Global ETD Search

161	Étude et inhibition de l'adhésine impliquée dans l'adhérence diffuse (AIDA-I) d'escherichia coli Girard, Victoria January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal Autotransporteur Autotransporter Aida-I Aida-I Escherichia coli Escherichia coli Adhésine bactérienne Bacterial adhesin Glycosylation Glysosylation Autoagrégation Autoaggregation Phage display et inhibiteur peptidique Phage display and peptide inhibitor
162	Etude fonctionnelle de la MMp - 12 de macrophage en vue de son ciblage thérapeutique dans la broncho-pneumopathie chronique obstructive / Functional study of macrophage MMp-12 in order to its therapeutic targeting in chronic obstructive pulmonary disease Lamort, Anne-Sophie 10 December 2015 (has links) La bronchopneumopathie chronique obstructive ou BPCO est une atteinte des voies respiratoires causée par le tabagisme. Cette maladie pulmonaire chronique et non réversible pour laquelle il n’y pas de traitement curatif se caractérise par une inflammation permanente du tractus respiratoire. Celle-ci est due à l’afflux massif de cellules de l’inflammation, principalement des neutrophiles et macrophages, qui libèrent après activation, de nombreuses protéases actives. Ces protéases vont alors dégrader les protéines de structure comme l’élastine, ce qui va entraîner la dégradation progressive des alvéoles pulmonaires et au final une altération de plus en plus marquée de la fonction respiratoire. Parmi les différentes protéases présentes dans le poumon, la MMP-12 de macrophage, joue un rôle clé dans la physiopathologie de la maladie. / Chronic obstructive pulmonary disease or COPD is a lung disease caused by tobacco smoking. This is a chronic and non reversible disease for which no curative treatment is available yet. Permanent inflammation of the airways is a hallmark of COPD because immune cells such as neutrophils and macrophages are continuously recruited. Once activated, these cells release numerous active proteases which participate to the degradation of structural proteins of the lungs such as elastin, leading to lung emphysema as a consequence of lung alveoli degradation. Among the different proteases found in the lungs, macrophage MMP-12 has been reported to play a key pathogenic role in COPD development. Protéase MMP-12 BPCO Substrats fluorogéniques Anticorps "scFv" Phage display Protease MMP-12 COPD Fluorogenic substrates Antibody "scFv" Phage display
163	Atividade tóxica da peçonha de Lachesis muta rhombeata e produção de fragmentos de anticorpos humanos (scFv) contra a peçonha bruta / Toxic activity of Lachesis muta rhombeata venom and production of human antibody fragments (scFv) against the crude venom Lucas Benício Campos 27 April 2011 (has links) O tratamento atual indicado para casos de envenenamentos por peçonhas é a administração intravenosa de antivenenos, produzidos através da hiperimunização de animais. Entretanto, os antivenenos disponíveis podem, algumas vezes, não proteger os pacientes e causar reações de hipersensibilidade. Fosfolipases A2 (PLA2), L-aminoácido oxidases (LAAO), metalo e serinoproteases são os principais componentes de peçonhas ofídicas e contribuem para a neurotoxicidade, hemorragia, hemólise, miotoxicidade, cardiotoxicidade e formação de edemas. Foram empregados ensaios para avaliar as atividades das enzimas presentes na peçonha de serpentes da espécie Lachesis muta rhombeata e aquele para atividade de protease foi otimizado. A tecnologia de Phage display foi empregada para a seleção de fagos-anticorpos capazes de reconhecer a peçonha bruta. Os fagos foram amplificados em Escherichia coli TG1 e usados para infectar E. coli HB2151, a qual produz fragmentos de anticorpos humanos solúveis. Estes foram purificados e utilizados em testes de inibição de alguns dos componentes tóxicos da peçonha. Os testes de atividade para PLA2, protease e Laminoácido oxidase foram padronizados com sucesso e as 3 proteínas mostraram elevada atividade enzimática. Após otimização, a quantidade de peçonha necessária para o ensaio de protease foi reduzida em 25 vezes. A massa molecular de PLA2 foi estimada em 17 kDa e as massas moleculares de proteases foram estimadas em 40, 35 e 24 kDa, através de zimogramas. O método de bio panning foi eficiente para a seleção de fagos-anticorpos contra a peçonha bruta. Diversos fragmentos de anticorpos foram purificados e incubados com a peçonha bruta para testar suas capacidades de neutralização sobre cada enzima. Cinco clones demonstraram-se hábeis em inibir a PLA2 através da inibição da hemólise. O clone 4E inibiu 100% da hemólise durante as duas horas de ensaio quando pré-incubado na proporção 2:1 (scFv:peçonha). Os clones 2C e 4E inibiram 100% durante uma hora quando pré-incubados na proporção 1:1 e os clones 2F e 9F inibiram a hemólise parcialmente. Outros testes serão conduzidos para a seleção de clones capazes de neutralizar as demais enzimas, os quais, juntamente com os clones já selecionados, serão analisados através de ensaios in vivo. Espera-se que eles possam contribuir para a construção de um novo antiveneno capaz de superar algumas das dificuldades associadas às técnicas de imunoterapia convencionais / The current treatment for animal envenoming is the intravenous administration of antivenoms, produced by animal hyperimmunization. Unfortunately, available antivenoms sometimes do not protect patients and may cause hypersensitivity reactions. Phospholipases A2 (PLA2), L-amino acid oxidases, metallo and serine proteases are considered the most important snake venom components and contribute to neurotoxicity, hemorrhage, hemolysis, myotoxicity, edematogeny and cardiotoxicity. Assays for evaluating the enzymes present in Lachesis muta rhombeata venom were developed and the protease one was optimized. Phage display technology was used to select phage antibodies able to recognize the crude venom. Phages were amplified in Escherichia coli TG1 and used to infect E. coli HB2151, which produces human antibody fragments. Inhibition tests aiming the neutralization of some toxic components of the venom were performed using purified antibody fragments. Activity assays for evaluating PLA2, protease and L-aminoacid oxidase were successfully performed and all enzymes showed high activity levels. The molecular mass of PLA2 was estimated in 17 kDa and the molecular mass of proteases were estimated in 40, 35 and 24 kDa, by zymography. After optimizing the conditions for proteolytic assay, it was possible to use 25 times less venom than it was necessary at first. The bio panning method was efficient for selecting specific phage antibodies against the crude venom. Several clones were selected to infect HB2151 and to produce soluble antibody fragments, which were purified and incubated with the venom to test their inhibition capacity over each enzyme. Five clones demonstrated ability to neutralize PLA2 by inhibiting hemolysis. The clone 4E could inhibit 100% of hemolysis for over 2 hours when preincubated at the ratio 2:1 (scFv:venom). Clones 2C and 4E could inhibit 100% for 1 hour when preincubated at the ratio 1:1 and clones 2F e 9F could inhibit partially. Other tests will be performed to select clones able to neutralize other enzymes and, together with the clones already selected, will be evaluated by in vivo experiments. It is expected that they may contribute to the construction of a potential new antivenom able to overcome some of the problems associated with conventional immunotherapy Fosfolipase A2 L-aminoácido oxidase Lachesis muta rhombeata Phage Display Protease scFv L-amino acid oxidase Lachesis muta rhombeata Phage Display Phospholipase A2 Protease scFv
164	Conception et réalisation de biocapteurs impédimétriques / Conception and development of impedimetric biosensors Meini, Nadir 27 May 2014 (has links) L'objectif du travail de recherche concerne la conception et la réalisation de biocapteurs à base de mesures impédimétriques, pour lesquels la demande est forte dans différents domaines d'intérêt sociétal, en particulier l'environnement, la sécurité alimentaire et le biomédical. Les biocapteurs sont des moyens d'analyse en plein essor à la fois rapides, sélectifs et peu coûteux applicables à des domaines extrêmement variés (environnement, santé, agroalimentaire,…). Dans ce type d'outil, un élément sensible de nature biologique (anticorps, enzyme, microorganisme, ADN…) doté d'un pouvoir de reconnaissance pour un analyte ou un groupe d'analytes est associé à un transducteur pouvant être de type électrochimique, optique ou thermique. Dans la première partie de ce travail, un aptasensor a été développé pour la détection de la thrombine. Deux aptamères different ciblant la thrombine étaient directement immobilisés sur l'électrode en or. L'aptasensor élaboré présente une grande sensibilité, spécificité et stabilité pour la thrombine. Dans la seconde partie, en utilisant la spectroscopie d'impédance électrochimique (EIS), nous avons surveillé l'immobilisation de protéines et sans marquage sur une surface d'or, au moyen d'une stratégie d'électro-adressage, compatible avec la production de biopuces pour multi-détection.Cette fonctionnalisation est réalisée par la cycloaddition alcyne / azoture, mieux connu comme la réaction «clic». Enfin, un biocapteur utilisant des protéines de phage à été développé pour la détection de E.coli / The objective of the research concerns the design and realization of biosensors based impedimetric measures, for which there is strong demand in various societal benefit areas, particularly the environment, food security and biomedical.Biosensors are rapid, selective and inexpensive devices that combine a biological recognition element, the so-called bioreceptor (e.g. enzymes, antibodies, DNA or microorganisms) to a physical transducer (e.g. electrochemical, optical, thermal or piezoelectrical). They can be used to detect one specific analyte or one family of analytes for a wide range of applications (e.g. environment, food, health). In the first part of this work, an aptasensor was developed for thrombin detection. Two different aptamers targeting thrombin were directly immobilized on the gold electrode. The aptasensor exhibits high sensitivity, specificity and stability in the detection of thrombin. In the second part, using electrochemical impedance spectroscopy (EIS), we have, monitored label-free protein immobilization on a gold surface, through a strategy of electroaddressing, compatible with the production of microarrays for multi-detection. This functionalization is achieved via the alkyne/azide cycloaddition, better known as the "click" reaction.Finally, a biosensor using phage proteins was developed for detecting E. coli Biocapteurs Impédance électrochimique Aptamère Thrombine Electro-adressage Chimie click Phage Bactérie Biosensors Electrochemical impedance Aptamers Thrombin Electroaddressing Click chemistry Phage Bacterium 540
165	Exploration des communautés virales thermophiles dans les écosystèmes chauds des terres australes et antarctiques françaises / Exploration of the thermophilic viral communities of the hot ecosystems of the French Southern and Antartic lands Parikka, Kaarle Joonas 28 March 2013 (has links) Les virus peuvent être retrouvés dans tous les écosystèmes où de la vie est présente. Ils constituent l’entité biologique la plus abondante de la biosphère. Si de nombreuses données sont disponibles sur l’abondance et la dynamique virale dans les écosystèmes aquatiques tempérés, peu d’études ont été menées sur ces aspects dans les milieux extrêmes, dont les sources hydrothermales. Dans l’étude présentée dans ce manuscrit, les communautés procaryotiques et virales des sources hydrothermales des Terres australes et antarctiques françaises (TAAF) ont été explorées. Dans un premier temps, les cellules procaryotiques et les particules de type viral (VLP) ont été dénombrées dans plusieurs sources chaudes terrestres et marines côtières. L’abondance microbienne et virale est de l’ordre de 105 - 106 particules/ml dans les deux types de sources avec des rapports VLP/procaryotes (VPR) qui sont généralement faibles, concordant ainsi avec rares les données disponibles actuellement dans la littérature. Dans un second temps, la diversité morphologique des VLP a été analysée par observation au microscope électronique à transmission. La présence de VLP de morphologies différentes a pu être constatée dans quelques échantillons bruts, mais également dans des cultures d’enrichissement, où elles étaient associées à des Thermococcales et des Thermotogales. Finalement, quelques souches isolées de ces échantillons ont été criblées pour la présence de virus aboutissant à la description d’un nouveau bactériovirus tempéré associé à une bactérie thermophile Geobacillus. L’effet d’un choc osmotique en présence de NaCl et l’effet d’un stress anoxique sur la production virale ont également été étudiés. La caractérisation du virus GTV1 a ensuite été entamée. Il appartient à la famille des Myoviridae et a un génome composé d’ADN double brin de 38841 pb, composé de 71 ORF prédits. Enfin, l’étude de la diversité microbienne a permis de décrire une nouvelle espèce bactérienne hautement thermophile, Calditerricola clavaformis sp.nov. / Viruses thrive in all types of ecosystems where life is found. They represent the most abundant biological entity of our biosphere. Though several studies have been conducted on viral abundance and dynamics in mesophilic aquatic ecosystems, these aspects remain largely unexplored in extremophilic environments, such as hot springs. In this study, prokaryotic and associated viral communities of the French Southern and Antarctic Lands hot springs were explored. First, prokaryotic cells and Virus-like particles (VLP) were enumerated in several terrestrial and inshore hot springs. The results reveal an abundance of 105 - 106 particles/ml in both types of hot springs studied. The virus-to-prokaryote ratios (VPR) were generally low, confirming thus actual knowledge in these types of ecosystems. The morphological diversity of VLP was then studied in raw samples as well as in enrichment cultures containing Thermococcales and Thermotogales. Several isolates obtained from these samples were then screened for viral particles which led to the discovery and description of a temperate phage (GTV1) of a thermophilic bacterium belonging to the genus Geobacillus. The effect of NaCl and anoxic stress on the viral production was studied. The genomic characterization of the GTV1 was started and revealed a 38441 bp genome with 71 predicted ORF. Finally, microbial diversity studies led also to the discovery of a new extremely thermophilic bacterium, Calditerricola clavaformis sp.nov. Bactérie Archée Phage Thermophile Induction virale Lysogénie Source chaude Abondance Bacteria Archaea Phage Thermophile Viral induction Lysogeny Hot spring Abundance 579.177
166	(Bio-)fonctionnalisation de bâtonnets colloïdaux modèles et étude de leurs auto-assemblages / (Bio)-functionalization of a model system of rod-like particles and study of their self-assemblies La Cotte, Alexis de 07 October 2015 (has links) Cette thèse porte sur les différentes voies de fonctionnalisation et d'auto-organisation d'un système modèle dans le domaine de la matière condensée : le virus fd et ses mutants. Alors que son diagramme de phase cristal-liquide a été établi et sa correspondance qualitative avec les prédictions théoriques montrée, une des perspectives majeure consiste en son utilisation comme brique élémentaire dans la construction de nouveaux auto-assemblages. De telles avancées passent nécessairement par l'ajout de fonctions de manière régio-sélective sur le corps de la particule. Nous proposons dans ces travaux l'étude de plusieurs voies de fonctionnalisation menant à l'ajout d'espèces moléculaires ou macromoléculaires soit sur l'ensemble du virus ou bien uniquement à son extrémité.En réalisant le greffage de polymères thermosensibles, il est alors possible d'explorer les possibilités d'induire une transition de phase par variation du diamètre effectif du bâtonnet. En utilisant des diblocs d'élastine, ce principe est montré sur la transition entre le liquide isotrope et la phase nématique. L'utilisation de mutants particuliers, conçus par phage display, permet de s'intéresser alors uniquement à la fonctionnalisation de la protéine p3 située à une des extrémités du phage. L'ajout de chromophores permet alors une visualisation unique de la phase smectique et de ses défauts et crée également un effet patchy perturbant le diagramme de phase cristal-liquide. La biotine quant à elle permet la création d'auto-assemblages du fait de son interaction spécifique avec les dérivés d'avidine et un tel système est alors comparé avec un mutant dont l'ADN modifié permet l'expression directe d'une étiquette biologique complémentaire de la streptavidine. Les résultats prometteurs obtenus sont également complétés par une étude encourageante pour l'utilisation des systèmes cristal-liquides colloïdaux dans le domaine de l'électro-optique. / This thesis deals with the different paths of functionalization and self-organization of a model system of colloidal rod-like particles: the fd virus and its mutants. While its liquid-crystalline phase diagram is well established and proven to be in qualitative agreement with theory and numerical simulations, one of the most trending perspectives is its use as building-block in new self-assemblies. For such purposes, it is mandatory to add functions regio-specifically on the particle. We show in this work the study of several ways of functionalization leading to the grafting of molecular or macromolecular compounds onto the whole virus or only onto its tip.When grafting thermoresponsive polymers, we can then explore the possibilities to induce phase transitions by a variation of the effective diameter of the rod. Using diblocs of elastin-like peptides, this principle is shown to work on the isotropic-to-nematic phase transition. The use of particular mutants, engineered by phage display, allows us to functionalize only the tip of the virus. The addition of dyes provides unique features on the smectic phase and its defects and creates a patchy effect which is modifying the liquid-crystalline phase diagram. The functionalization with biotin leads towards the creation of new self-assemblies thanks to its specific interaction with avidine and such a system is then compared with a mutant displaying a biological tag interacting with streptavidin. The results obtained are promising and are completed by a whole study of the use of colloidal liquid-crystalline system in electro-optics. Cristaux liquides Colloïdes Auto-assemblages Virus Phage display Électro-optique Biochimie Liquid crystals Colloids Self-assembly Virus Phage display Electro-optics Biochemistry
167	Reconhecimento molecular na doença de chagas do ponto de vista do parasita e do hospedeiro / Molecular recognition in Chagas disease from the point of view of the parasite and the host André Azevedo Reis Teixeira 23 November 2017 (has links) A doença de Chagas, causada pelo parasita protozoário Trypanosoma cruzi, afeta milhões de pessoas, a maioria delas vivendo na América latina. Apesar dos avanços da medicina e da biotecnologia, ainda existem poucas opções de tratamento para indivíduos com a doença. Assim, é importante compreendermos os detalhes moleculares da infecção parasitária, para que novas alternativas terapêuticas e de diagnóstico possam ser desenvolvidas para esses pacientes. Neste trabalho estudamos esta doença em duas frentes, uma do ponto de vista do parasita, e a outra, da resposta do hospedeiro. Utilizando bioinformática, identifcamos um peptídeo conservado (denominado TS9) presente nas proteínas de superfície gp85/transsialidases do parasita. Este peptídeo é capaz de promover adesão celular e, na sua forma sintética, inibe a entrada do T. cruzi na célula hospedeira. Análise da estrutura proteica revelou que o peptídeo TS9 encontra-se num domínio do tipo laminina-G, lado-a-lado com o peptídeo FLY, outro peptídeo conservado desta grande família, previamente descrito pelo nosso grupo. Juntos, eles formam um sítio de adesão a citoqueratinas e proteínas de flamento intermediário. Na segunda parte, investigamos os antígenos e epítopos reconhecidos pelas imunoglobulinas de pacientes portadores da doença nas suas diferentes formas clínicas: assintomática e cardiomiopatias, leve ou grave. Criamos uma biblioteca de phage display contendo, virtualmente, todos os fragmentos proteicos existentes no T. cruzi, que foi varrida contra imunoglobulinas para a construção de um mapa da resposta humoral dos pacientes com a doença de Chagas. Nossos resultados mostram que a resposta dos pacientes é complexa, e mais de dois mil epítopos foram mapeados. Muitos deles, como os antígenos B13, SAPA e FRA já foram previamente descritos, validando nosso método. Porém, um grande número de novos epítopos, inclusive contra proteína descritas como hipotéticas ou sem função conhecida, também foram encontrados. Seus papéis na infecção e resposta imune da doença merecem, portanto, atenção. Em resumo, as abordagens e técnicas utilizadas nesta tese são inovadoras, e permitiram a identifcação de peptídeos e moléculas que poderão ser úteis para o desenvolvimento de novos métodos diagnósticos e terapêuticos para a doença de Chagas. / Chagas disease, caused by the protozoan parasite Trypanosoma cruzi, afects millions of people, most of them living in Latin America. Despite advances in medicine and biotechnology, there are still few treatment options for individuals with the disease. Thus, it is important to understand the molecular details of the parasitic infection, so that new therapeutic and diagnostic alternatives can be developed for these patients. In this work, we study this disease in two fronts, one from the point of view of the parasite, and the other, of the response of the host. Using bioinformatics, we identifed a conserved peptide (called TS9) present in the surface proteins gp85 / trans-sialidases of the parasite. This peptide is capable of promoting cell adhesion and, in its synthetic form, inhibits the entry of T. cruzi into the host cell. Analysis of the protein structure revealed that the TS9 peptide is in a laminin-G-like domain, side-by-side with the peptide FLY, another conserved peptide of this large family, previously described by our group. Together, they form an adhesion site to cytokeratins and intermediate flament proteins. In the second part, we investigated the antigens and epitopes recognized by the immunoglobulins of patients with the disease in their diferent clinical forms: asymptomatic and cardiomyopathies, mild or severe. We created a phage display library containing virtually all existing protein fragments in T. cruzi. This library was screened against immunoglobulins for the construction of a humoral response map of patients with Chagas disease. Our results show that the response of the patients is complex, and more than 2,000 epitopes have been mapped. Many of them, such as the B13, SAPA and FRA antigens have been previously described, validating our method. However, a large number of new epitopes, including many against proteins described as hypothetical or with no known function, were also found. Their roles in infection and immune response of the disease deserve, therefore, attention. In summary, the approaches and techniques used in this thesis are innovative and have allowed the identifcation of new peptides and molecules that may be useful for the development of new diagnostic and therapeutic methods for Chagas disease. Doença de Chagas IgG Mapeamento de epítopos Phage diplay Trans-sialidase Trypanosoma cruzi Chagas disease Epitope mapping IgG Phage diplay trans-sialidase Trypanosoma cruzi
168	Purificação e caracterização do fragmento Fab anti-digoxina obtido pela técnica de phage display. / Purification and characterization of anti-digoxin Fab fragments obtained by phage display technology. André Luís Inocencio 23 March 2016 (has links) A digoxina é um dos medicamentos indicados para o tratamento de falência cardíaca. Possui janela terapêutica estreita, sendo responsável por casos de intoxicação. O único antídoto disponível para a desintoxicação é o anticorpo policlonal DigiFab®, no formato Fab. O seu uso é eficaz, porém de custo elevado. Clones bacterianos produtores de fragmento Fab monoclonal anti-digoxina foram obtidos previamente pelo nosso grupo, pela técnica de phage display. Neste trabalho as variantes Fab dos 4 clones foram expressas em E.coli para estabelecer o método para a purificação. Com a obtenção dos fragmentos Fab purificados, foi caracterizada a sua afinidade ao antígeno e especificidade, em ensaios de inibição por digoxina, digitoxina, digoxigenina e ouabaina. Os parâmetros cinéticos da ligação dos fragmentos Fab dos 4 clones e do DigiFab® foram avaliados por SPR. Nas condições experimentais, não foram verificadas diferenças significativas entre os produtos dos 4 clones e o comercial, demonstrando o potencial dos fragmentos Fab monoclonais obtidos como antídoto à digoxina. / Digoxin is a medication indicated for heart failure treatment. Its therapeutic window is narrow, being responsible for intoxication cases. The only antidote available for the detoxification is a polyclonal antibody - DigiFab® in Fab format. Its use is effective, but costly. Bacterial clones producing anti-digoxin monoclonal Fab fragments were previously obtained by our group using phage display technology. In this work the Fab variants of the 4 clones were expressed in E.coli to establish the purification method. The purified fragments were characterized regarding the affinity to the antigen and the specificity through inhibition assays with digoxin, digitoxin, digoxigenin and ouabain. The binding kinetic parameters of Fab fragments of the 4 clones and the commercial product to Dig-BSA conjugate were assessed by SPR. Under the experimental conditions no significant differences were observed among the 4 clones and the commercial product, demonstrating the potential of monoclonal Fab fragments as an antidote to digoxin. Phage display Cromatografia Digitálicos Digoxina Fragmento Fab monoclonal Ressonância plasmônica de superfície Chromatography Digitalics Digoxin Monoclonal Fab fragment Phage display Surface plasmon resonance
169	A combinatorial approach to query the PknG interactome of Mycobacterium tuberculosis Zegarra León, Zegarra León 18 July 2019 (has links) La capacidad de Mycobacterium tuberculosis para sobrevivir dentro del macrófago contribuye grandemente a su patogenicidad, latencia y persistencia durante la infección. Este bacilo induce alteraciones en el ambiente intrafagosomal e inhibe la maduración del fagosoma, favoreciendo su supervivencia intracelular. M. tuberculosis PknG secuestra al macrófago precisamente al evitar la fusión fagosoma-lisosoma. En este sentido, PknG representa una familia de dianas novedosas para enfrentar la necesidad de nuevos antimicrobianos para la tuberculosis latente. Aquí, apuntamos a: (i) elucidar la base estructural-molecular del ATP y Mg2+ como cofactores de PknG; (ii) caracterizar los parámetros cinéticos que gobiernan la formación del complejo PknG:ATP; e, (iii) identificar péptidos capaces de unirse a PknG para investigar experimentalmente su interactoma usando enfoques combinatorios como “Phage Display”. Nuestros resultados confirman que PknG se une exclusivamente al ATP con una constante de disociación (KD) de 108.8  22.9 µM. El Mg2+ estabiliza térmicamente a PknG de forma ATP-dependiente. Análisis de estado pre-estacionario muestran que la unión y disociación del ATP es rápida en el complejo PknG:ATP. Usando PknGN-Ext, TPR resolvimos la estructura cristalina en el estado unido al ADP mientras que demostramos que el ATP imposibilita la cristalización. Los análisis bioinformáticos de las librerías enriquecidas por Phage Display identificaron 57 potenciales peptidos que interactuarían con PknG. Una comparación cercana con el proteoma de M. tuberculosis proporcionó un subconjunto de 20 proteínas que podrían interactuar con PknG. Nuestros resultados confirmaron cinco proteínas asociadas a PknG previamente reportadas: PknG, DnaK chaperona, transportador ABC Rv1747, Proteína Ribosomal L23 y Factor de Elongación Tu, resaltando la validez de nuestra plataforma para descubrir el interactoma de PknG. Así, nuestros resultados revelan interacciones proteína-proteína putativas que podrían participar en la supervivencia micobacteriana, mientras que también proporcionan bases sólidas para desarrollar drogas antituberculosas al interrumpir estas interacciones o explotar estos peptidos tipo compuesto líder. / The ability of Mycobacterium tuberculosis to survive inside the macrophage greatly contributes to its pathogenicity, latency and persistence during infection. This bacillus induces alterations in the intraphagosomal environment and inhibits phagosome maturation, thus promoting mycobacterial survival. M. tuberculosis PknG hijacks the macrophage precisely by avoiding phagosome-lysosome fusion. In this sense, PknG represents a family of novel targets to cope with the need for new antimicrobials for latent tuberculosis. Here, we aimed to: (i) elucidate the structural-molecular basis of ATP and Mg2+ as PknG cofactors; (ii) characterize the kinetic parameters governing PknG:ATP complex formation; and, (iii) identify PknG-binding peptides to experimentally query PknG’s interactome using combinatorial approach such as Phage Display. Our results confirm that PknG exclusively binds to ATP with a dissociation constant (KD) of 108.8  22.9 µM. Mg2+ thermally stabilizes PknG in an ATP-dependent manner. Pre-steady-state analyses show that ATP binding and dissociation are rapid in the PknG:ATP complex. Using PknGN-Ext, TPR we solved the ADP-state crystal structure while showing that ATP precludes crystallization. Phage Display and bioinformatic analyses identified 57 potential PknG binders. A close comparison to the M. tuberculosis proteome provided a subset of 20 proteins that may interact with PknG. Our results confirmed five previously reported PknG-associated proteins: PknG, DnaK chaperone, ABC transporter Rv1747, Ribosomal Protein L23 and Elongation Factor Tu, highlighting our platform’s validity to uncover the PknG interactome. Altogether, our results reveal putative protein-protein interactions that may play a role in mycobacterial survival, while also providing solid bases for the development of anti-tuberculosis drugs by disrupting these interactions or exploiting these lead-like peptide molecules. / Tesis Mycobacterium tuberculosis Serina/treonina proteína quinasa PknG Phage Display Péptidos Secuenciamiento de próxima generación Interactoma Phage Display Peptides Next-generation sequencing Interactome
170	Izolace a stanovení struktur proteinů: hexamerin potemníka Tribolium Castaneum a TmpH fága phi812 / Isolation and determination of the structure of hexamerin of Tribolium castaneum and TmpH protein of phi812 phage. Valentová, Lucie January 2019 (has links) Tato práce se zabývá strukturní studií dvou proteinů: proteinu Tail morphogenetic protein H (TmpH) bakteriofága 812, který napadá Zlatého stafylokoka (Staphylococcus aureus) a hexamerinu z potemníka (Tribolium castaneum). S. aureus je jedním z nejvíce rezistentních patogenů způsobující onemocnění s vysokou morbiditou a mortalitou. Bakteriofág 812 je schopen infikovat a lyzovat 95 % kmenů S. aureus a má potenciální využití ve fágové terapii. Protein TmpH je součástí virionu tohoto fága. V rámci této práce bylo připraveno několik plazmidů nesoucích gen TmpH, které byly použity pro rekombinantní expresi proteinu v buňkách E. coli BL21(DE3). Protein byl vyčištěn afinitní a gelovou chromatografií. Pro čistý protein byly optimalizovány krystalizační podmínky. Hexamerin je nejhojnějším proteinem larev a kukel hmyzu s dokonalou proměnou. V průběhu metamorfózy hexamerin slouží jako zdroj aminokyselin. V rámci této práce byl hexamerin izolován z kukel potemníka T. castaneum. Pro stanovení struktury hexamerinu byly použity dvě metody: rentgenová krystalografie a kryo-elektronová mikroskopie. Byly optimalizovány podmínky pro růst krystalů a vypěstovány krystaly vhodné pro sběr difrakčních dat. Nicméně struktura hexamerinu byla rychleji vyřešena kryo-elektronovou mikroskopií s rozlišením 3.2 . Znalost struktury hexamerinu umožní pochopení jeho funkce v regulaci vývoje hmyzu s dokonalou proměnou.

Search results