Global ETD Search

441	Surface modifications for enhanced immobilization of biomolecules: applications in biocatalysts and immuno-biosensor Bai, Yunling 08 August 2006 (has links) No description available. Engineering, Chemical Surface Modification Enzyme Immobilization Cofactor Regeneration Formate Dehydrogenase Purification Biotransformation Microfluidic Biosensor ELISA Foodborne Pathogen Detection
442	Label-free DNA Sequence Detection Using Oligonucleotide Functionalized Fiber Probe with a Miniature Protrusion Wang, Xingwei 13 September 2006 (has links) DNA is the substance that encodes the genetic information that cells need to replicate and to produce proteins. The detection of DNA sequences is of great importance in a broad range of areas including genetics, pathology, criminology, pharmacogenetics, public health, food safety, civil defense, and environmental monitoring. However, the established techniques suffer from a number of problems such as the bulky size, high equipment costs, and time-consuming algorithms so that they are limited to research laboratories and cannot be applied for in-vivo situations. In our research, we developed a novel sensing scheme for DNA sequence detection, featuring sequence specificity, cost efficiency, speed, and ease of use. Without the need for labels or indicators, it may be ideal for direct in-cell application. The principle is simple. With capture DNA immobilized onto the probe by layer-by-layer selfassembly, the hybridization of a complementary strand of target DNA increases the optical thickness of the probe. Three kinds of sensors were developed. The optical fiber tip sensor has been demonstrated with good specificity and high sensitivity for target DNA quantities as small as 1.7 ng. To demonstrate the potential of this structure for practical applications, tularemia bacteria were tested. Two other micrometric structures were designed with specific advantages for different applications. The micro-fiber Bragg grating interferometer (Micro-FBGI) has the intrinsic temperature compensation capability. The micro-intrinsic Fabry-Perot interferometer (Micro-IFPI)features simple signal processing due to its simple configuration. Successful DNA immobilization and hybridization have been demonstrated onto the 25μm Micro-IFPI. Both structures have great potential for nanometric protrusion, allowing future in-cell DNA direct detection. In addition, its quick response time leads to the potential for express diagnosis. What's more, the idea of nanoscale probe has a broad impact in scanning near-field optical microscopy (SNOM), intracellular surgery in cell sensing, manipulation, and injection. / Ph. D. DNA Sequence Detection Fiber Optic Biosensor Etching Nano probe Hybridization Immobilization
443	A Cell Preparation Stage for Automatic Cell Injection Lu, Cong 14 December 2011 (has links) Cancer study and drug selection research attract more and more researchers, which need a significant laboratory technique, named cell injection. Hundreds of cells are loaded on devices and injected to investigate the behavior of the cells. Traditionally, cell injection is performed manually, which leads to human fatigue, is time-consuming and has a low success rate. Therefore, a system which can replicate the actions of what technicians do, such as to aspirate cells, transfer cells, immobilize cells, and release cells automatically, is needed. This system must be accurate, reliable, and efficient and operate without human intervention. A cell-transfer-cover and a cell-holder have been fabricated and a cell injection system has been set up to investigate the performance of the newly created device. Simulations and experiments have proven that this system would carry out the entire process of cell injection with the result of enhancing the speed of this important activity. bio-mechanical cell aspiration cell separation cell position cell immobilization automatic cell injection flow 3d cell injection biomedical 0537 0548 0541 0771
444	A Cell Preparation Stage for Automatic Cell Injection Lu, Cong 14 December 2011 (has links) Cancer study and drug selection research attract more and more researchers, which need a significant laboratory technique, named cell injection. Hundreds of cells are loaded on devices and injected to investigate the behavior of the cells. Traditionally, cell injection is performed manually, which leads to human fatigue, is time-consuming and has a low success rate. Therefore, a system which can replicate the actions of what technicians do, such as to aspirate cells, transfer cells, immobilize cells, and release cells automatically, is needed. This system must be accurate, reliable, and efficient and operate without human intervention. A cell-transfer-cover and a cell-holder have been fabricated and a cell injection system has been set up to investigate the performance of the newly created device. Simulations and experiments have proven that this system would carry out the entire process of cell injection with the result of enhancing the speed of this important activity. bio-mechanical cell aspiration cell separation cell position cell immobilization automatic cell injection flow 3d cell injection biomedical 0537 0548 0541 0771
445	Functional Coatings with Polymer Brushes König, Meike 29 October 2013 (has links) (PDF) The scope of this work is to fathom different possibilities to create functional coatings with polymer brushes. The immobilization of nanoparticles and enzymes is investigated, as well as the affection of their properties by the stimuli-responsiveness of the brushes. Another aspect is the coating of 3D-nanostructures by polymer brushes and the investigation of the resulting functional properties of the hybrid material. The polymer brush coatings are characterized by a variety of microscopic and spectroscopic techniques, with a special emphasis on the establishment of the combinatorial quartz crystal microbalance/spectroscopic ellipsometry technique as a tool to characterize the functional properties of the polymer brush systems insitu. The pH-responsive swelling of the polyelectrolyte brushes poly(acrylic acid) and poly(2-vinylpyridine), as well as the thermoresponsive swelling of poly(N-isopropylacryl amide) is studied in detail by this technique. Poly(2-vinylpyridine) and binary poly(N-isopropylacryl amide)-poly (2-vinylpyridine) brushes are used as templates for the insitu-synthesis of palladium and platinum nanoparticles with catalytic activity. As an example for the use of polymer brushes to immobilize enzymes, the model enzyme glucose oxidase is physically adsorbed to poly (2-vinylpyridine) and poly (acrylic acid) brushes and also covalently bound to poly (acrylic acid) brushes. In the last part of this thesis, sculptured thin films are coated with poly (acrylic acid) and poly (N-isopropylacryl amide) brushes and the swelling characteristics as well as the adsorption behavior of the model protein bovine serum albumin are investigated. Polymerbürsten Responsive Beschichtungen Nanokomposite Proteinimmobilisierung Nanostrukturierte Filme polymer brushes responsive coatings nanocomposites protein immobilization nanostructured thin films ddc:540 rvk:VE 9857
446	Structuration de surfaces organiques et inorganiques par lithographie électro-colloïdale : principe et applications / Structuration of organic and inorganic surfaces by electrocolloidal lithography : principle and applications Bazin, Damien 05 December 2012 (has links) De nombreuses techniques de lithographie sont proposées aujourd'hui pour structurer des surfaces à l'échelle micrométrique et nanométrique. Parmi elles, la lithographie colloïdale est intéressante en raison notamment du faible coût du procédé. Dans cette thèse, nous avons développé une nouvelle technique appelée « lithographie électro-colloïdale » qui est basée sur l'utilisation de particules colloïdales soumises à des champs électriques continus et alternatifs. Avec des temps de préparation courts et une instrumentation peu coûteuse, des surfaces structurées polymériques et métalliques ont été produites puis testées pour différentes applications (immobilisation de protéines, réseaux de microélectrodes, surfaces superhydrophobes). / Many lithography techniques have been developed to structure surfaces at the micrometer and sub-micrometer ranges. Among them, colloidal lithography is interesting because the process is inexpensive and does not require the use complex instruments. In this thesis, we have developed a new technique called « electro-colloidal lithography » which is based on the use of colloidal particles organized using alternating and direct electric fields. With short preparation times and inexpensive instruments, polymeric and metallic structured surfaces have been prepared and tested for different applications (protein immobilization, microelectrode arrays, superhydrophobic surfaces) Lithographie Particules colloïdales Électro-colloïdale Microélectrodes Surfaces super-hydrophobes Immobilisation de protéines Lithography Colloidal particles Electro-colloidal Microelectrode Superhydrophobic surfaces Protein immobilization
447	Příprava a využití kyselých proteáz pro štěpení proteinů v experimentech H/D výměny. / Preparation and use of acid proteases for digestion in H/D exchange. Kukla, Jan January 2014 (has links) - 5 - Abstract Hydrogen/deuterium exchange coupled to mass spectrometry (HX-MS) utilizes the spontaneous exchange of protein backbone amide hydrogens for deuterium atoms from solution to gain information about changes in protein structure. To localize these changes to specific areas of the protein, enzymatic digestion by aspartate proteases is used. The proteases' ability to produce small overlapping peptides and to provide full sequence coverage of the studied protein is essential for pinpointing the protein regions of interest. In this study recombinant proteases nepenthesin I (Nepenthes gracilis) and rhizopuspepsin (Rhizopus chinensis) were prepared and compared to commercially available proteases porcine pepsin A and aspergillopepsin (Aspergillus saitoi). The comparison was performed using various activity assays, where the effects of pH, temperature and denaturing and reducing agents on the activity of the proteases were studied. All four proteases were also immobilized on a polymeric resin POROS and their activity in an online HX-MS digestion setup was tested using myoglobin as a model substrate.
448	Genetically Tailored Yeast Strains for Cell-based Biosensors in White Biotechnology Groß, Annett 28 February 2017 (has links) (PDF) This work was performed in the framework of two application-oriented research projects that focus on the generation and evaluation of fluorescent Saccharomyces (S.) cerevisiae-based sensor and reporter cells for white biotechnology as well as the extension of the conventional single-cell/single-construct principle of ordinary yeast biosensor approaches. Numerous products are currently generated by biotechnological processes which require continuous and precise process control and monitoring. These demands are only partially met by physical or physiochemical sensors since they measure parameters off-line or use surrogate parameters that consequently provide only indirect information about the actual process performance. Biosensors, in particular whole cell-based biosensors, have the unique potential to near-line and long-term monitor parameters such as nutrient availability during fermentation processes. Moreover, they allow for the assessment of an analyte’s biological relevance. Prototype yeast sensor and reporter strains derived from common laboratory strains were transformed with multicopy expression plasmids that mediate constitutive or inducible expression of a fluorescence reporter gene. Performance of these cells was examined by various qualitative and quantitative detection methods – representative of putative transducer technologies. Analyses were performed on the population level by microplate reader-based fluorometry and Western blot as well as on the single-cell level by fluorescence microscopy and flow cytometry. ‘Signature’ promoters that are activated or repressed during particular nutrient-limited growth conditions were selected in order to generate yeast nutrient sensor strains for monitoring the biological availability of nitrogen, phosphorus or sulphur. For each category, at least one promoter mediating at least threefold changed green fluorescence levels between sensor cells in non-limited and nutrient-limited conditions was identified. Sensor strains were evaluated in detail regarding sensitivity, analyte selectivity and the ability to restore basic fluorescence after shift from nutrient-limited to non-limited conditions (regeneration). The applicability for bioprocess monitoring purposes was tested by growth of yeast nutrient sensor cells in microalgae media and supernatants. Despite successful proof of principle, numerous challenges still need to be solved to realise prospective implementation in this field of white biotechnology. The major drawback of plasmid-borne detection constructs is a high fluorescence variance between individual cells. By generation of a nitrogen sensor strain with a genome-integrated detection construct, uniform expression on the single-cell level and simultaneous maintenance of basic properties (ability of fluorescence induction/regeneration and lack of cross-reactivity) was achieved. However, due to the singular detection construct per cell, significantly weaker overall fluorescence was observed. The traditional single-cell/single-construct approach was expanded upon in two ways. Firstly, a practical dual-colour sensor strain was created by simultaneous, constitutive expression of a red fluorescence reporter gene in green fluorescent nitrogen sensor cells. Secondly, an innovative cellular communication and signal amplification system inspired by the natural S. cerevisiae pheromone system and mating response was established successfully. It features the yeast pheromone alpha-factor as a trigger and alpha-factor-responsive reporter cells which express a fluorescence reporter gene from the pheromone-inducible FIG1 promoter as an output signal. The system was functional both with synthetic and cell-secreted alpha-factor, provided that recombinant cells were deleted for the alpha-factor protease Bar1p. Integration of amplifier cells which secrete alpha-factor in response to stimulation with the pheromone itself could increase the system\'s sensitivity further. Signal amplification was demonstrated for phosphorus sensor cells as a proof of concept. Therefore, the alpha-factor-based cellular communication and signal amplification system might be useful in applications that suffer from poor signal yield. Due to its modular design, the system could be applied in basically any cell-based biosensor or sensor-actor system. Immobilisation of the generated sensor and reporter cells in transparent natural polymers can be beneficial considering biosensor fabrication. Functionality of sensor and reporter cells in calcium-alginate beads or nano-printed arrays was successfully demonstrated. For the latter setup, fluorescence scanning and software-assisted fluorescence quantification was applied as a new detection method. In an experiment using an agarose-based two-compartment setup proposed by Jahn, 2011, properties of the alpha-factor-based cellular communication and signal amplification system after immobilisation were tested. These studies provide an initial experimental basis for an appropriate geometry of miniaturised immobilisation matrices with fluorescent yeast sensor and reporter cells in prospective biosensor designs. Hefe Biosensor Plasmid Fluoreszenz Verstärker Nährstoffmangel Alpha-Faktor Pheromon Immobilisation yeast biosensor plasmid fluorescence signal amplification nutrient limitation alpha-factor pheromone system immobilization ddc:570 rvk:VG 6867
449	Estudo das propriedades físico-químicas e funcionais de uma endo-1,4-B-xilanase de Aspergillus tamarii Kita e a sua aplicação na produção de xilooligossacarídeos / Study of the physical-chemical and functional properties of an endo-1,4-B-xylanase from Aspergillus tamarii Kita and its application in the production of xylooligosaccharides Heinen, Paulo Ricardo 13 December 2017 (has links) As endo-1,4-?-xilanases (EC 3.2.1.8) formam o maior grupo de enzimas hidrolíticas envolvido na degradação da xilana, visto que catalisam a hidrólise aleatória de ligações glicosídicas do tipo ?-1,4 no interior da sua cadeia principal, produzindo xilooligossacarídeos de diferentes tamanhos. Na natureza, essas enzimas estão intimamente relacionadas ao fornecimento de energia para o desenvolvimento dos organismos que as produzem. Em geral, as xilanases são isoladas preferencialmente de bactérias e fungos, e têm demonstrado grande potencial na produção de pães, ração animal, alimentos, bebidas, xilitol e bioetanol. O presente trabalho propôs o isolamento de uma nova endo-1,4-?-xilanase por meio de técnicas de produção e purificação acessíveis que pudessem viabilizar economicamente a integração desse biocatalisador aos processos industriais. O fungo Aspergillus tamarii Kita, oriundo de uma amostra de solo da Mata Atlântica, mostrou-se um bom produtor de xilanases em meio de cultura Adams suplementado com bagaço de cevada, um subproduto das indústrias cervejeiras. Após a otimização do processo de fermentação submersa, o extrato enzimático exibiu duas xilanases em gel de atividade para proteínas nativas, identificadas por espectrometria de massas como glicosil hidrolases pertencentes às famílias 10 e 11. A sacarificação enzimática de três resíduos agroindustriais, com base em um delineamento experimental de misturas, demonstrou que a combinação ternária desses componentes, em iguais proporções, possui considerável relevância para a produção de açúcares fermentáveis, tais como glicose e xilose. Em ensaios de imobilização, a xilanase GH11 foi satisfatoriamente estabilizada em matrizes de caráter iônico e covalente. A imobilização por ligação covalente multipontual em glioxil-agarose elevou a temperatura ótima de atividade de 60 para 65 °C e ofertou um considerável ganho de termoestabilidade ao derivado, que apresentou meia vida de 60 minutos a 80 °C. Além disso, a estabilização da enzima nesse suporte permitiu a produção dos seguintes xilooligossacarídeos: xilobiose, xilotriose, xilotetraose e xilopentaose. A purificação da xilanase GH11 foi realizada por meio de uma única etapa cromatográfica de troca catiônica, com rendimento final de 36,72% e um fator de purificação de 7,43 vezes. A massa molecular da enzima foi estimada em 19,5 kDa. Ademais, a sua estrutura tridimensional foi predita por modelagem comparativa, exibindo como modelo final uma arquitetura do tipo ?-jelly roll, comum às xilanases da família 11. Em ensaios de caracterização, a xilanase apresentou melhor atividade em pH 5,5 e manteve atividade residual superior a 80% na faixa de pH compreendida entre 4,0 e 9,0, durante 24 horas. Em relação à temperatura, a sua atividade ótima foi observada a 60 °C, contudo, a sua termoestabilidade foi mais expressiva a 50 °C, retendo cerca de 70% da sua atividade inicial por 480 minutos. Para a xilana beechwood, os valores de velocidade máxima e constante de dissociação aparente foram iguais a 1.330,20 µmol/min/mg e 8,13 mg/mL, respectivamente. Na concentração de 5 mM, os metais pesados Co2+, Hg+, Pb2+ e Zn2+ apresentaram um ponderável efeito de inibição sobre a xilanase GH11, enquanto que os íons Ba2+ e Ni2+, assim como os compostos ?-mercaptoetanol e DTT, exibiram um aumento superior a 20% em sua atividade. Por fim, a análise em tempo real da atividade xilanásica revelou que o substrato xilopentaose corresponde ao menor xilooligossacarídeo capaz de ser eficientemente hidrolisado. Sendo assim, a nova endo-xilanase GH11 isolada do fungo A. tamarii Kita exibe uma série de propriedades físico-químicas favoráveis a sua aplicabilidade em escala industrial. / The endo-1,4-?-xylanases (EC 3.2.1.8) form the largest group of hydrolytic enzymes involved in the degradation of xylan, since they catalyze the random hydrolysis of ?-1,4 glycosidic bonds within the main chain of this polysaccharide, producing xylooligosaccharides of different sizes. In nature, these enzymes are closely related to supplying energy for the development of the organisms that produce them. In general, xylanases are preferentially isolated from bacteria and fungi, which show great potential in industries as brewing, animal feed, food, beverage, xylitol and bioethanol. The present work proposed the isolation of a new endo-1,4-?-xylanase by available techniques of production and purification that can economically make feasible the integration of this biocatalyst to industrial processes. The fungus Aspergillus tamarii Kita, obtained from a soil sample of the Atlantic Forest, showed to be a good xylanase producer in Adams culture medium supplemented with barley bagasse, a byproduct of breweries. After the optimization of the submerged fermentation process, the crude enzymatic extract exhibited two xylanases in activity gel for native proteins, identified by mass spectrometry as glycosyl hydrolases belonging to families 10 and 11. The enzymatic saccharification of three agroindustrial residues, based on an experimental mixture design, showed that the ternary combination of these components, in equal proportions, has considerable relevance for the production of fermentable sugars, such as glucose and xylose. The xylanase GH11 was satisfactorily stabilized on matrices of ionic and covalent character in immobilization assays. Covalent multipoint immobilization on glyoxyl agarose raised its optimum temperature of activity from 60 to 65 °C and offered a considerable gain in thermostability to the derivative, which presented a half-life of 60 minutes at 80 °C. In addition, enzyme stabilization on this support allowed the production of the following xylooligosaccharides: xylobiose, xylotriose, xylotetraose and xylopentaose. Xylanase GH11 purification was carried out by means of a single cation exchange chromatographic step, with final yield of 36.72% and purification factor of 7.43 times. The molecular mass of this xylanase was estimated as 19.5 kDa. Moreover, its three-dimensional structure was predicted by comparative modeling, exhibiting a ?-jelly roll type folding as a final model, common to xylanases of family 11. In characterization tests, xylanase presented better activity at pH 5.5 and was considerably stable in the pH range of 4.0 to 9.0. Regarding temperature, its optimum activity was observed at 60 °C, however, its thermostability was more expressive at 50 °C, retaining about 70% of its initial activity for 480 minutes. In the presence of beechwood xylan, the values of maximum velocity and the constant of apparent dissociation were 1,330.20 µmol/min/mg and 8.13 mg/mL, respectively. At concentrations of 5 mM, the heavy metals Co2+, Hg+, Pb2+ and Zn2+showed an inhibition effect on the xylanase, whereas Ba2+ and Ni2+ ions, as well as ?-mercaptoethanol and DTT, exhibited an increase of more than 20% in their activity. Finally, the real-time analysis of xylanase activity revealed that the xylopentose substrate corresponds to the lowest xylooligosaccharide capable of being hydrolyzed. Thus, the new endo-xylanase GH11 isolated from the fungus A. tamarii Kita exhibits a series of physicochemical properties favorable to its applicability on an industrial scale. Análise estrutural Aspergillus tamarii kita Aspergillus tamarii kita Biochemical characterization Caracterização bioquímica Endo-1,4-B-xilanase Endo-1,4-B-xylanase Immobilization Imobilização Purificação Purification Structural analysis
450	Estudo da resistência mecânica do ligamento cruzado anterior de ratos submetidos à imobilização / Immobilization effects on strength of the rat anterior cruciate ligament Domingos, Cristiane Spolador Pátaro 14 August 1998 (has links) O efeito da imobilização no ligamento cruzado anterior, através de atadura gessada por um período de 6 semanas, foi estudado em ratos machos, adultos da raça Wistar. Para esta análise foram desenvolvidos dispositivos que permitiram a fixação do espécime à Máquina de Ensaio Universal e a realização de ensaio mecânico de tração. Através desta metodologia a tração foi aplicada na interlinha articular, somente na junção osso-ligamento-osso. Os dados obtidos foram analisados, quanto à carga máxima, deformação máxima, e energia absorvida pelo ligamento até o momento da ruptura. Nos resultados obtidos não foi observado diferença estatisticamente significativa na resistência do ligamento cruzado anterior, do membro imobilizado em relação ao membro não imobilizado, o que nos indica que provavelmente um período de 6 semanas de imobilização o qual permite pequeno grau de movimento como é o caso da imobilização gessada, não foram suficientes para produzir alterações na resistência ligamentar. / The effects of immobilization through plaster cast for 6 weeks on the mechanical properties of the anterior cruciate ligament (ACL) of Wistar adult mate rats were analysed. Special grips for retaining the specimens during traction tests in a universal test machine were developed. In this way, traction forces could be applied directly to bone-ligament-bone complex. Maximal load, maximal deformation, stiffness and absorbed energy up to the rupture point were considered, compared to the contralateral (normal) ACL. No significant difference could be demonstrated leading us to the conclusion that, at least for the considered lenght of time of immobilization (6 weeks), no important changing in the mechanical properties of the LCA occurred. This contradictory result compared to others in the literature was imputed to the different methodology here employed, where the forces could be applied directly to bone-ligament-bone complex, instead of the femur, anterior cruciate ligament and part of tibia. In addition, the relativily short period by immobilization and the movement permited by the slack immobilization could also be responsabilite for the results. Anterior cruciate ligament Ensaio mecânico de tração Immobilization Imobilização Joelho Knee Ligamento cruzado anterior Rat Rato Resistência mecânica Strength mechanics Tensile mechanical test

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