Nanodiscs Structural studies Oligomeric state 570

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