27 resultados para Pseudomonas Putida Biosensor
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Dissertação para obtenção do Grau de Doutor em Biotecnologia
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Dissertação para obtenção do Grau de Mestre em Biotecnologia
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Dissertation presented in partial fulfilment of the Requirements for the Degree of Master in Biotechnology
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Dissertação para obtenção do Grau de Mestre em Genética Molecular e Biomedicina
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Dissertação para obtenção do Grau de Mestre em Bioquímica
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Due to the importance and wide applications of the DNA analysis, there is a need to make genetic analysis more available and more affordable. As such, the aim of this PhD thesis is to optimize a colorimetric DNA biosensor based on gold nanoprobes developed in CEMOP by reducing its price and the needed volume of solution without compromising the device sensitivity and reliability, towards the point of care use. Firstly, the price of the biosensor was decreased by replacing the silicon photodetector by a low cost, solution processed TiO2 photodetector. To further reduce the photodetector price, a novel fabrication method was developed: a cost-effective inkjet printing technology that enabled to increase TiO2 surface area. Secondly, the DNA biosensor was optimized by means of microfluidics that offer advantages of miniaturization, much lower sample/reagents consumption, enhanced system performance and functionality by integrating different components. In the developed microfluidic platform, the optical path length was extended by detecting along the channel and the light was transmitted by optical fibres enabling to guide the light very close to the analysed solution. Microfluidic chip of high aspect ratio (~13), smooth and nearly vertical sidewalls was fabricated in PDMS using a SU-8 mould for patterning. The platform coupled to the gold nanoprobe assay enabled detection of Mycobacterium tuberculosis using 3 8l on DNA solution, i.e. 20 times less than in the previous state-of-the-art. Subsequently, the bio-microfluidic platform was optimized in terms of cost, electrical signal processing and sensitivity to colour variation, yielding 160% improvement of colorimetric AuNPs analysis. Planar microlenses were incorporated to converge light into the sample and then to the output fibre core increasing 6 times the signal-to-losses ratio. The optimized platform enabled detection of single nucleotide polymorphism related with obesity risk (FTO) using target DNA concentration below the limit of detection of the conventionally used microplate reader (i.e. 15 ng/μl) with 10 times lower solution volume (3 μl). The combination of the unique optical properties of gold nanoprobes with microfluidic platform resulted in sensitive and accurate sensor for single nucleotide polymorphism detection operating using small volumes of solutions and without the need for substrate functionalization or sophisticated instrumentation. Simultaneously, to enable on chip reagents mixing, a PDMS micromixer was developed and optimized for the highest efficiency, low pressure drop and short mixing length. The optimized device shows 80% of mixing efficiency at Re = 0.1 in 2.5 mm long mixer with the pressure drop of 6 Pa, satisfying requirements for the application in the microfluidic platform for DNA analysis.
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O presente trabalho teve como principais objectivos o estudo do mecanismo da libertação do ferro em proteínas da família da ferritina (DNA-binding proteins from starved cells, Dps), bem como a identificação, produção e caracterização de potenciais parceiros redox destas proteínas através da utilização de técnicas bioquímicas e espectroscópicas apropriadas. Foram identificadas no genoma de Marinobacter hydrocarbonoclasticus duas flavoproteínas (2375 e 3073) reconhecidas como possíveis parceiros redox da Dps de Pseudomonas nautica 617. Todas as proteínas foram expressas heterologamente em células de E. coli BL21 (DE3) e delineados protocolos de purificação em dois passos, por cromatografias de permuta iónica e de exclusão molecular, que permitiram obter rendimentos expressivos (Dps — 31,9 mg/L de cultura, Flavoproteína 2375 — 73 mg/L de cultura e Flavoproteína 3073 — 79,4 mg/L de cultura). Aquando da purificação da 2375 verificou-se que a estabilidade da holoproteína depende da força iónica, característica que limita a sua utilização como parceiro redox da Dps. O estudo da reacção de transferência electrónica foi iniciado com testes preliminares através da espectroscopia de UV/Visível, permitindo avaliar da ocorrência da reacção de redução do core férrico da Dps e concomitante libertação do produto final ferroso, por análise de uma mistura contendo NADH, flavoproteína 3073 oxidada e Dps core Fe. Este estudo não permite, contudo, estabelecer uma relação de causa efeito concreta e fiável que nos permita identificar o NADH como doador inicial de eletrões e ferro ferroso como produto final desta reacção. O mecanismo de libertação foi estudado em maior detalhe através de espectroscopia de Mössbauer permitindo estabelecer a natureza das diferentes espécies intervenientes na reacção e assim verificar, pela primeira vez, que na presença dos três componentes, acima mencionados, existe redução e libertação de ferro previamente incorporado na Dps, na forma de iões ferrosos, bem como determinar parâmetros cinéticos apropriados.
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As doenças infecciosas emergentes e o desenvolvimento de resistência aos antibióticos, por parte das bactérias patogénicas e fungos, a um ritmo alarmante são uma questão de extrema preocupação. Apesar do aumento do conhecimento da patogénese microbiana e aplicação de terapias modernas, a taxa de mortalidade associada a infecções microbianas ainda permanece alta. Muitas destas infecções têm origem nos alimentos e água que ingerimos. Torna-se, portanto, urgente procurar novas estratégias e encontrar novos agentes antimicrobianos, a partir de substâncias naturais e inorgânicas para desenvolver novos fármacos ou agentes para controlar as infecções microbianas. É aqui, que a nanotecnologia entra em acção com o conceito de embalagem activa. Esta beneficia do uso de nanopartículas para aumentar a segurança e a qualidade de um produto pois estas possuem actividade antimicrobiana. A maioria das embalagens é feita de papel, que possui óptimas propriedades e características (baixo custo, porosidade e biodegrabilidade), tornando-se um substrato cobiçado em diversas áreas de investigação. Neste trabalho, uniu-se as vantagens do papel com as propriedades antimicrobianas das nanopartículas. Assim, impregnaram-se diferentes substratos de papel com nanopartículas, com o objectivo de testar qual o que apresenta maior actividade antibacteriana. Para tal utilizou-se o cartão, o saco de refeições de take-away, papel de mesa e papel de talheres, os quais foram impregnados com nanopartículas de prata, cobre, óxido de zinco e óxido de tungsténio, com concentrações variadas. Estas nanopartículas foram testadas em cinco bactérias diferentes: Staphylococcus aureus (ATCC6538), Staphylococcus aureus resistente à meticilina (MRSA) (RN4220) e Enterococcus faecalis (ATCC29212), Escherichia coli (ATCC8739) e Pseudomonas aeruginosa (ATCC9027) e numa levedura Candida albicans (ATCC10231). Dos testes anti-bacterianos realizados, concluiu-se que os melhores resultados foram obtidos para o cartão com AgNPs. Utilizando o cartão como substrato e as nanopartículas de prata como agente anti-bacteriano, estudou-se a influência da concentração de AgNPs (2, 10, 25 e 50mM). A concentração de 50mM revelou-se mais eficaz, em especial para a bactéria Pseudomonas aeruginosa (ATCC9027).
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The study of the effect of radiation on living tissues is a rather complex task to address mainly because they are made of a set of complex functional biological structures and interfaces. Particularly if one is looking for where damage is taking place in a first stage and what are the underlying reaction mechanisms. In this work a new approach is addressed to study the effect of radiation by making use of well identified molecular hetero-structures samples which mimic the biological environment. These were obtained by assembling onto a solid support deoxyribonucleic acid (DNA) and phospholipids together with a soft water-containing polyelectrolyte precursor in layered structures and by producing lipid layers at liquid/air interface with DNA as subphase. The effects of both ultraviolet (UV) radiation and carbon ions beams were systematically investigated in these heterostructures, namely damage on DNA by means vacuum ultraviolet (VUV), infrared (IR), X-Ray Photoelectron (XPS) and impedance spectroscopy. Experimental results revealed that UV affects furanose, PO2-, thymines, cytosines and adenines groups. The XPS spectrometry carried out on the samples allowed validate the VUV and IR results and to conclude that ionized phosphate groups, surrounded by the sodium counterions, congregate hydration water molecules which play a role of UV protection. The ac electrical conductivity measurements revealed that the DNA electrical conduction is arising from DNA chain electron hopping between base-pairs and phosphate groups, with the hopping distance equal to the distance between DNA base-pairs and is strongly dependent on UV radiation exposure, due loss of phosphate groups. Characterization of DNA samples exposed to a 4 keV C3+ ions beam revealed also carbon-oxygen bonds break, phosphate groups damage and formation of new species. Results from radiation induced damage carried out on biomimetic heterostructures having different compositions revealed that damage is dependent on sample composition, with respect to functional targeted groups and extent of damage. Conversely, LbL films of 1,2-dipalmitoyl-sn-Glycero-3-[Phospho-rac-(1-glycerol)] (Sodium Salt) (DPPG) liposomes, alternated with poly(allylamine hydrochloride) (PAH) revealed to be unaffected, even by prolonged UV irradiation exposure, in the absence of water molecules. However, DPPG molecules were damaged by the UV radiation in presence of water with cleavage of C-O, C=O and –PO2- bonds. Finally, the study of DNA interaction with the ionic lipids at liquid/air interfaces revealed that electrical charge of the lipid influences the interaction of phospholipid with DNA. In the presence of DNA in the subphase, the effects from UV irrladiation were seen to be smaller, which means that ionic products from biomolecules degradation stabilize the intact DPPG molecules. This mechanism may explain why UV irradiation does not cause immediate cell collapse, thus providing time for the cellular machinery to repair elements damaged by UV.
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The growing demand for materials and devices with new functionalities led to the increased inter-est in the field of nanomaterials and nanotechnologies. Nanoparticles, not only present a reduced size as well as high reactivity, which allows the development of electronic and electrochemical devices with exclusive properties, when compared with thin films. This dissertation aims to explore the development of several nanostructured metal oxides by sol-vothermal synthesis and its application in different electrochemical devices. Within this broad theme, this study has a specific number of objectives: a) research of the influence of the synthesis parameters to the structure and morphology of the nanoparticles; b) improvement of the perfor-mance of the electrochromic devices with the application of the nanoparticles as electrode; c) application of the nanoparticles as probes to sensing devices; and d) production of solution-pro-cessed transistors with a nanostructured metal oxide semiconductor. Regarding the results, several conclusions can be exposed. Solvothermal synthesis shows to be a very versatile method to control the growth and morphology of the nanoparticles. The electrochromic device performance is influenced by the different structures and morphologies of WO3 nanoparticles, mainly due to the surface area and conductivity of the materials. The dep-osition of the electrochromic layer by inkjet printing allows the patterning of the electrodes without wasting material and without any additional steps. Nanostructured WO3 probes were produced by electrodeposition and drop casting and applied as pH sensor and biosensor, respectively. The good performance and sensitivity of the devices is explained by the high number of electrochemical reactions occurring at the surface of the na-noparticles. GIZO nanoparticles were deposited by spin coating and used in electrolyte-gated transistors, which promotes a good interface between the semiconductor and the dielectric. The produced transistors work at low potential and with improved ON-OFF current ratio, up to 6 orders of mag-nitude. To summarize, the low temperatures used in the production of the devices are compatible with flexible substrates and additionally, the low cost of the techniques involved can be adapted for disposable devices.
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Different oil-containing substrates, namely, used cooking oil (UCO), fatty acids-byproduct from biodiesel production (FAB) and olive oil deodorizer distillate (OODD) were tested as inexpensive carbon sources for the production of polyhydroxyalkanoates (PHA) using twelve bacterial strains, in batch experiments. The OODD and FAB were exploited for the first time as alternative substrates for PHA production. Among the tested bacterial strains, Cupriavidus necator and Pseudomonas resinovorans exhibited the most promising results, producing poly-3-hydroxybutyrate, P(3HB), form UCO and OODD and mcl-PHA mainly composed of 3-hydroxyoctanoate (3HO) and 3-hydroxydecanoate (3HD) monomers from OODD, respectively. Afterwards, these bacterial strains were cultivated in bioreactor. C. necator were cultivated in bioreactor using UCO as carbon source. Different feeding strategies were tested for the bioreactor cultivation of C. necator, namely, batch, exponential feeding and DO-stat mode. The highest overall PHA productivity (12.6±0.78 g L-1 day-1) was obtained using DO-stat mode. Apparently, the different feeding regimes had no impact on polymer thermal properties. However, differences in polymer‟s molecular mass distribution were observed. C. necator was also tested in batch and fed-batch modes using a different type of oil-containing substrate, extracted from spent coffee grounds (SCG) by super critical carbon dioxide (sc-CO2). Under fed-batch mode (DO-stat), the overall PHA productivity were 4.7 g L-1 day-1 with a storage yield of 0.77 g g-1. Results showed that SCG can be a bioresource for production of PHA with interesting properties. Furthermore, P. resinovorans was cultivated using OODD as substrate in bioreactor under fed-batch mode (pulse feeding regime). The polymer was highly amorphous, as shown by its low crystallinity of 6±0.2%, with low melting and glass transition temperatures of 36±1.2 and -16±0.8 ºC, respectively. Due to its sticky behavior at room temperature, adhesiveness and mechanical properties were also studied. Its shear bond strength for wood (67±9.4 kPa) and glass (65±7.3 kPa) suggests it may be used for the development of biobased glues. Bioreactor operation and monitoring with oil-containing substrates is very challenging, since this substrate is water immiscible. Thus, near-infrared spectroscopy (NIR) was implemented for online monitoring of the C. necator cultivation with UCO, using a transflectance probe. Partial least squares (PLS) regression was applied to relate NIR spectra with biomass, UCO and PHA concentrations in the broth. The NIR predictions were compared with values obtained by offline reference methods. Prediction errors to these parameters were 1.18 g L-1, 2.37 g L-1 and 1.58 g L-1 for biomass, UCO and PHA, respectively, which indicates the suitability of the NIR spectroscopy method for online monitoring and as a method to assist bioreactor control. UCO and OODD are low cost substrates with potential to be used in PHA batch and fed-batch production. The use of NIR in this bioprocess also opened an opportunity for optimization and control of PHA production process.
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A malária é uma doença infecciosa com um efeito devastador nas áreas afectadas. É provocada pelo protozoário Plasmodium e transmitida pelo insecto vector do género Anopheles. As fêmeas hematófagas ao alimentar-se de um hospedeiro infectado vão dar continuidade ao ciclo de vida do parasita e transmiti-lo a um novo hospedeiro na próxima refeição sanguínea. O intestino médio dos mosquitos é um órgão imunocompetente, onde a presença de microrganismos vai activar o sistema imunitário, determinando a sua capacidade vectorial. Novas abordagens de controlo biológico de doenças transmitidas por vectores parecem ganhar terreno. P. aeruginosa é uma bactéria Gram-negativa, potencialmente patogénica, em especial as estirpes produtoras de muco, sendo um microrganismo modelo em estudos de biofilmes. Estes são caracterizados por conferir tolerância a antibióticos e resistência ao sistema imune do hospedeiro. Com este trabalho pretendeu-se analisar o efeito da influência da flora bacteriana, nomeadamente isolados de Pseudomonas aeruginosa produtores de muco e não produtores, presentes no tracto digestivo de Anopheles sp. e a sua relação com a infecção por P. berghei. Com este estudo é possível afirmar a existência de uma proporcionalidade directa entre a taxa de infecção por P. berghei e a ausência da Microbiota. A presença de Pseudomonas produtoras de muco no intestino médio dos mosquitos demonstrou conferir algum grau de protecção no estabelecimento da infecção, bem como na intensidade da mesma. Contudo, mais estudos necessitam ser realizados e com um maior número de mosquitos, de forma a ultrapassar as limitações impostas pelo tratamento antibacteriano. Possivelmente, a sobreposição de respostas imunes anti-bacterianas e anti-Plasmodium, vão provocar um incremento no sistema imune e limitação das infecções por Plasmodium. Biofilmes bacterianos têm demonstrado a capacidade de aderir e inibir o crescimento de protozoários Uma melhor compreensão do papel da flora microbiana face ao sistema de defesa do hospedeiro poderá contribuir para o desenvolvimento de novas estratégias de controlo da transmissão da malária.
