Global ETD Search

81	Génome et facteurs de virulence d'un polydnavirus d'hyménoptère parasitoïde Provost, Bertille 21 December 2004 (has links) (PDF) L'hyménoptère Cotesia congregata (Microgastrinae ; Braconidae) pond ses oeufs à l'intérieur de son hôte, la chenille du lépidoptère Manduca sexta (Noctuidae ; Sphingidae) et introduit des particules virales de bracovirus contenant 30 cercles d'ADN double brin. Les gènes viraux portés par ces cercles codent pour une série de protéines qui sont produites dans les tissus de la chenille parasitée. Ces protéines virales jouent un rôle indispensable à la réussite parasitaire. En effet, l'expression des gènes viraux entraîne de nombreuses altérations de la physiologie de l'hôte, notamment un contournement de l'immunité de la chenille qui permet le développement des larves du parasite. D'autre part, le développement de l'hôte est bloqué à un stade pré-pupal. Les travaux portant sur la caractérisation des génomes de bracovirus ont beaucoup progressé et plusieurs familles de gènes ont été découvertes. Une synthèse des connaissances actuelles sur l'immunité des insectes et les gènes de bracovirus potentiellement impliqués dans le contrôle de l'immunité et du développement des lépidoptères est présentée en introduction.<br />Au cours de ma thèse, le séquençage et l'analyse du génome du bracovirus de Cotesia congregata ont été réalisés (Espagne et al 2004). L'existence de plusieurs familles multigéniques a été mise en évidence, notamment la famille des protéines tyrosines phosphatases (PTP) composée de 27 gènes (Provost et al 2004), la famille des cystatines composée de 3 gènes (Espagne et al soumis) et enfin celle des protéines à motif ankyrine composée de 6 gènes (Pennacchio et al en préparation). La caractérisation détaillée de la famille des PTP a été effectuée. La technique d'électrophorèse en champs inversés (FIGE) a permis la localisation physique de ces gènes sur l'ensemble du génome viral, et leur expression a été analysée dans une série de tissus de l'hôte parasité grâce à une méthode de PCR multiplex. Enfin, des tests d'activité biochimique de PTP de bracovirus produites in vitro grâce à un système d'expression en baculovirus.<br />Les gènes des familles décrites sont exprimés dans l'hôte parasité et les protéines possèdent, en général, la fonction biochimique prédite grâce aux domaines conservés qu'elles contiennent. Ceci suggère que ces protéines virales jouent un rôle actif dans les modifications de la physiologie de l'hôte induite par le parasitisme. La caractérisation des gènes viraux exprimés dans l'hôte est une étape indispensable vers l'identification du rôle individuel de chaque protéine dans le contrôle de la physiologie des chenilles parasitées. bracovirus Cotesia congregata Manduca sexta génome protéine tyrosine phosphatase cystatine ankyrine
82	Molecular Regulation of Angiogenesis Mellberg, Sofie January 2008 (has links) Angiogenesis, de novo formation of blood vessels from the pre-existing vasculature, is crucial in embryo development, and in processes in the adult such as wound healing and ovulation. Angiogenesis is also involved in pathological conditions such as cancer and chronic inflammatory diseases, which are propagated by dysregulated, excess angiogenesis. On the other hand, lack of functional vessels and poor blood flow is a major problem in myocardial and peripheral ischemia. A detailed understanding of the molecular mechanisms underlying angiogenesis is of vital importance for the development of drugs to regulate angiogenesis. The aim of this thesis has been to identify genes involved in regulation of angiogenesis. We have investigated gene expression over time in endothelial cells (ECs), using different in vitro models. We show that the proteoglycan endocan is upregulated in ECs invading a fibrin matrix in response to vascular endothelial growth factor (VEGF)-A. There was increased expression of endocan in renal tumour cells and tumour vessels compared to normal renal tissues, indicating that endocan might have a role in tumour growth and tumour angiogenesis. We also show that vascular endothelial protein tyrosine phosphatase (VE-PTP) is induced in ECs during differentiation into vessel structures in a three dimensional collagen matrix. Silencing of VE-PTP disrupts vessel formation and increases the activity of VEGF receptor-2 (VEGFR-2) and downstream signalling, leading to increased EC proliferation. This presents a possible mechanism for the failure of vessel formation, as EC morphogenesis requires growth arrest of the cells. We also show that VE-PTP and VEGFR-2 are closely associated in resting ECs. VEGF-A stimulation leads to rapid loss of association, coinciding with increased phosphorylation of VEGFR-2. The function of VE-PTP in vivo was investigated using the zebrafish model. We demonstrate specific expression of a zebrafish VE-PTP orthologue (zVE-PTP) in the developing vasculature. Silencing of zVE-PTP leads to defective vessel sprouting and branching, indicating a critical role for zVE-PTP in development of the zebrafish vasculature. In conclusion, this thesis presents gene regulation during endothelial cell morphogenesis and details the expression pattern of endocan and the function of VE-PTP in regulation of VEGFR-2-driven angiogenesis. endothelial morphogenesis VEGFR-2 protein tyrosine phosphatase VE-PTP PTPRB endocan ESM-1 angiogenesis Molecular medicine Molekylär medicin
83	Design, Synthesis & Biological Activity of Novel Protein Tyrosine Phosphatase (PTP) Mimetics Kaulagari, Sridhar Reddy 15 November 2010 (has links) Protein phosphorylation is a post translational modification of proteins in which a serine, a threonine or a tyrosine residue is phosphorylated by an enzyme, kinase. Phosphorylation of proteins is a reversible and very important regulatory mechanism that occurs in both prokaryotes and eukaryotes. Phosphorylation turns many protein enzymes on and off, preventing or causing many diseases such as diabetes, cancer and rheumatoid arthritis. The phosphorylation on tyrosine residues of proteins is essential for transmission of signals for cell growth, proliferation and differentiation. Protein tyrosine phosphatases (PTPs) in concert with protein tyrosine kinases (PTKs) regulate many signal transduction pathways by controlling the degree of phosphorylation of tyrosine residues within the protein. While the roles and mechanisms of protein tyrosine kinases are well documented, our present understanding of protein tyrosine phosphatases is very limited. In this regard we still have much more to learn about PTPs. Here we propose the design and synthesis of novel protein tyrosine phosphatase mimetics and their activity against tyrosine phosphatases. Chapter two describes the synthesis of 2-aminopyrimidine chlorides, sulfonamides and the sequence of reactions to make its amino acid analog. Chapter three describes the synthesis of α-aryl, α,β-epoxy carboxylates, phosphonates and their biological activity against tyrosine phosphatases. These compounds could be very helpful in significantly improving the current understandings about the roles and mechanisms of the PTPs. These proposed tyrosine phosphatase inhibitors are believed to work effectively in treating the diseases by modulating the phosphorylation in signal transductions pathways. Chapter four describes the design and the synthesis of Peptide Nucleic Acids (PNAs) both standard as well as hybrid PNAs with novel cysteine based monomers that are aimed to increase the cellular uptake by introducing positively charged or amphipathic species attached to cysteine thiol functional group. Protein Tyrosine Phosphatase Inhibitors Pyrimidines alpha beta epoxy carboxylates Cysteine Peptide Nucleic Acids (CPNAs) American Studies Arts and Humanities Chemistry
84	Modified yeast two-hybrid screening identifies SKAP-HOM as a novel substrate of PTP-PEST Scott, Adam Matthew. January 1900 (has links) Thesis (M.Sc.). / Written for the Dept. of Biochemistry. Title from title page of PDF (viewed 2008/12/09). Includes bibliographical references.
85	Estudo por oxido-redução de uma proteina tirosina fosfatase (CD45) purificada de membrana de linfocitos humanos / Oxide-reduction studies of a protein tyroside phosphatase (CD45) purified from human lymphocytes membranes Sousa, Roberta Regina Ruela de 28 June 2005 (has links) Orientador: Hiroshi Aoyama / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-06T06:33:37Z (GMT). No. of bitstreams: 1 Sousa_RobertaReginaRuelade_M.pdf: 3257089 bytes, checksum: 29f24a432f8c0bfd7dd71af48cc7608a (MD5) Previous issue date: 2005 / Resumo: As proteínas tirosina fosfatases (PTP) (EC 3.1.3.48) são enzimas regulatórias chaves que participam na transdução de sinal e são essenciais na regulação do crescimento, diferenciação, ciclos celulares, na transcrição gênica, resposta imune e outros processos. Esta classe de enzimas, que contém cisteína no sítio ativo, pode ser inativada por agentes oxidantes. Neste trabalho, estudamos os efeitos de peróxido de hidrogênio e t-butil hidroperóxido, compostos que induzem estresse oxidativo, na atividade de uma PTP purificada de membranas de linfócitos humanos, indicativamente a CD45. A PTP foi purificada de membranas de linfócitos humanos através de cromatografias de troca iônica (DEAE Sepharose) e exclusão molecular (Sephacryl S-200). A purificação enzimática foi acompanhada por SDS-PAGE e eletroforese bidimensional. A atividade enzimática foi determinada através de incubação a 37°C por 30 min em pH 5,0 em presença de 5 mM de p-nitrofenil fosfato (pNPP) como substrato. A enzima obtida da cromatografia de exclusão molecular apresentou uma massa molecular relativa de aproximadamente 200 kDa, reconheceu mais eficientemente tirosina fosfato (cerca de 3,2 vezes) como substrato quando comparado ao pNPP, e foi inibida por inibidores específicos de PTP, tais como vanadato (40%), pervanadato (100%), p-cloromercuribenzoato (20%) and Cu2+ (95%). Ácido okadáico, um inibidor específico de serina e treonina proteína fosfatases, não afetou a atividade da PTP de membranas de linfócitos. Estes resultados de caracterização sugerem fortemente que a PTP purificada de membranas de linfócitos humanos é a CD45. Peróxido de hidrogênio e t-butil hidroperóxido inibiram a atividade dessa proteína com valores de IC50 (concentração do composto que produz 50% de inibição enzimática) de 50 µM e 16 mM, respectivamente. Glutationa reduzida (GSH) protegeu parcialmente a enzima contra estes oxidantes, porém proteções totais foram obtidas quando se adicionava 250 mM de desferoxamina ao meio de ensaio. Nossos resultados sugerem que essa proteína pode ser regulada por alteração do estado de oxidação dos grupos funcionais do sítio ativo e que esta regulação poderia fornecer um mecanismo de controle celular através de espécies reativas de oxigênio / Abstract: Protein phosphatases, that dephosphorylate proteins in residues of threonine, serine and tyrosine, are a class of enzymes that can be stressed by compounds present in oxidant or reductant environments. In particular, the protein tyrosine phosphatases (PTP) (EC 3.1.3.48) are key regulatory enzymes that participate in signal transduction and are essential for regulating cellular growth, differentiation, cell cycle, gene transcription, immune response and other processes. This class of enzymes, which contain cysteine in the active site, can be inactivated by oxidant reagents. In this work we have studied the effect of hydrogen peroxide and t-butyl hydroperoxide, compounds that induce oxidative stress, on a purified PTP (CD45) from membrane human lymphocytes. PTP was purified from human lymphocyte membranes through ion exchange (DEAE Sepharose) and molecular exclusion (Sephacryl S-200) chromatographies. The enzyme purification was followed by SDS-PAGE and 2D electrophoresis. The enzyme activity was determined by incubation at 37oC for 30 minutes at pH 5.0 in presence of 5 mM p-nitrophenylphosphate (pNPP) as substrate. The enzyme obtained from molecular exclusion chromatography had a relative molecular mass of approximately 200 kDa, recognized more efficiently tyrosine phosphate (about 3.2-fold) as substrate when compared with p-NPP, and was inhibited by specific PTP inhibitors, such as, vanadate (40%), pervanadate (100%), p-chloromercuribenzoate (20%) and Cu2+ (95%). Okadaic acid, a specific serine and threonine protein phosphatases inhibitor, did not significantly affect the lymphocyte membrane PTP activity. These characterization results strongly suggest that the membrane PTP purified from human lymphocytes was the CD45. Hydrogen peroxide and t-butyl hydroperoxide inhibited the CD45 activities with IC50 (concentration of compound that produces 50% enzyme inhibition) values of 50 µM and 16 mM, respectively. Reduced glutathione (GSH) partially protected the enzyme against these oxidations, but full protections were observed when 250 mM deferoxamine were added to the assay medium. Our results suggest that CD45 can be regulated by altering the oxidation state of active site functional groups, and that this regulation could provide a mechanism of cell control by reactive oxygen species / Mestrado / Bioquimica / Mestre em Biologia Funcional e Molecular Linfócitos Proteína tirosina fosfatase Proteínas - Purificação Reação de oxidação - Redução Lymphocytes Protein-tyrosine phosphatase Proteins - Purification Oxidation-reduction reaction
86	Caractérisation biochimique et biologique d'un nouvel adaptateur moléculaire Champagne, Julie January 2001 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. Signaux de transduction Interaction protéine-protéine Domaine protéique Protéine adaptatrice Tyrosine phosphatase Localisation subcellulaire Co-immunoprécipitation
87	An estrogenically regulated potential tumor suppressor gene, protein tyrosine phosphatase γ (PTPγ), in human breast Liu, Suling January 2003 (has links) No description available. Health Sciences, Oncology Human breast, estradiol-17&946 , transformation, overexpression
88	Estudos estruturais do domínio catalítico da proteína tirosina fosfatase eta de rato / Structural studies of the catalytic domain of the rat protein tyrosine phosphatase eta Matôzo, Huita do Couto 08 December 2008 (has links) A proteína tirosina fosfatase eta de rato (rPTPeta), é uma RPTP transmembranar do tipo classe I. A rPTP eta e seu homólogo DEP-1 provenientes, respectivamente, de ratos e de humanos, estão inibidas em células neoplásicas. Este fenótipo maligno é revertido após reconstituição exógena, o que sugere que a capacidade restauradora da rPTP eta pode ser uma ferramenta importante na terapia de alguns tipos de câncer. Portanto, o objetivo deste projeto incluiu o estudo molecular, biofísico e estrutural do domínio catalítico da rPTPeta (rPTPetaDC). Para isso, sub-clonamos no vetor pET-28a(+) o inserto que codifica para a região C-terminal da rPTPeta . Em seguida, bactérias E. coli da linhagem BL21 (DE3) foram transformadas com o plasmídeo e a proteína recombinante expressada e purificada. A His6-rPTPetaDC purificada teve a cauda de histidina subseqüentemente removida por digestão com trombina. O ponto isoelétrico de 7,3 da proteína de 41kDa foi medido experimentalmente e a sua funcionalidade acessada pelo ensaio de hidrólise do pNPP. A enzima apresentou uma atividade específica de 9nmol/min/microg a qual é compatível com as atividades específicas descritas para as RPTPu, RPTPalfa, PTPB1 e SHP2. A estrutura secundária e a estabilidade da rPTPetaDC recombinante foi analisada por dicroísmo circular e espectroscopia de fluorescência. A rPTPetaDC mostrou-se estável a 18 graus Celsius e propriamente enovelada (Santos, et al., Prot. Expr. Purif., 2005. Anexo A). A proteína foi, em seguida, submetida a diferentes condições de cristalização e a estudos estruturais em solução. Nas condições de 0,1M de MES, pH 6,5 e 20% PEG 10000 cresceram cristais que difrataram na resolução de 1,87Å. Os cristais pertencem ao grupo espacial P2(1)2(1)2(1) com parâmetros de célula unitária: a=46,46; b=63,07; c=111,64 Å, e com uma única molécula por unidade assimétrica (Matozo, et al., Acta crystallogr. F, 2006. Anexo B). A estrutura da rPTPetaDC, em solução, foi analisada usando-se a técnica de SAXS e medidas de anisotropia de fluorescência. Os dados de SAXS mostraram que a proteína, forma dímeros alongados, com Rg de 2,65nm e Dmax de 8,5nm. A conformação da rPTPetaDC analisada por modelos de homologia sugere que seu dímero está mais próxima da estrutura cristalográfica dimérica da RPTPalfa-D1. Alem disso, a caracterização da rPTPetaDC por anisotropia de fluorescência demonstrou que o Kd do dímero da rPTPetaDC é de 21,6 + 2,0uM e a variação da energia livre de Gibbs dímero-monômero é de 7,2kcal/mol (Mtozo, et al., Biophys. J., 2007. Anexo C ). / The rat protein tyrosine phosphatase eta, rPTPeta, is a transmembrane RPTP, with an intracellular portion composed of a unique catalytic region. The rPTPeta and the human homolog DEP-1 are down-regulated in rat and human neoplastic cells, respectively. However, the malignant phenotype is reverted after exogenous reconstitution of rPTPeta, suggesting that its function restoration could be an important tool for gene therapy of several types of cancer. Therefore, the objective of our project aimed on the molecular, biophysical and structural study of the catalytic domain of rPTPeta, rPTPetaDC. We began our study cloning the rPTPetaDC into PET28a(+) vector, followed by its expression in Escherichia coli, and purification. The His6-tag from the rPTPetaDC purified was subsequently removed by thrombin digestion. PhastGel IEF electrophoresis demonstrated that the isoelectric point of the 41kDa was 7.3. To assess the functionality of the rPTPetaDC we used the pNPP hydrolysis assay and observed that the enzyme has a specific activity of 9nmol/min/ug. The experimentally determined rPTPetaDC specific activity showed to be in the same range as the previously reported activities for RPTPu, RPTPalfa, PTPB1 and SHP2. The secondary structure and stability of the recombinant protein was analyzed by circular dichroism and fluorescence spectroscopy. The results demonstrated that rPTPetaDC was stable at 18 Celsius and properly folded (Santos, et al., Prot. Expr. Purif., 2005. In attachment A). Then, the purified protein was submitted to different crystallization conditions and structural studies in solution. Crystals appeared at 0.1M MES, pH 6.5 and 20% PEG 10,000 and diffracted with resolution of 1.87Å. The crystals belong to spatial group P2(1)2(1)2(1) with unit cell parameters of a=46.46, b=63.07, c=111.64Å and contained one molecule for asymmetric unit (Matozo, et al., Acta crystallog. F, 2006. In attachment B). Also, the structural of rPTPetaDC, in solution, was analyzed by SAXS and fluorescence anisotropy. SAXS data showed that the protein forms elongated dimers in solution with an Rg of 2.65nm and a Dmax of 8.5nm. The rPTPetaDC conformation in solution, studied by homology models, suggested that the rPTPetaDC dimer architecture is more closely related to the crystal structure of RPTPalfa-D1. The characterization of rPTPetaDC by fluorescence anisotropy measurements demonstrated that the Kd of the dimer is 21.6 + 2.0uM and the energy Gibbs dimer-monomer is equal to 7.2kcal/mol (Matozo, et al., Bioph. J., 2007. In attachment C). Dicroismo Espalhamento de raios X a baixo ângulo Proteína tirosina fosfatase eta de rato Rat protein tyrosine phosphatase eta Small angle x-ray scattering
89	Characterization of receptor protein tyrosine phosphatase PTP69D in the giant fiber circuit Unknown Date (has links) PTP69D is a receptor protein tyrosine phosphatase (RPTP) with two intracellular catalytic domains (Cat1 and Cat2), which has been shown to play a role in axon outgrowth and guidance of embryonic motorneurons, as well as targeting of photoreceptor neurons in the visual system of Drosophila melanogaster. Here, we characterized the developmental role of PTP69D in the giant fiber (GF) neurons; two interneurons in the central nervous system (CNS) that control the escape response of the fly. In addition to guidance and targeting functions, our studies reveal an additional role for PTP69D in synaptic terminal growth in the CNS. We found that inhibition of phosphatase activity in catalytic domain (Cat1) proximal to the transmembrane domain did not affect axon guidance or targeting but resulted in stunted terminal growth of the GFs. Cell autonomous rescue and knockdown experiments demonstrated a function for PTP69D in the GFs, but not its postsynaptic target neurons. In addition,complementation studies and structure-function analyses revealed that for GF terminal growth, Cat1 function of PTP69D requires the immunoglobulin and the Cat2 domain but not the fibronectin type III repeats nor the membrane proximal region. In contrast, the fibronectin type III repeats, but not the immunoglobulin domains, were previously shown to be essential for axon targeting of photoreceptor neurons. Thus, our studies uncover a novel role for PTP69D in synaptic terminal growth in the CNS that is mechanistically distinct from its function during earlier developmental processes. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2014. / FAU Electronic Theses and Dissertations Collection Drosophila melanogaster. Protein-tyrosine kinase. Protein kinases--Inhibitors. Phosphoprotein phosphatases. Transcription factors. Cell receptors. Cellular signal transduction.
90	Rôle et évolution de facteurs de virulence impliqués dans une interaction hôte-parasitoïde Serbielle, Céline 08 December 2008 (has links) (PDF) Les associations mutualistes, en permettant l'acquisition de nouvelles fonctions, ont joué un rôle majeur dans l'évolution des espèces. Pour comprendre en quoi ces associations sont impliquées dans l'adaptation des espèces nous avons étudié un cas unique de mutualisme associant un virus de type polydnavirus et une guêpe parasitoïde. Dans cette association, le virus est injecté dans l'hôte lépidoptère lors de l'oviposition et joue un rôle majeur dans le succès parasitaire en induisant une altération des fonctions physiologiques de l'hôte. En regard du nombre d'espèces de guêpes caractérisées par cette association, le virus doit constituer une innovation adaptative majeure et jouer un rôle déterminant dans l'évolution et la diversification des espèces de guêpes. En quoi cette association joue t-elle un rôle déterminant dans l'évolution et l'adaptation des guêpes ? Quelles sont les fonctions physiologiques ciblées chez l'hôte ? Pour répondre à ces questions nous avons étudié l'évolution de deux familles de gènes codant pour des facteurs de virulence potentiels et nous avons exploré les fonctions physiologiques d'une protéine potentiellement ciblée lors du parasitisme. Nous avons mis en évidence le rôle important de la sélection naturelle dans l'évolution des familles de gènes viraux. Par modélisation de la structure tridimensionnelle d'un facteur de virulence codant pour des cystatines, nous avons montré que cette sélection agissait préférentiellement au niveau des sites d'interaction avec les protéines cibles. De plus, cette étude souligne le caractère dynamique de l'évolution des facteurs de virulence incluant de multiples évènements de duplication, caractérisés par des processus de perte et d'acquisition au cours de l'évolution de l'association. Le caractère adaptatif et dynamique de l'évolution des gènes viraux a aussi été étudié en regard de l'évolution des espèces de guêpes et de leur spectre d'hôte. Par une approche fonctionnelle, nous avons étudié le rôle physiologique de protéases à cystéine qui constituent des cibles potentielles des cystatines virales. Nous avons montré que ces protéases sont régulées spécifiquement au cours du parasitisme au niveau protéique et transcriptionnel. Nous avons également montré que l'activité de ces protéases est modifiée après parasitisme. L'évolution adaptative et dynamique des facteurs de virulence reflètent leur rôle important dans le parasitisme. Il reste maintenant à montrer comment ces facteurs interagissent sur la physiologie de l'hôte lépidoptère. Des protéases à cystéine sont spécifiquement ciblées par le parasitisme, en étudiant les mécanismes d'interaction de ces protéases avec les cystatines virales et les processus coévolutifs mis en jeu, nous polydnavirus guepe parasitoide cystatine proteine tyrosine phosphatase proteases a<br />cysteine evolution moleculaire

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