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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
51

Efeito da superexpressão do gene miox2 de Arabidopsis, na composição de carboidratos de parede celular secundária de plantas transgênicas de tabaco / Effects of overexpression of the miox2 gene from Arabidopsis, in secondary cell-wall carbohydrate composition in transgenic tobacco plants

Conti, Gabriela 11 December 2007 (has links)
As paredes celulares vegetais são estruturas essenciais para o crescimento e desenvolvimento das plantas. Além das suas diversas funções biológicas, os componentes polissacarídicos constituintes das paredes celulares (celulose, hemiceluloses e pectinas) são de vital importância como fonte natural de fibras para a nutrição humana e animal e são considerados os principais recursos renováveis do planeta, utilizados como matéria-prima para diversos processos industriais, por exemplo nos processos de produção de polpa celulósica. Todos esses fatores têm despertado grande interesse no estudo da composição e biossíntese das paredes celulares. A biossíntese dos seus polímeros se inicia no citoplasma das células, onde ocorre a formação dos precursores por uma rota metabólica complexa de biossíntese de açúcares-nucleotídeo. O entendimento da regulação dessa rota metabólica é fundamental para modular a dinâmica de biossíntese desses açúcares e assim tentar manipular as propriedades bioquímicas das paredes celulares. Nesse contexto, o presente projeto de pesquisa teve como objetivo avaliar o efeito da superexpressão do gene miox2 de Arabidopsis thaliana em plantas de Nicotiana tabacum. O produto desse gene é a enzima mio-inositol oxigenase (E.C. 1.13.99.1), cuja função é converter o mio-inositol em ácido D-glucurônico, composto central da rota de biossíntese de açúcares-nucleotídeo. Foram determinadas quatro isoformas tecido-específicas para o gene miox (miox1, miox2, miox4 e miox5) em Arabidopsis, sendo que a isoforma miox2 é a predominante em caules. Esse gene foi clonado em trabalhos anteriores realizados no laboratório e no presente trabalho, o cDNA do gene miox2 foi superexpresso em plantas de tabaco (Nicotiana tabacum) a fim de se avaliar o efeito da superexpressão na composição de carboidratos de parede celular secundária. As linhagens de plantas transgênicas obtidas, não mostraram diferenças visualmente perceptíveis em comparação aos controles, indicando ausência de alterações fisiológicas e morfológicas. Foram quantificados os monossacarídeos de paredes celulares secundárias (arabinose, ramnose, galactose, glicose, xilose, manose), os ácidos urônicos (ácido galacturônico e glucurônico) e as ligninas (solúvel e insolúvel), a partir de tecido xilemático e parênquima medular do caule. A ausência de modificações significativas nas proporções desses metabólitos, indica que as plantas exercem um estrito controle na regulação da biossíntese de paredes celulares secundárias de forma que a superexpressão do gene miox2 não provocou nenhuma alteração altamente significativa. Outros genes candidatos e os mecanismos envolvidos na sua regulação deverão ser testados quanto ao nível de transcrição, modificações pós-trancricionais e pós-traducionais a fim de entender a regulação do fluxo de carbono para a biossíntese de paredes celulares. / Cell-walls are essential structures for plant development and growth. Apart from its biological functions, the polyssacharides that make cell-walls (cellulose, hemicellulose and pectins) are the principal natural fibrous materials used for human and animal nutrition. They are also considered the most important renewable resource on earth and their use as industrial raw material is inevitable. An example is the use of wood in the production of pulp and paper. For all these reasons, the study of molecular composition and biosynthesis of plant cell-walls has been a matter of great interest for researchers over the past few years. Cell-wall polyssacharides biosynthesis begins at the cytoplasm, where a pool of UDP-glucose and other activated sugar nucleotide precursors are generated by multiple and complex interconvertion reactions. Understanding how cells control the metabolic pathways responsible for sugar nucleotide precursors synthesis, would be a primary requirement for manipulating them in an attempt to generate plants with improved properties for human use. In that context, tha aim of this research work was to analyze the effects of Arabidopsis thaliana miox2 gene overexpression in a plant model system (Nicotiana tabacum). The product of miox2 gene is myo-inositol oxygenase enzyme 2 (E.C.1.13.99.1) which converts D-glucuronic acid, an important sugar nucleotide precursor, from its substrate myo-inositol. Four isoforms of miox gene, with apparent tissue specific expression (miox1, miox2, miox4 and miox5) were already determined, but miox2 is the one primarily expressed in stems. Its cDNA was cloned from Arabidopsis thaliana in previous works and overexpressed in tobacco plants. Five normal transgenic lines were obtained, showing no phenotypically differences relative to the control line. This fact implied that miox2 overexpression did not alter any physiological nor morphological aspect of plant development. The cell-wall monossacharides (arabinose, rhamnose, galactose, glucose, xylose and mannose), uronic acids (galacturonic and glucuronic acid) and lignins (soluble and insoluble) from stem xylem and parenchymal tissue were quantified. The absence of major changes in any of the compounds measured for the transgenic lines indicated that they were able to adjust their level of carbohydrate composition. Plants seem to regulate the proportions of sugar nucleotide precursors through highly complex metabolic pathways that establish strong compensatory mechanisms. It will be necessary to study other candidate genes and some aspects of their regulation at transcriptional, postranscriptional and postransaltional level, as an attempt to understand the cell-wall carbohydrate flux.
52

Análise genômica de Streptomyces olindensis DAUFPE 5622 e de suas vias crípticas para a obtenção de novos metabólicos secundários de interesse biotecnológico. / Analysis of Streptomyces olindensis DAUFPE 5622 genome and its cryptic pathways to obtain new secondary metabolites of biotechnological interest.

Torres, Maria Alejandra Ferreira 08 December 2015 (has links)
Os compostos de origem microbiana tem readquirido interesse pela biodisponibilidade, especificidade de alvo e diversidade química, mas as vias biosintéticas permanecem crípticas em condições de cultura. Uma estratégia para expressa-las é a super-expressão de genes ativadores. O laboratório de Bio-Produtos no ICB na USP tem trabalhado com Streptomyces olindensis produtor da Cosmomicina D uma molécula com atividade antitumoral de interesse devido ao padrão de glicosilação. O genoma de S. olindensis foi sequenciado e submetido ao NCBI (JJOH00000000) e utilizando o software antiSMASH foram identificados 33 clusters envolvidos na produção de metabolitos secundários. Encontraram-se clusters gênicos para a produção de metabolitos como Melanina, Geosmina, entre outros. Além, foi realizada uma analise de genômica comparativa para caracterizar e anotar as 22 vias biossintéticas desconhecidas em S. olindensis. Finalmente, escolheram-se a via do aminociclitol e um Policetídeo Tipo I para a super-expressão de genes reguladores levando a detecção do composto sob condições de cultura. / Microbial metabolites regain interest due to its bioavailability, target specificity and chemical diversity, but the biosynthetic pathways remain silenced under culture conditions. A strategy to obtain them is the over expression of regulatory genes. Bio-products laboratory at USP has been working with Streptomyces olindensis, products of Cosmomycin D, an antitumoral molecule with a distinctive glycosylation pattern. S. olindensis genome was sequenced and submitted to NCBI (JJOH00000000) and employing antiSMASH server 33 secondary metabolite related clusters were identified. Known pathways were found such as genes for melanin production, Geosmin and others. Additionally, a comparative genomic approach was used to characterize the 22 biosynthetic unknown pathways described in S. olindensis. Subsequently, Aminocyclitol and Polyketide Type I were chosen to evaluated, over expressing the regulatory genes, leading to the compound detection in regular culture conditions.
53

Paracoccina: uma quitinase importante para a patobiologia e virulência de Paracoccidioides brasiliensis / Paracoccin: a major chitinase for the pathobiology and virulence of Paracoccidioides brasiliensis

Relber Aguiar Gonçales 26 July 2018 (has links)
Espécies do gênero Paracoccidioides spp são fungos patogênicos, termodimórficos, agentes etiológicos de doença endêmica em diversas regiões da América Latina. O indivíduo infectado desenvolve uma resposta específica que, quando associada à alta produção de TNF-? e IFN-?, favorece a resistência ao fungo. Componentes de alguns fungos patogênicos foram caracterizados, por técnicas de knockdown gênico, como importantes para a virulência fúngica. Nosso grupo identificou paracoccina (PCN) como um componente de leveduras de P. brasiliensis; trata-se de uma proteína com um domínio enzimático, dotado de atividade quitinase e um domínio lectínico, ligante de GlcNAc. PCN é dotada das seguintes propriedades: (a) contribui para o crescimento do fungo; (b) promove a adesão da levedura à matriz extracelular, por ligar-se à laminina; (c) interage com N-glicanas de TLR2 e TLR4 e promove ativação celular; (d) estimula macrófagos a produzirem mediadores pró-inflamatórios como IL- 12, TNF-? e NO; (e) promove a polarização M1 de macrófagos; (f) induz atividade fungicida em neutrófilos, bem como formação de NETs e supressão da apoptose, eventos que se mostraram dependentes da síntese de novo de proteínas pelos neutrófilos estimulados. Dada a relevância das atividades biológicas de PCN, promovemos recentemente o silenciamento do gene que codifica essa proteína, através de metodologia que usa RNA anti-sense e transformação mediada por Agrobacterium tumefaciens (ATMT). Uma vez PCN silenciada, a levedura perdeu a capacidade de fazer a transição para micélio e diminuiu a resistência à atividade fungicida de macrófagos. A infecção de camundongos com as cepas silenciadas, em comparação com as WT, causou doença de menor gravidade, com carga fúngica reduzida e baixa taxa de mortalidade. Essas observações sugerem de que PCN funcione como um fator de virulência em P. brasiliensis, que afeta a patogênese da infecção. Neste trabalho, ampliamos as ferramentas moleculares de manipulação do fungo e viabilizamos a superexpressão de PCN em leveduras de P. brasiliensis, tendo como objetivos estudar seu papel na virulência e na patogênese da infecção, bem como determinar os mecanismos responsáveis por tais atividades. A inoculação de leveduras que superexpressam PCN (ov-PCN) em camundongos causou doença pulmonar muito grave, em comparação à doença leve e moderada causada por leveduras silenciadas em PCN e leveduras WT, respectivamente. Nesse sentido, nossos esforços se dedicaram à busca dos mecanismos dos mecanismos através dos quais PCN influencia o curso da infecção experimental. Na tentativa de identificar o papel exercido pelo domínio quitinase da PCN, coletamos o sobrenadante de culturas de leveduras ov-PCN e WT. Partículas de quitina presentes nesses sobrenadantes foram purificadas por afinidade à lectina WGA (wheat germ agglutinin). Através de medida da área das partículas capturadas, através de microscopia eletrônica e aplicação do programa ImageJ, verificamos que a superexpressão de PCN resultou em clivagem mais eficiente da quitina da parede de leveduras, uma vez que apenas partículas muito pequenas (mediana das medidas = 2 nm2) foram detectadas, enquanto as áreas das partículas de quitina obtidas de leveduras selvagens (WT) forneceram mediana 3 vezes maior (6 nm2). As partículas de quitina foram então utilizadas para estimular macrófagos a produzirem citocinas. As obtidas de ov-PCN estimularam preponderantemente a secreção da citocina antiinflamatória IL-10, enquanto os macrófagos estimulados com partículas de leveduras WT produziram mais TNF-? e IL-1?, ambas de efeito pró-inflamatório. Esses resultados permitiram a identificação de um mecanismo importante para que a superexpressão de PCN se associe à ocorrência de doença pulmonar muito grave: o microambiente anti-inflamatório criado pelo estímulo de macrófagos por PCN leva ao desenvolvimento de resposta imune não protetora do tipo Th2 e lesões mais graves. Um segundo mecanismo foi identificado ao compararmos a resistência de leveduras ov-PCN e WT às respostas efetoras de macrófagos. A superexpressão de PCN associou-se à maior internalização das leveduras e maior resistência à atividade fungicida exercida por macrófagos. O estudo demonstra que diferentes níveis da expressão de uma quitinase (como PCN) levam à resistência a atividades antifúngicas de macrófagos e a diferentes graus de clivagem de quitina. A clivagem, por sua vez, pode alterar a estrutura da parede celular fúngica e a geração de fragmentos de quitina, cujos tamanhos e concentrações influenciam a produção de citocinas pelos macrófagos. Sob a ação de citocinas pró- ou antiinflamatórias liberadas pelos macrófagos e, consequentemente, a montagem de respostas adaptativas pode ser decisiva para haver suscetibilidade ou resistência à infecção por P. brasiliensis. Este trabalho proporciona um importante avanço no conhecimento do papel de quitinases na resposta anti-fúngica do hospedeiro. / Species of the genus Paracoccidioides spp are thermodymorphic fungi that cause a systemic disease, which is endemic in several regions of the Latin America. The infected individual develops a specific response that, when associated with the high production of TNF-? and IFN- ?, favors resistance to the fungus. Components of some pathogenic fungi were characterized by gene knockdown techniques as important the for fungal virulence. Our group has identified a component of P. brasiliensis, named Paracoccin (PCN); it is a bifunctional protein with an enzymatic domain, endowed with chitinase activity and a lectin domain, which binds GlcNAc and chitin, a GlcNAc polymers. PCN has the following properties: (a) contributes to the fungus growth; (b) promotes the yeast adhesion to the extracellular matrix, by binding to laminina glycans; (c) interacts with TLR2 and TLR4 N-glycans, which triggers cell activation; (d) stimulates macrophages to produce proinflammatory mediators, such as IL-12, TNF-? and NO; (e) promotes the M1 polarization of macrophages; (f) induces the neutrophils fungicidal activity, NETs formation, and suppression of neutrophils apoptosis, which are depending events on the de novo protein synthesis by neutrophils. Given the relevant biological activities exerted by PCN, we have performed recently the silencing of the gene that codes for this protein through a system that uses RNA anti-sense and Agrobacterium tumefaciens mediated transformation (ATMT). Once having the PCN gene silenced, yeast lost the ability of doing the transition to mycelium and decreased its resistance to macrophages fungicidal activities. Mice infection with PCN-silenced yeasts, compared to the infected with WT yeasts, exhibited a milder pulmonary disease with reduced fungal burden and low mortality rate. These observations suggest that PCN acts as a P. brasiliensis virulence factor that affects the pathogenesis of the fungal infection. In the present study, we expanded the molecular tools for the fungus manipulation and enabled the overexpression of PCN in P. brasiliensis yeasts, aiming to elucidate the PCN role in the fungus virulence and the infection pathogenesis, as well as determining the responsible mechanisms for the PCN activities. Inoculation of the PCN overexpressing yeasts (ov-PCN) into mice caused a very severe lung disease, compared to the mild and moderate diseases caused by PCN-silenced and WT yeasts, respectively. Then our efforts became dedicated to the search of mechanisms through which PCN influences the course of the experimental fungal disease. In an attempt to identify the role of the PCN chitinase domain, we harvested the supernatant of the ov-PCN and WT yeasts cultures. Chitin particles contained in the supernatants have been captured by affinity to the immobilized WGA (wheat germ agglutinin) lectin. By measuring through electron microscopy and application of the ImageJ program the area of the isolated chitin particles, we verified that the overexpression of PCN resulted in a more efficient cleavage of whole chitin molecules contained in the yeast cell wall, since only very small particles (median of the measurements = 2 nm2) were detected, while the the chitin particles areas obtained from WT-yeasts provided a median 3 fold higher (6 nm2). Then, the preparations of chitin particles were taken to stimulate macrophages to produce cytokines. The particles obtained from ov-PCN have stimulated preponderantly the secretion of the anti-inflammatory cytokine IL-10, whereas the macrophages stimulated with WT yeast particles have produced higher concentrations of TNF-? and IL-1?, which are known proinflammatory cytokines. These results allowed the identification of an important mechanism for the association of PCN overexpression to the occurrence of very severe pulmonary disease: the anti-inflammatory microenvironment created by the macrophages stimulation with PCN leads to the development of a non-protective Th2-type immune response and the more severe pulmonary injury. A second mechanism was identified as implicated in the severity of the lung disease associated to PCN overexpression. We compared the sensitivity of ov-PCN and WT yeasts to macrophages effector functions. PCN overexpressing yeasts were better internalized by macrophages and more resistant to the fungicidal activity of these cells, events that contributes for the high pulmonary fungal load verified in mice infected with ov-PCN yeasts. The study demonstrates that different levels of a chitinase (PCN) expression and enzymatic activity lead yeasts to change their sensitivity to macrophages antifungal activities as well as to different grades of chitin cleavage. The cleavage, in its turn, leads to changes in the structure of the fungal cell wall and generation of chitin fragments, whose sizes and concentrations influence the cytokines production by macrophages. Under the influence of pro-inflammatory or anti-inflammatory cytokines released by macrophages, the mounted adaptative responses can be decisive in conferring susceptibility or resistance to the P. brasiliensis infection. This study provides an important advance in the knowledge on the role of a chitinase in the host antifungal response.
54

Análise funcional do fator de transcrição DREB6A de feijão (Phaseolus vulgaris L.) pela superexpressão em Arabidopsis thaliana / Functional analysis of the transcription factor DREB6A from common bean (Phaseolus vulgaris L.) by overexpression in Arabidopsis thaliana

Pereira, Ana Carolina Vieira Zakir 03 June 2014 (has links)
Estresses abióticos como seca, alta salinidade e baixas temperaturas, afetam o crescimento e a produtividade em culturas de interesse comercial como o feijoeiro comum. Proteínas DREB (Dehydration Responsive Element Binding) são fatores de transcrição que regulam genes específicos envolvidos na tolerância ao estresse abiótico. Para determinar como as plantas toleram condições ambientais adversas, variedades tolerantes, biologia molecular e bioinformática podem ser aplicadas para identificar e caracterizar genes que controlam mecanismos de adaptação a estresses. Baseado nas informações disponíveis nos bancos de dados públicos, a sequência da Orf completa do gene Phvul.009G029600.1| PACid:27146455 contendo 1062 pb foi encontrada e usada para o desenho dos primers e para o sequenciamento. A nova sequência é muito similar ao AtRAP2.4 e foi nomeada como PvDREB6A, segundo a análise filogenética. Ferramentas de predição mostraram que a sequência apresenta 354 aminoácidos e possui uma cópia do domínio AP2, que se dobra em uma estrutura com três ?-folhas e uma ?-hélice apresentando resíduos importantes e motivos específicos de reconhecimento e de ligação ao DNA. Além disso, um peptídeo trânsito foi detectado na porção N-terminal com um sítio de clivagem no resíduo 52. A interação deste fator de transcrição com seu domínio de ligação ao DNA foi validada por Electro Mobility Shift Assay (EMSA). A localização subcelular da proteína foi realizada e expressão da Green Fluorescent Proteín (GFP) foi detectada no núcleo. A transformação genética para a superexpressão do gene PvDREB6A em plantas de Arabidopsis thaliana Columbia-0 e mutantes nocaute para o gene AtRAP2.4 (Salk_020767C) foi realizada. Quatro eventos com cópia única e melhor expressão do gene PvDREB6A denominados Col-0/pFEC2.1 #1, Salk_020767C/pFEC2.1 #13.1, Salk_020767C/ pFEC2.1 #19.7 e Salk_020767C/ pFEC2.1 #23.7, foram selecionados. O evento Salk_020767C/pFEC2.1 #23.7 mostrou melhor expressão do gene PvDREB6A e foi visualizado sob luz UV. A análise funcional revelou que as plantas transgênicas submetidas ao déficit hídrico, à alta salinidade e ao frio, apresentaram maior taxa de sobrevivência. Plantas transgênicas superexpressando o gene PvDREB6A apresentaram menor taxa de desidratação e de vazamento de eletrólitos quando submetidas a estresses abióticos. Uma análise da expressão de genes relacionados à tolerância foi conduzida. A quantificação revelou que a expressão de 18 genes: AtDC1.2, AtUSP, AtKIN1, AtERF69, AtGolS3, AtMT2A, AtCAP160, AtNTR1.7, AtGPR7, AtPDC2, AtLTI78, AtCOR15a, AtCOR15b, AtCOR47, AtCOR413, AtLEA6, AtLEA9 e AtLEA14, relacionados a tolerância a seca, sal e frio foram up-regulated devido à superexpressão do gene PvDREB6A de feijoeiro nas plantas transgênicas / Abiotic stresses like drought, high salinity and low temperatures affect growth and productivity in crops of economic interest such as common bean. DREB (Dehydration Responsive Element Binding) proteins are transcription factors that activate specific genes involved in tolerance to abiotic stress. To generate new information on the research for drought and other abiotic stresses, tolerant varieties, molecular biology and bioinformatics can be applied to identify and characterize genes that control plant defense and adaptation mechanisms to water deprivation, to excessive salt and to high/low temperature. Based on public databases, a common bean DREB sequence was found and an in silico study was carried out. A complete Orf sequence Phvul.009G029600.1 |PACid:27146455 containing 1062 bp was found and used for primer design and sequencing. The new sequence was very similar to AtRAP2.4 and named as PvDREB6A, according to phylogenetic analysis. Prediction tools showed that the deduced 354 aa sequence has one copy of the AP2 domain, folding in a three ?-sheets and one ?-helix structure, and presenting important residues and motifs for DNA contacting and binding specificity. In addition, a chloroplast transit peptide was detected at the N-terminal region with cleavage site in the 52 residue. Binding activity of this transcription factor was validated by Electro Mobility Shift Assay (EMSA). Subcellular localization was verified by transient expression of PvDREB6A::GFP in Nicotiana benthamiana and the expression of GFP was detected at the nucleus. Genetic transformation for overexpression of PvDREB6A gene in Arabidopsis thaliana wild type and knockout mutant for AtRAP2.4 gene was conducted. Four single copy events with better expression of the PvDREB6A named Col-0/pFEC2.1 #1, Salk_020767C/pFEC2.1 #13.1, Salk_020767C/pFEC2.1 #19.7 and Salk_020767C/pFEC2.1 #23.7 were selected. The event Salk_020767C/pFEC2.1 #23.7 showed the best expression of PvDREB6A and was visualized under UV light. Functional analysis, revealed that transgenic plants under water deficit, high salt, and cold showed higher survival rate. Transgenic plants overexpressing the PvDREB6A exhibited lower water loss rate and electrolyte leakage rate under abiotic stress. A gene expression analysis with tolerant-related genes was conduted. The quantification revealed that 18 genes, AtDC1.2, AtUSP, AtKIN1, AtERF69, AtGolS3, AtMT2A, AtCAP160, AtNTR1.7, AtGPR7, AtPDC2, AtLTI78, AtCOR15a, AtCOR15b, AtCOR47, AtCOR413, AtLEA6, AtLEA9 e AtLEA14, related to drought, salt and cold tolerance, were up-regulated due to the overexpression of PvDREB6A from common bean in the transgenic plants
55

CLONAGEM E EXPRESSÃO DO GENE xynB3 QUE CODIFICA A β-XILOSIDASE III NA BACTÉRIA AQUÁTICA Caulobacter crescentus / CLONING AND EXPRESSION OF xynB3 GENE CODING FOR -XYLOSIDASE III IN Caulobacter crescentus AQUATIC BACTERIUM

Bosetto, Adilson 10 March 2015 (has links)
Made available in DSpace on 2017-05-12T14:47:06Z (GMT). No. of bitstreams: 1 Dissertacao_ Adilson Bosetto 2015 PDF.pdf: 2419034 bytes, checksum: 3fdc9e711199e04fe0746f89b07c4bea (MD5) Previous issue date: 2015-03-10 / The application of enzymes in industrial processes, in its broad sense, has shown the market evolution for innovative alternatives for preserving the environment. Brazil has a great potential to develop some technologies, which allow the use of such materials as substratum for products with higher added value, due to the large amount of lignocellulose as waste that comes from agriculture. Therefore, the analysis of genes expression related to microbial degradation of plant cell wall has caught the researchers attention, mainly because it is associated to the possibility of controlled large-scale synthesis of enzymes applied in biofuel production. In this context, the Gram-negative bacterium C. crescentus is found as a promising microorganism for biotechnological exploitation due to its ability on degrading xylan, the major component of plant hemicellulose. There are several genes in the bacterial genome that codify to Xylanases and β-Xylosidases. In order to purify and biochemically characterize the β-Xylosidase III protein of C. crescentus, xynB3 gene (CCNA_00856) that contains 1,623 nucleotides and encodes a protein with conserved domains of β-Xylosidase with 540 amino acid residues has been studied. Therefore, xynB3 gene was isolated from genomic DNA of C. crescentus NA1000 by Polymerase Chain Reaction (PCR) using specific primers. The single amplification product was cloned into pJet1.2Blunt vector in non-cohesive sites and reintroduced in vector of pTrcHisA expression within the reading frame to produce a histidine tag at the amino-terminus area of fusion protein. The obtained construction was denominated pTrcHis-xynB3 and the confirmation of its gene identification was figured out by the DNA sequence after insertion into the TOP10 E. coli strain and subsequent experimental tests of expression in different temperature of growth, IPTG concentrations and induction times. The recombinant protein was overexpressed into inclusion bodies, thus, in a non-soluble form. Different induction and purification protocols were used to obtain the β-xylosidase III pure of C. crescentus, in native or non-native form. However, assays of enzymatic activity with different substrates neither demonstrated β-xylosidase activity nor detectable levels of the protein. These results suggest that the enzyme was not active during the assays, due its expression in inclusion bodies. This suggests that this protein may have a toxic effect on E. coli when expressed at high levels. Thus, this trial contributes to additional data about the xylanolytic complex concerning the aquatic bacterium C. crescentus. / A utilização de enzimas em processos industriais, no seu sentido mais amplo, demonstra a evolução do mercado em relação a alternativas inovadoras de preservação do meio ambiente. Devido à grande quantidade de material lignocelulósico residuário, proveniente da agricultura, o Brasil é um país com elevado potencial para o desenvolvimento de tecnologias que possibilitem a utilização desses materiais como substrato para produtos de maior valor agregado. Dessa forma, o estudo da expressão de genes microbianos relacionados com a degradação da parede celular vegetal tem despertado a atenção de pesquisadores, principalmente pelo fato de estar relacionado com a possibilidade de síntese controlada e em larga escala de enzimas utilizadas na produção de biocombustíveis. Neste contexto, a bactéria gram-negativa Caulobacter crescentus encontra-se como um microrganismo promissor para a exploração biotecnológica em função da capacidade que tem de degradar o xilano, principal componente hemicelulósico das plantas. Essa bactéria contém em seu genoma vários genes que codificam para xilanases e β-xilosidases. Dentre eles o gene xynB3 (CCNA_00856), que apresenta 1623 nucleotídeos e codifica uma proteína contendo domínios conservados de β-xilosidase, com 540 resíduos de aminoácidos, denominada neste trabalho como β-xilosidase III de C. crescentus. Com o objetivo de possibilitar em estudos futuros a caracterização bioquímica dessa proteína, foi estudado o gene xynB3. Para isso, xynB3 foi isolado a partir do DNA genômico de C. crescentus NA1000 por Reação em Cadeia da Polimerase (PCR) usando oligonucleotídeos específicos. O único produto de amplificação foi clonado no vetor pJet1.2blunt em sítios não coesivos e reintroduzido no vetor de expressão pTrcHisA dentro do quadro de leitura para a produção de uma cauda de histidinas na região amino-terminal da proteína de fusão. A construção obtida foi denominada pTricHis-xynB3 e após confirmação da identidade da mesma por sequenciamento de DNA foi inserida na cepa TOP10 de Escherichia coli e submetida a ensaios experimentais de expressão com diferentes temperaturas de crescimento, concentrações de IPTG e tempos de indução. A proteína recombinante foi super-expressa em corpos de inclusão, portanto, em uma forma não solúvel. Diferentes protocolos de indução e purificação foram empregados para obtenção da β-xilosidase III de C. crescentus pura, em forma nativa ou não nativa. Entretanto, nos ensaios de atividade enzimática, com diferentes substratos, foram obtidos níveis de atividade de β-xilosidase não detectáveis pelas ferramentas utilizadas. Esses resultados sugerem que a enzima não se mostrou ativa durante os ensaios, em função da formação de corpos de inclusão. Isso leva a crer que essa proteína pode apresentar efeito tóxico para E. coli quando expressa em níveis elevados. Assim, este trabalho contribui com dados adicionais a cerca do complexo xilanolítico da bactéria aquática C. crescentus.
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Rab Proteins and Alzheimer's: A Current Review of Their Involvement in Amyloid Beta Generation with Focus on Rab10 Expression in N2A-695 Cells

Arano Rodriguez, Ivan 01 March 2015 (has links)
This thesis work describes the role of Rab proteins in amyloid processing and clearance in different cell pathways. It also describes an experimental approach used to analyze the expression effects of Rab10 in amyloid beta production. Since the main theory behind neurodegeneration in Alzheimer's disease claims that high levels of amyloid beta 42 (Aβ42) molecules trigger widespread neuronal death, control of Aβ42 has been a main target in Alzheimer's disease research. In addition, several studies show increased levels of particular Rab proteins in Alzheimer's pathogenesis. However, no review consolidates current findings in neurodegeneration of Alzheimer's with Rab protein dysfunction. The first chapter of this thesis aims to address this need by providing a current review of Rab proteins associated with APP and neurodegeneration. The second chapter constitutes an experimental approach used to characterize the effects of Rab10 and Sar1A GTPases in APP and amyloid processing. We found that Rab10 expression does not affect APP production but significantly changes Aβ generation, particularly the toxic Aβ42 and Aβ42:40 ratio. On the other hand, we found no significant effect of Sar1A expression on either APP or amyloid beta generation. These findings partially confirm the work done by Kauwe et al (2015) and provide preliminary evidence for two potential targets for protective effects in neurodegeneration.
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Functional studies of a membrane-anchored cellulase from poplar

Jonsson Rudsander, Ulla January 2007 (has links)
Cellulose in particular and wood in general are valuable biomaterials for humanity, and cellulose is now also in the spotlight as a starting material for the production of biofuel. Understanding the processes of wood formation and cellulose biosynthesis could therefore be rewarding, and genomics and proteomics approaches have been initiated to learn more about wood biology. For example, the genome of the tree Populus trichocarpa has been completed during 2006. A single-gene approach then has to follow, to elucidate specific patterns and enzymatic details. This thesis depicts how a gene encoding a membrane-anchored cellulase was isolated from Populus tremula x tremuloides Mich, how the corresponding protein was expressed in heterologous hosts, purified and characterized by substrate analysis using different techniques. The in vivo function and modularity of the membrane-anchored cellulase was also addressed using overexpression and complementation analysis in Arabidopsis thaliana. Among 9 genes found in the Populus EST database, encoding enzymes from glycosyl hydrolase family 9, two were expressed in the cambial tissue, and the membrane-anchored cellulase, PttCel9A1, was the most abundant transcript. PttCel9A1 was expressed in Pichia pastoris, and purified by affinity chromatography and ion exchange chromatography. The low yield of recombinant protein from shake flask experiments was improved by scaling up in the fermentor. PttCel9A1 was however highly heterogenous, both mannosylated and phosphorylated, which made the protein unsuitable for crystallization experiments and 3D X-ray structure determination. Instead, a homology model using a well-characterized, homologous bacterial enzyme was built. From the homology model, interesting point mutations in the active site cleft that would highlight the functional differences of the two proteins could be identified. The real-time cleavage patterns of cello-oligosaccharides by mutant bacterial enzymes, the wildtype bacterial enzyme and PttCel9A1 were studied by 1H NMR spectroscopy, and compared with results from HPAEC-PAD analysis. The inverting stereochemistry for the hydrolysis reaction of the membrane-anchored poplar cellulase was also determined by 1H NMR spectroscopy, and it was concluded that transglycosylation in vivo is not a possible scenario. The preferred in vitro polymeric substrates for PttCel9A1 were shown to be long, low-substituted cellulose derivatives, and the endo-1,4--glucanase activity was not extended to branched or mixed linkage substrates to detectable levels. This result indicates an in vivo function in the hydrolysis of “amorphous” regions of cellulose, either during polymerization or crystallization of cellulose. In addition, overexpressing PttCel9A1 in A. thaliana, demonstrated a correlation with decreased crystallinity of cellulose. The significance of the different putative modules of PttCel9A1 was investigated by the construction of hybrid proteins, that were introduced into a knock-out mutant of A. thaliana, and the potential complementation of the phenotype was examined. A type B plant cellulase catalytic domain could not substitute for a type A plant cellulase catalytic domain, although localization and interaction motifs were added to the N- and C-terminus. / QC 20100802
58

Estrategias para la diferenciación in vitro de células ES de ratón a células acinares pancreáticas

Rovira Clusellas, Meritxell 31 January 2007 (has links)
Las patologías más importantes del páncreas exocrino, como la pancreatitis crónica (PC) o el cáncer de páncreas, representan un gran problema de salud pública en Europa. En la PC, el tejido acinar es substituido por complejos ductales. Además, es difícil mantener el fenotipo diferenciado de las células acinares en cultivo ya que sufren una transdiferenciación acinar-ductal.Las células madre embrionarias (ES) de ratón han sido utilizadas en la última década para generar in vitro células completamente diferenciadas de varios linajes celulares. No obstante, la capacidad de las células ES a diferenciarse a tipos celulares de origen endodérmico es muy limitada. El objetivo principal de este proyecto ha consistido en desarrollar estrategias para diferenciar células ES de ratón a células pancreáticas acinares con una elevada eficiencia mediante 1) la optimización de las condiciones de cultivo con tal de activar vías de señalización implicadas en el desarrollo/diferenciación pancreáticas; 2) la sobreexpresión de factores transcripcionales maestros utilizando vectores virales con el fin de recapitular específicamente un programa de diferenciación acinar; 3) la selección genética de las células comprometidas al linaje acinar con el objetivo de purificar las células acinares diferenciadas.Mediante la integración de estos abordajes, hemos conseguido aislar células que comparten características fenotípicas con células acinares inmaduras según la expresión de marcadores de diferenciación y la respuesta funcional a secretagogos. / Exocrine pancreatic diseases such as chronic pancreatitis (PC) or pancreatic cancer are major health issues in Europe. In CP, the acinar tissue is substituted by ductal complexes. In addition, it is difficult to maintain the differentiated phenotype of the acinar cells in culture as within few days an acinar-ductal transdifferentiation takes place.In the last decade, mouse embryonic stem cells (mES) have been used to generate differentiated cells of a variety of cellular lineages in vitro. However, the ability of ES cells to differentiate into endodermal lineages is limited. The main objective of this project has focused on the development of strategies to differentiate mES to pancreatic acinar cells with high efficiency by means of: 1) Optimization of cell culture conditions to activate signalling pathways involved in pancreatic differentiation/development; 2) the overexpression of master transcription factors involved in pancreas development using viral vectors in order to recapitulate specific acinar differentiation program; 3) the genetic selection of cells committed to the acinar linage in order to purify the differentiated cells.The integration of these different strategies allowed us to isolate cells that share phenotypic features with immature acinar cells according to the expression of differentiation markers and the functional response to acinar secretegogues.
59

Functional analysis of Abp1 in Dictyostelium

Wang, Yanqin, 1974- 05 May 2015 (has links)
This work identified an ortholog of Abp1 (actin binding protein 1) in Dictyostelium (Dabp1). In order to analyze the functions of Dabp1 in Dictyostelium, loss-of–function studies and gain-of-function studies were performed by generating cells that either deleted the Dabp1 gene from the genome or overexpressed the Dabp1 protein. In these mutants, most actin-based processes were intact. However, cell motility was altered during early development. During chemotactic streaming, more than 90% of wild type cells had a single leading pseudopodium and a single uropod, whereas more than 27% of Dabp1 null cells projected multiple pseudopodia. Similarly, ~ 90% of cells that overexpressed Dabp1 projected multiple pseudopodia during chemotactic streaming, and displayed reduced rates of cell movement. Expression of the SH3 domain of Dabp1 showed this domain to be an important determinant in regulating pseudopodium number. These results suggest that Abp1 controls pseudopodium number and motility in early stages of chemotactic aggregation in Dictyostelium. This work also revealed an interplay between Dabp1 and MyoB, one of the Myosin I proteins, in controlling pseudopodia formation in Dictyostelium. These two proteins colocalize partially at the cortex in growing cells. The peripheral localization of MyoB was dependent on Dabp1. Depletion of both Dabp1 and MyoB caused defects in organization of the actin cytoskeleton and actin related activities such as formation of small F-actin filled spikes on the cell cortex of growing cells, a higher percentage of multinucleated cells, and an increased number of pseudopodia branching extensively. When MyoB was overexpressed in Dabp1 null mutants, cells had similar phenotypes as Dabp1/MyoB double null mutants, and displayed an increased number of pseudopodia with many branches. Overexpression of Dabp1 in MyoB null mutants rescued the defects in pseudopodia formation. The SH3 of Dabp1 was shown to be important for the rescue of defects caused by depletion of MyoB. Collectively, these data suggest that MyoB and Dabp1 work cooperatively to regulate the uniformity and integrity of the actin extensions during chemotaxis. MyoB requires Dabp1 to function in this process. Dabp1 may function as a scaffold to recruit MyoB to the proper localization. These studies of Dabp1 in Dictyostelium raise broad question about functions of actinassociated proteins in pseudopodia formation and the importance of uniformity and integrity for actin structures in chemotaxis. / text
60

Understanding the mechanisms of floor plate specification in the vertebrate midbrain and its functions during development

Bayly, Roy Downer, 1981- 15 October 2009 (has links)
We have previously shown that the arcuate organization of cell fates within the ventral midbrain critically depends upon the morphogen, Sonic Hedgehog (SHH), which is secreted from a signaling center located along the ventral midline, called the floor plate (FP). Thus, it is ultimately the specification of the FP that is responsible for the patterning and specification of ventral midbrain cell fates. Interestingly, we have found that the chick midbrain FP can be divided into medial (MFP) and lateral (LFP) regions on the basis of gene expression, mode of induction and function. Overexpression of SHH alone is sufficient to recapitulate the entire pattern of ventral cell fates, although remarkably it cannot induce MFP, consistent with the observation that the MFP is refractory to any perturbations of HH signaling. In contrast, overexpression of the winged-helix transcription factor FOXA2/HNF3[beta]robustly induced the MFP fate throughout ventral midbrain while blocking its activity resulted in the absence of the MFP. Thus, by analyzing the differences between SHH and FOXA2 blockade and overexpression, we were able to attribute functions to each the LFP and the MFP. Notably, we observed that FOXA2 overexpression caused a bending of the midbrain neurepithelium that resembled the endogenous median hinge-point observed during neurulation. Additionally, FOXA2 misexpression led to a robust induction of DA progenitors and neurons that was never observed after SHH expression alone. In contrast, we found that all other ventral cell types required HH signaling directly, at a distance and early on in the development of the midbrain when its tissue size is relatively small. Additionally, HH blockade resulted in increased cell-scatter of the arcuate territories and in the disruption of the regional boundaries between the ventral midbrain and adjacent tissue. Thus, we bring new insight into the mechanism by which midbrain FP is specified and ascribe functional roles to its subregions. We propose that while the MFP regulates the production of dopaminergic progenitors and the changes in cellshape required for bending and shaping the neural tube, the LFP appears to be largely responsible for cell survival and the formation of a spatially coherent pattern of midbrain cell fates. / text

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