Dissertations / Theses on the topic 'GH15'
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Millet, Nicolas. "Etude des familles de Glycoside-Hydrolases GH16, GH17 et GH55 dans la morphogénèse pariétale du pathogène opportuniste, Aspergillus fumigatus." Thesis, Sorbonne Paris Cité, 2018. http://www.theses.fr/2018USPCC330.
Full textThe fungal cell wall is an outer and robust layer mainly composed of polysaccharides, which protects the fungal cell from its environment, mediates cell-cell interaction, and is responsible for the shape of the cell. The cell wall of the opportunistic pathogen Aspergillus fumigatus is essentially composed of ß(1,3)glucan which is synthesized at the plasma membrane by a transmembrane complex and then modified in the cell wall space by branching, cross-linking and degradating activities. The cell wall is a highly dynamic structure, which undergoes constant change during cell division, growth and morphogenesis. In this study, we investigated the role of three glycoside-hydrolases families (GH16, GH17 and GH55) in cell wall remodeling of this fungal pathogen by different approaches. Transglycosidase and glucanase activities of respectively AfCrh5p and AsScw11p have been studied by using recombinant proteins and the first crystal structure of the Crh family have been resolved. Furthermore, complete deletion of each family's genes has been performed to study the biological function of these enzymes and highlighted a multi-faceted role of this glycosides-hydrolases in the morphogenesis of the filamentous fungus, A. fumigatus
Leno, Antoine. "Contribution à l’amélioration des performances en rendement et en stabilité d’impulsion à impulsion des amplificateurs de puissance, conçus à base de transistors en Nitrure de Gallium, pour les applications RADAR en Bande S." Electronic Thesis or Diss., Limoges, 2023. http://www.theses.fr/2023LIMO0022.
Full textThis thesis work is part of the studies and research to improve the joint performance of power, gain, efficiency and pulse-to-pulse stability of transistor-based power amplifiers in GaN technology for the implementation of RADAR with active antennas in S-band, which is currently a major issue at the academic and industrial levels. The design of these power amplifiers for accurate and reliable detection of targets represents a major challenge for companies in the field, when associated with ambitious energy yields with an objective greater than 65%. A design method for a power amplifier in Q-MMIC technology in a DFN plastic package based on the use of GH15 EU compact transistors has been developed and used to design a power amplifier operating in the S-band [2.9 - 3.3] GHz. The realized power amplifier has been characterized in terms of added power efficiency, delivered power, gain and pulse-to-pulse stability in the presence of radar signals. The compact power amplifier shows very interesting performances compared to those obtained in the literature. Indeed, at an average available power of the generator equal to 26dBm, in the band [2.8 - 3.3] GHz, the PAE is between 59% and 66%, the delivered power varies between 45W and 52W on the considered band and it is associated with a gain higher than 20dB and a pulse-to-pulse stability calculated equal to - 52dB by the RMS method The results of the characterization of the GH15 EU compact transistor based high efficiency/high power power amplifier have demonstrated the interest of its use in the new generation of radar systems in terms of RF performance, P2P stability, integration and cost
Liberato, Marcelo Vizoná. "Caracterização estrutural de endoglucanases da família GH5 e beta-glicosidases da família GH1: interação enzima-substrato." Universidade de São Paulo, 2013. http://www.teses.usp.br/teses/disponiveis/76/76132/tde-28012014-142924/.
Full textCellulose is the most abundant biopolymer in the world and can become a renewable energy source through its transformation in fermentable sugars, which will be converted in bioethanol. The cellulose recalcitrance, main difficulty in the process, can be overcome with the aid of enzymes (cellulases). At least three cellulolytic enzymes are required for complete hydrolysis of cellulose, including cellobiohydrolases for hydrolyzing the glycosidic linkages from the reducing and non-reducing chain ends, endoglucanases for randomly cleaving cellulose chains in the amorphous regions, and beta-glucosidases for producing glucose from the solubilized cello-oligomers. But, to become a financially viable process it is necessary to know the mechanism, optimize the activity and improve the production of these cellulases. In order to advance the understanding of the structure and function of these enzymes, the present work intended to study the structure of beta-glucosidases from family GH1 and endoglucanases from family GH5. In the first part of the work, the expression of endoglucanase II from Trichoderma reesei was not achieved, even using different organisms and expression conditions. However, in the second part, the expression, purification and the crystallization first trials of eleven bacterial beta-glucosidases and eight bacterial endoglucanases were achieved. Among them, three beta-glucosidases and one endoglucanase from Bacillus licheniformis were crystallized and had their structures solved. Beta-glucosidases, although having a similar folding, showed variations in the length and position of the loops that form the catalytic cleft and diverge in relation to one of the amino acids that are important in substrate stabilization. These differences may help explain the mechanism of these enzymes to recognize distinct substrates. The endoglucanase, which has two accessory modules, was crystallized in the apo form and complexed with the substrate celotetraose. The second accessory module probably is a cellulose binding domain (CBM) and its aromatic residues, which are responsible for the substrate interaction, seem to complement the catalytic site. Therefore it can be a new mechanism of CBM assistance in the enzymatic activity. The first accessory module has no apparent interaction site with carbohydrates and probably works as a connector between the catalytic domain and CBM. The positioning of the substrate in the binding site is similar to other structures already solved but raises some questions about the role of the catalytic residues, that are conserved in the family. The anomeric carbon of the substrate has a continuous electron density with glutamate from sheet-β4 (which should be the acid/base) and is closer to it than to glutamate from sheet-β7 (which should be the nucleophile).
Berto, Gabriela Leila. "Clonagem, expressão e purificação de glicosil hidrolases (GH5 e GH45) provenientes do fungo Gloeophyllum trabeum e estudo da ação das proteínas como auxiliares na hidrólise de polissacarídeos." Universidade de São Paulo, 2016. http://www.teses.usp.br/teses/disponiveis/97/97131/tde-14092016-175401/.
Full textWhite-rot and brown-rot basidiomycetes are able to transform lignocellulosic materials through different mechanisms. The brown-rot fungi are able to degrade cellulose and hemicellulose meanwhile modifies lignin. The hydrolytic enzymes of these fungi act on a lignin-enriched substrate, which makes them targets to prospect new enzymes for polysaccharides hydrolysis. Gloeophyllum trabeum is one of the best understood fungal species in this group. An interesting processive GH5-endoglucanase (EG) has been described in this species suggesting an unusual pathway for lignocellulosic degradation without cellobiohydrolases (CBH). Our first attempt to clone this GtGH5 was default but our grup is trying a new attempt of heterologous expression of this protein. Furthermore, G. trabeum genome points out for a low molar mass GH45-EG. Here we report on a recombinant high-yield G. trabeum ATCC 11539 GtGH45 production system. Expression and secretion of endoglucanase GtGH45 was positive after 72 h incubation of the transformed A. nidulans stain A773 in stationary liquid cultures (maltose as inductor). The SDS-PAGE electrophoresis of ultra-filtrated extract showed a single-band GtGH45 over expressed band. The molar mass of 18,4 KDa was consistent with the predicted 204 amino acids sequence derived from gene sequence analyses and corroborates with mass spectometry characterization (18,9 KDa). Even more, the phylogenetic analyze is consistent to previews studies, clustering the target protein with others GH45 from basidiomycetes at subfamily C. The purified protein was assayed for substrate specificity showing activity against xylan, arabinoxylan and PASC. GtGH45 was able to produce cello-oligomers from PASC. The optimum pH was 2.5 with CMC as the substrate. Xylan conversion was enhanced when GtGH45 was mixed with commercial enzymes in enzymatic hydrolysis of alkaline-sulfite pretreated sugar cane bagasse.
Mulinari, Evandro José. "Expressão heteróloga em Aspergillus nidulans e caracterização bioquímica e estrutural de uma endoglucanase de Aspergillus terreus." Universidade de São Paulo, 2015. http://www.teses.usp.br/teses/disponiveis/76/76132/tde-07052015-085141/.
Full textFast, more efficient and robust enzymatic degradation of lignocellulosic biomassderived polysaccharides is currently a major challenge in the production of biofuels and considered a feasible and promising alternative to confront the global energy crisis and reduce the dependence on fossil energy resources. The sugarcane bagasse in Brazil is the most abundant and sustainable lignocellulosic material for the production of 2nd generation ethanol. The main requirement for the consolidation of this approach is the availability of enzymes that hydrolyze cellulose, hemicelluloses and other polysaccharides into fermentable sugars suitable for industrial use. The present study was aimed at molecular, structural and functional characterization of an endoglucanase from the fungus Aspergillus terreus (AtGH12) using different techniques. The gene encoding this enzyme has been cloned and expressed in the filamentous fungus Aspergillus nidulans strain A773. The strain with increased secretion was selected and the enzyme sequence was confirmed by mass spectroscopy MALDI TOF MS. Later, functional studies such as analysis of optimal pH and temperature, thermal stability, suppression and enhance effects of additives were applied to the AtGH12 characterization. The mass spectrometry of hydrolyzed substrate from the enzyme catalysis was acquired as a way to investigate the cleavage pattern of hydrolysis and the study of the enzyme/substrate interaction. Structural characterization of the recombinant enzymes was obtained using techniques such as dynamic light scattering, circular dichroism as well as small angle X-ray scattering and native gel, aided to determine the folding and oligomeric state of AtGH12 in solution. In order to provide support for the development of more effective enzyme cocktails for hydrolysis of lignocellulosic biomass, the activity of AtGH12 was evaluated using sugarcane bagasse pretreated by hydrothermal and organosolv processes. Subsequently, the degree of synergism in this type of substrate was measured using a commercial enzyme cocktail Acellerase®.
Molina, Gustavo Avelar. "Caracterização biofísica da dinâmica catalítica de uma xilanase GH11." Universidade de São Paulo, 2016. http://www.teses.usp.br/teses/disponiveis/59/59138/tde-17042016-155242/.
Full textThe structural dynamics underlying the function of GH11 xylanases is still unclear. New insights into the catalytic dynamics of these enzymes are crucial for engineering novel improved enzymes benefiting biotechnological and green chemistry industries. The objective of this work was to obtain new information concerning the catalytic dynamics of a GH11 xylanase, by using a combination of advanced molecular biophysics techniques, both at the bulk level and at the single molecule level (sm). Mutant GH11 xylanases from Bacillus subtilis ssp. subtilis 168 (XynA) were designed with single point cysteine mutations for labeling the residues D119 and R122 on the thumb domain, N54 on the fingers domain, and N151 on the alpha helix, followed by their construction and production by molecular biology methods. These mutants were labeled at their respective thiol groups by the polarity sensitive fluorescent probe Acrylodan, by the electron spin probe MTSSL, and by the photostable fluorescent probe AttoOxa11. The wild-type xylanase was labeled at its N-terminus by the photostable fluorescent probe Alexa Fluor® 488 5-SDP Ester. Bulk fluorescence spectrophotometry and electron paramagnetic resonance assays were used to investigate how the thumb domain dynamics of the GH11 xylanase, temperature and substrate binding were correlated. These results demonstrated that a temperature controlled, open, dynamical and flexible thumb domain state is more likely to effectively bind the substrate in a productive way, which is in complete agreement with previous studies from molecular dynamics simulations, crystallography, thermal denaturation, and function analysis by the rational design of thumb mutants for GH11 xylanases. Based on this evidence and previous studies, we proposed a hypothesis for the xylanase catalytic dynamics, focusing on the role of the thumb domain. In order to determine the xylanase affinity constant for its substrate and the relaxation times and rate constants of the thumb domain movements, fluorescence correlation spectroscopy measurements were performed. Both simple and combined measurements with photoinduced electron transfer were performed, using the xylanases labeled with photostable fluorescent probes, in the presence and absence of substrate. The results have shown longer diffusion times for the xylanases in the presence of substrate, as an effect of the enzyme affinity for it. However, it was not verified any decay curve as an effect of the dynamic suppression of the probe via PET. The same conjugates were successfully applied to fluorescence-lifetime imaging microscopy, aiming to systematically analyze the affinity for xylanase of substrates in the form of insoluble particles and films, and for water insoluble fractions from sugarcane bagasse delignification processes. In addition, the composition, structure and topology of these materials was examined. It was possible to verify the presence of xylan in most fractions of this treated bagasse, although in variable quantities
Wang, Yang. "Exploring glycoside hydrolase family 5 (GH5) enzymes." Licentiate thesis, KTH, Glykovetenskap, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-121537.
Full textÅr 1990 introducerade forskaren Bernard Henrissat en klassificering av kolhydrataktiva enzymer (CAZymer), enligt vilken enzymerna - baserat på sekvenslikhet - delades in i familjer med konserverade strukturer och reaktionsmekanismer. En intressant CAZym-klass är glykosidhydrolaserna (GH), en klass som i februari 2013 innehöll fler än 138000 katalytiska moduler indelade i 131 olika familjer. En av de största och mest varierade av GH-familjerna är glykosidhydrolasfamilj 5 (GH5), vilken innehåller en mångfald av identifierade enzymaktiviteter relevanta för nedbrytning av biomassa. För stora och diversifierade familjer som GH5 krävs det dock ytterligare en klassificeringsnivå för att bättre förstå evolutionen och uppkomsten av de många förekommande enzymaktiviteterna. I manuskript I presenteras en ny uppdelning av GH5 enzymer i subfamiljer med syfte att dela upp familjemedlemmarna i distinkta grupper som representerar olika funktioner. Utifrån denna klassificering kan sedan ett enzyms funktion förutsägas baserat på vilken subfamilj det tillhör. Totalt definierades 51 subfamiljer. Trots att hundratals GH5 enzymer har karaktäristerats så visade det sig att 20 av subfamiljerna helt saknar biokemiskt karaktäriserade enzymer och 38 av dem saknar publicerade proteinstrukturer. Dessa subfamiljer är särskilt intressanta för framtida studier. GH5-familjen inkluderar endo-β-mannanaser som katalyserar hydrolysen av den β-1,4-länkade huvudkedjan i mannanpolysackarider. Dessa växtpolymerer som ingår i hemicellulosagruppen är vanligt förekommande i cellväggarna, där de fungerar som energilagringsmolekyler eller har en strukturell funktion. Mannaner används ofta som råmaterial för industriell livs- och djurfodersproduktion, papper, textilier och kosmetika. I dessa processer behövs ofta mannanaser för modifiering och kontroll av egenskaperna hos dessa polysackarider. Den överväldigande majoriteten av alla karaktäriserade mannanaser kommer från mikroorganismer. Endast för ett fåtal växtmannanaser har de katalytiska egenskaperna analyserats. Manuskript II beskriver den första karaktäriseringen av ett heterologt uttryckt β-mannanas från Arabidopsis.
QC 20130506
Dias, Bruno Augusto [UNESP]. "Caracterização funcional e estrutural de uma ?-glucanase GH12 de Aspergillus terreus." Universidade Estadual Paulista (UNESP), 2013. http://hdl.handle.net/11449/108896.
Full textCoordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
A conversão enzimática dos polissacarídeos da biomassa é um fator chave no desenvolvimento de bioetanol de segunda geração. A recalcitrância da lignocelulose para a degradação enzimática e o custo elevado de enzimas hidrolíticas necessárias para a despolimerização de polissacarídeos encontrados na parede celular da planta são barreiras significativas para a produção em larga escala e para a comercialização de biocombustíveis e bioprodutos derivados da biomassa vegetal. A fim de aumentar rapidamente a produção de biocombustíveis celulósicos e bioprodutos, existe a necessidade de desenvolver coquetéis enzimáticos mais eficientes e de menor custo para a conversão de biomassa em açúcares fermentáveis. Nesse contexto, o estudo de enzimas degradadoras da parede celular é essencial. No presente trabalho a enzima endo-1,4-?-D-glucanase de Aspergillus terreus (ATEG_09894) foi clonada para expressão em A. nidulans. O teste de expressão mostrou a expressão solúvel da proteína. Sua identidade foi confirmada por espectrometria de massas. O pH ótimo e a temperatura ótima para sua atividade enzimática foram de 5,0 e 55ºC, respectivamente. A desnaturação térmica mostrou que a partir de 60ºC a enzima começa a perder estrutura. Interessantemente a enzima apresenta atividades ?-glucanase e xiloglucanase, tendo preferência por ?-glucano. A caracterização estrutural mostrou que ATEG_09894 foi expressa corretamente e os resultados de SEC e SAXS mostram que a proteína é monomérica em solução e o modelo de sua estrutura tridimensional indica que a superfície eletrostática da molécula contribui para um monômero estável. Os dados apresentados nesse trabalho são importantes pois identificam peculiaridades da enzima ATEG_09894, que atua na degradação da biomassa, sugerem os determinantes de sua seletividade enzimática e apresenta a degradação, não usual, de ?-glucanos...
The enzymatic conversion of polysaccharides from biomass is a key factor in the development of second generation bioethanol. The recalcitrance of lignocellulose to enzymatic degradation and the high cost of hydrolytic enzymes necessary for the depolymerization of polysaccharides found in plant cell wall are significant barriers to large-scale production and commercialization of biofuels and bioproducts derived from plant biomass. In order to rapidly increase the production of biofuel and byproducts cellulosic, a need exists to develop more efficient and lower cost enzymatic cocktails for the conversion of biomass into fermentable sugars. In this context, the study of cell wall degrading enzymes is essential. In this work the enzyme endo-1,4-?-D-glucanase from Aspergillus terreus (ATEG_09894) was cloned for expression in A. nidulans. The expression test showed the expression of a soluble protein. Its identity was confirmed by mass spectrometry. The optimum pH and optimum temperature for the enzyme activity were 5.0 and 55 ºC, respectively. The thermal denaturation showed that above 60 ºC the enzyme starts to lose structure. Interestingly, the enzyme has ?-glucanase and xiloglucanase activities, preferring ?-glucan. Structural characterization showed that ATEG_09894 was expressed correctly folded and the results of SEC and SAXS show that the protein is monomeric in solution and the model of its three dimensional structure indicates that the electrostatic surface molecule contributes to a stable monomer. The data presented in this study are important because they identify peculiarities of ATEG_09894, which acts in the degradation of biomass, suggest the determinants of its selectivity and enzymatic degradation presents, unusual, of ?-glucans and xyloglucans, promising feature for degradation of lignocellulosic material
Dias, Bruno Augusto. "Caracterização funcional e estrutural de uma β-glucanase GH12 de Aspergillus terreus /." São José do Rio Preto, 2013. http://hdl.handle.net/11449/108896.
Full textCoorientador: Fábio Márcio Squina
Banca: Roberto da Silva
Banca: Henrique Ferreira
Banca: Leandro Cristante de Oliveira
Banca: André Ricardo de Lima Damásio
Resumo: A conversão enzimática dos polissacarídeos da biomassa é um fator chave no desenvolvimento de bioetanol de segunda geração. A recalcitrância da lignocelulose para a degradação enzimática e o custo elevado de enzimas hidrolíticas necessárias para a despolimerização de polissacarídeos encontrados na parede celular da planta são barreiras significativas para a produção em larga escala e para a comercialização de biocombustíveis e bioprodutos derivados da biomassa vegetal. A fim de aumentar rapidamente a produção de biocombustíveis celulósicos e bioprodutos, existe a necessidade de desenvolver coquetéis enzimáticos mais eficientes e de menor custo para a conversão de biomassa em açúcares fermentáveis. Nesse contexto, o estudo de enzimas degradadoras da parede celular é essencial. No presente trabalho a enzima endo-1,4-β-D-glucanase de Aspergillus terreus (ATEG_09894) foi clonada para expressão em A. nidulans. O teste de expressão mostrou a expressão solúvel da proteína. Sua identidade foi confirmada por espectrometria de massas. O pH ótimo e a temperatura ótima para sua atividade enzimática foram de 5,0 e 55ºC, respectivamente. A desnaturação térmica mostrou que a partir de 60ºC a enzima começa a perder estrutura. Interessantemente a enzima apresenta atividades β-glucanase e xiloglucanase, tendo preferência por β-glucano. A caracterização estrutural mostrou que ATEG_09894 foi expressa corretamente e os resultados de SEC e SAXS mostram que a proteína é monomérica em solução e o modelo de sua estrutura tridimensional indica que a superfície eletrostática da molécula contribui para um monômero estável. Os dados apresentados nesse trabalho são importantes pois identificam peculiaridades da enzima ATEG_09894, que atua na degradação da biomassa, sugerem os determinantes de sua seletividade enzimática e apresenta a degradação, não usual, de β-glucanos...
Abstract: The enzymatic conversion of polysaccharides from biomass is a key factor in the development of second generation bioethanol. The recalcitrance of lignocellulose to enzymatic degradation and the high cost of hydrolytic enzymes necessary for the depolymerization of polysaccharides found in plant cell wall are significant barriers to large-scale production and commercialization of biofuels and bioproducts derived from plant biomass. In order to rapidly increase the production of biofuel and byproducts cellulosic, a need exists to develop more efficient and lower cost enzymatic cocktails for the conversion of biomass into fermentable sugars. In this context, the study of cell wall degrading enzymes is essential. In this work the enzyme endo-1,4-β-D-glucanase from Aspergillus terreus (ATEG_09894) was cloned for expression in A. nidulans. The expression test showed the expression of a soluble protein. Its identity was confirmed by mass spectrometry. The optimum pH and optimum temperature for the enzyme activity were 5.0 and 55 ºC, respectively. The thermal denaturation showed that above 60 ºC the enzyme starts to lose structure. Interestingly, the enzyme has β-glucanase and xiloglucanase activities, preferring β-glucan. Structural characterization showed that ATEG_09894 was expressed correctly folded and the results of SEC and SAXS show that the protein is monomeric in solution and the model of its three dimensional structure indicates that the electrostatic surface molecule contributes to a stable monomer. The data presented in this study are important because they identify peculiarities of ATEG_09894, which acts in the degradation of biomass, suggest the determinants of its selectivity and enzymatic degradation presents, unusual, of β-glucans and xyloglucans, promising feature for degradation of lignocellulosic material
Doutor
Alsina, Verdú Cristina. "Enginyeria de glicosintases derivades de quitinases GH18 per a la polimerització de quitooligosacàrids." Doctoral thesis, Universitat Ramon Llull, 2019. http://hdl.handle.net/10803/667340.
Full textLos quitosanos y quitooligosacáridos (COS), obtenidos por enzimas modificadores de la quitina, presentan un elevado interés biotecnológico debido al importante número de aplicaciones en áreas tan dispares como son la agricultura, el tratamiento de aguas, la industria alimenticia, la biomedicina y la cosmética, entre otras. Entre las funciones biológicas dentro de la industria médico-farmacéutica destacan actividades antiinflamatorias, inmunoestimulantes, antimicrobianas, antitumorales, de prevención de la obesidad y control del colesterol, como vectores de terapia génica y de promoción de la cicatrización y regeneración de la piel. Estas propiedades biológicas de los COS no solo son dependientes del grado de polimerización y acetilación sino que posiblemente también dependen del patrón de acetilación de estos. Actualmente la síntesis de COS presenta dos problemas principales: poca reproducibilidad entre lotes y el origen animal de los productos, que dificultan su utilización en la industria médico-farmacéutica. Con el objetivo de sobreponerse a estas limitaciones se ha pretendido desarrollar una plataforma biotecnológica para la producción de COS de bajo peso molecular con secuencias definidas. El proyecto pretende utilizar la actividad transglicosidasa de las quitinasas como herramienta sintética para obtener oligómeros de quitina y quitosano definidos con patrones de acetilación repetitivos. Las quitinasas son glicosil hidrolasas que catalizan la hidrólisis de enlaces glicosídicos β1,4 de polímeros de quitina y quitosano. Algunas quitinasas presentan también actividad de transglicosidación (TG) mediante la cual son capaces de introducir nuevos enlaces glicosídicos entre una molécula donadora y una aceptora con la consecuente generación de COS oligoméricos. Estas quitinasas pueden utilizarse para la polimerización in vitro de COS, pero la actividad de hidrólisis que presentan tiende a despolimerizar los productos de TG rápidamente. Con el objetivo de aumentar la actividad de TG de quitinasas para la obtención de nuevos COS estructuralmente definidos, en esta tesis se ha aplicado la estrategia glicosintasa (GS) sobre diferentes quitinasas de la familia GH18 por mutación del residuo asistente y el uso de un derivado oxazolina como donador, con las que se ha logrado una importante disminución de la actividad de hidrólisis y un incremento de la actividad de TG. A pesar del incremento de la actividad de TG, la actividad hidrolasa residual que presentan da lugar a la hidrólisis de los productos GS y de TG formados que impide el aumento del rendimiento. Con este propósito se ha optado por la modificación de una de las enzimas seleccionadas por ingeniería de proteínas. Mediante mutagénesis dirigida se ha logrado incrementar el rendimiento en polímero hasta un 60% (p/p) con el uso de un derivado oxazolina de un COS de quitina (el 60% del cual corresponde al producto de la reacción GS), y también la obtención de oligómeros/polímeros de quitosano con el uso de derivados oxazolina de quitooligosacáridos parcialmente desacetilados, estructuralmente definidos.
Chitosan and chitooligosaccharides (COS), obtained by chitin-modifying enzymes, are of interest to a wide variety of areas such as agriculture, water treatment, food industry, biomedicine and cosmetics, among others, due to their important number of applications. Among the biological roles on the medical-pharmaceutical industry are amply demonstrated anti-inflammatory, immunostimulants, antimicrobians and antitumorals activities, obesity prevention and cholesterol control, ability of gene and drug delivery, wound healing and skin regeneration activities. These biological properties are not only related to their degree of polymerization and acetylation, but possibly they are also dependent on their pattern of acetylation. Nowadays the synthesis of COS has two main hurdles: a poor reproducibility between batches and the animal origin of the products, which difficult their usage in the medical-pharmaceutical industry. With the goal of overcome these limitations, we were aiming at the development of a biotechnological platform for the production of sequence-defined low molecular weight chitosans. The project addresses the use of the transglicosidase activity of chitinases as a synthetic tool to obtain well-defined oligomers with repeating patterns of acetylation. Chitinases are glycoside hydrolases that catalyse the hydrolysis of β1,4 glycosidic bonds of chitin and chitosan polymers. Some chitinases have also transglycosydase activity (TG), allowing them to introduce new glycosidic bonds between donor and acceptor sugar molecules with the consequent generation of oligomeric COS. Such transglycosylating chitinases can be used for the in vitro polymerization of COS, but the hydrolytic activity of these enzymes tends to depolymerise the TG products quickly. With the main goal of increase TG activity of chitinases to obtain new well-defined COS, in the present work we use the glycosynthase technology (GS) on different GH18 chitinases by mutation of the assisting residue and the use of an activated glycosyl donor (an oxazoline derivative), with which an important diminish of the hydrolytic activity and an increase of the TG activity have been obtained. Despite the higher TG activity, the residual hydrolytic activity of the assisting residue mutants results in the hydrolysis of the GS and TG products that not allow the increase of the polymer yield. Protein engineering (rational approach) was used to modify one of the selected enzymes. By site-directed mutagenesis it has been possible to increase the polymer yield up to 60% (w/w) using a chitin oligomer oxazoline derivative (the 60% of which corresponds to the product of the GS reaction), and it has also been possible to obtain chitosan oligomers/polymers using structurally defined partially deacetylated COS oxazoline derivatives.
Song, Letian. "Study and Engineering of a GH11 endo-beta-xylanase, a biomass-degrading hemicellulase." Thesis, Toulouse, INSA, 2011. http://www.theses.fr/2011ISAT0039/document.
Full textEngineering new and powerful enzymes for biomass hydrolysis is one area that will facilitate thefuture development of biorefining. In this respect, xylanases from family GH11 are already importantindustrial biocatalysts that can contribute to 2nd generation biorefining. The target of this study, theGH11 xylanase (Tx-Xyl) from Thermobacillus xylanilyticus is thermostable, and is thus an interestingtarget for enzyme engineering, aiming at increasing its specific activity on lignocellulosic biomass,such as wheat straw. Nevertheless, the action of xylanases on complex biomass is not yet wellunderstood, and thus the use of a rational engineering approach is not really feasible.In this doctoral study, to gain new insight into structure-function relationships, two enzymeengineering strategies have been deployed. The first concerns the development of a randommutagenesis and in vitro DNA shuffling approach, which was used in order to improve the hydrolyticpotency of Tx-Xyl on wheat straw, while the second strategy consisted in the creation of a chimericenzyme, with the aim of probing and improving -3 subsite binding, and ultimately improvinghydrolytic activity.The first key results that has been obtained is the development of a novel high-throughputscreening method, which was devised in order to reliably pinpoint mutants that can better hydrolyzewheat straw. Using this screening method, several generations of mutant libraries have beenanalyzed and a series of improved enzyme variants have been identified. One mutant, bearing silentmutations, actually leads to higher gene expression, while others have intrinsically altered catalyticproperties. Testing of mutants has shown that some of the enzyme variants can improve thesolubilization of wheat straw arabinoxylans and can work in synergy with cellulose cocktails torelease both pentose sugars and glucose.Using a semi-rational approach, 17 amino acids have been added to the N-terminal of Tx-Xyl, withthe aim of adding two extra β-strands coming from a GH11 fungal xylanase. A chimeric enzyme hasbeen successfully expressed and purified and its catalytic properties have been investigated.Although this approach has failed to create increased -3 subsite binding, the data presented revealsimportant information on structure-function relationships and suggest that Tx-Xyl may possess ahitherto unknown secondary substrate binding site. Moreover, a rational explanation for the failureof the original strategy is proposed
Simmons, Thomas J. "Characterisation of five GH16 glycanase and transglycanase activities and of their hemicellulosic substrates." Thesis, University of Edinburgh, 2014. http://hdl.handle.net/1842/11733.
Full textWu, Haiyang. "Characterizing xylan-degrading enzymes from a putative Xylan Utilization System derived from termite gut metagenome." Thesis, Toulouse, INSA, 2018. http://www.theses.fr/2018ISAT0039.
Full textIn the context of bioeconomy, the discovery and study of plant-cell wall degrading enzymes is particularly relevant for the use of lignocellulosic biomass for industrial purposes. In this respect, functional metagenomics has proven to be a powerful tool to discover new enzymes from a variety of microbial ecosystems, as exemplified by work performed on the gut of the termite Pseudacanthotermes militaris. This study provided a wealth of information and identified an interesting hypothetical xylan utilization system, encoding five glycoside hydrolases (GH) and one carbohydrate esterase (CE) annotated from bacteroidales. The Pseudacanthotermes militaris-derived putative XUS cluster contains a GH10 xylanase that displays a quite complex modular arrangement wherein the GH10 catalytic module contains two insertional carbohydrate binding modules (CBM). During the preliminary work, this modular enzyme, designated Pm25, was shown to be active on xylan, thus in the present research we set out to more thoroughly characterize its biochemical and catalytic properties.The role of the CBM was also investigated, quantifying protein-carbohydrate interactions and thus providing better insight into the specific role of the modules. Taken together, the results obtained provide insight into how Pm25 modularity translates into functional properties. In second part of our study, we set out investigate the function of Pm25 in the context of the XUS cluster. To achieve this we studied a xylan utilization system, which is constituted by another GH10, GH11, GH115 and GH43. The comparison of kinetic parameters and a detailed end product analysis by mass spectrometry showed that GH10 and GH11 outweigh over 20 fold Pm25 catalytic efficiency. In parallel, we developed the use of MicroScale Thermophoresis (MST) to quantify CBM-carbohydrates interactions, an interesting approach requiring smaller concentration of proteinsand ligands compared to other biophysical methods. Overall this study highlighted the important role of Pm25 homologs in the xylan utilization system in Bacteroidetes, and pinpointed the meaning of its unusual architecture
Ramos, Felipe Cardoso. "Avaliação da termoestabilidade e aplicação biotecnológica de endo-xilanases GH11 obtidas por otimização in silico /." São José do Rio Preto, 2017. http://hdl.handle.net/11449/151073.
Full textCoorientador: Leticia Maria Zanphorlin Murakami
Banca: Mário Tyago Murakami
Banca: Clelton Santos
Resumo: O processamento da biomassa lignocelulósica para a produção do etanol de segunda geração (E2G) e outras aplicações requer enzimas termoestáveis capazes de operar sob altas temperaturas e longos períodos de incubação. Nesse contexto, reportamos aqui a validação experimental preliminar de uma abordagem in silico para a obtenção enzimas hidrolíticas termoestáveis. Simulações computacionais da endoxilanase GH11 de Bacillus subtilis (XBS) usando a metodologia de otimização de interações eletrostáticas (EIO) indicaram três resíduos (K99, R122 and K154) críticos para o aumento da termoestabilidade através da substituição de cargas. Assim, analisamos os efeitos da mutação K99E em diversas propriedades da XBS selvagem (XBSWT) e também de uma XBS obitida in vitro através de evolução dirigida (XBSM6). Após expressão heteróloga em células de Escherichia coli BL21 e purificação através de cromatografia de afinidade, realizamos a caracterização bioquímica e biofisica das enzimas. Além disso, conduzimos estudos de termotolerância incubando as enzimas em condições industriais (pH 4,8 e 50 °C). Finalmente, realizamos testes de suplementação de um coquetel enzimático comercial esperando obter melhoras no processo de hidrólise da biomassa. Os resultados mostraram que a mutação K99E foi capaz de aumentar a temperatura de desnaturação térmica (Tm) das enzimas em aproximadamente 1 °C e melhorar a termotolerância de XBSWT e XBSM6 sem alterar suas condições ótimas. Somado a isso, a enzima...
Abstract: Processing of lignocellulosic biomasses for second-generation bioethanol (SGB) production and others applications requires thermostable enzymes able of operating under high temperatures and long incubation periods. In this context, we report here the preliminary experimental validation of an in silico approach for engineering hydrolytic enzymes towards thermostability. Previous computational simulations of GH11 endo-xylanase from Bacillus subtilis (XBS) using the electrostatic interaction optimization (EIO) methodology indicated three amino acid residues (K99, R122 and K154) critical for increasing thermostability through charge replacement. Thus, we analyzed the effects of the K99E mutation on several proprietes of two XBS enzymes: the wild-type XBS (XBSWT) and an XBS obitited in vitro by directed evolution (XBSM6). After heterologous expression in Escherichia coli BL21 cells and purification by affinity chromatography, we performed the biochemical and biophysical characterization of enzymes. We also conducted thermotolerance studies, incubating the enzymes under industrial conditions (pH 4.8 and 50 ° C). Finally, we performed supplementation assays of a commercial enzyme cocktail hoping to obtain improvements in the biomass hydrolysis process. The results showed that the K99E mutation was able to increase the enzymes thermal denaturation temperature (Tm ) by approximately 1 °C and improve thermotolerance of XBSWT and XBSM6 without alter its optimum conditions. In addition, ...
Mestre
Ribeiro, Marcela Suriani. "Estudo funcional do gene gluc31 que codifica uma β-1,3-glucanase da família GH16 de Trichoderma harzianum." Universidade Federal de Goiás, 2017. http://repositorio.bc.ufg.br/tede/handle/tede/7346.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES
The genus Trichoderma includes species that have the ability to antagonize plant pathogens in a complex process ranging from antibiosis, competition for nutrients, mycoparasitism and induction of defense mechanisms in plants or a combination of these. Trichoderma species are known for their ability to produce lytic enzymes such as exoglucanases, endoglucanases, chitinases, and proteases that is essential for phytopathogen cell wall degradation. In the development and differentiation processes of Trichoderma, β-glucanases contributes significantly to the morphogenetic-morphological process that lead to the presence of β-glucans as the main component of fungi wall. In this work, we studied the functional role of the gluc31 gene that encodes an endo β-1,3-glucanase of the GH16 family of Trichoderma harzianum ALL42 through the deletion of this gene. This study demonstrated that the absence of Δgluc31 gene did not affect the in vivo mycoparasitism ability of the mutant T. harzianum ALL42, however the involvement of this gene in cell wall remodeling and synthesis were demonstrated. In the absence of the gluc31 gene, a higher deposition of chitin polymers on the cell wall of the mutant hyphae was observed. The absence of the gluc31 gene in T. harzianum also demonstrated an effect on the expression of other genes belonging to the family 16 of glycosyl hydrolases, due to the function redundancy found among the glucanases.
O gênero Trichoderma inclui espécies que possuem habilidade de antagonizar patógenos de plantas em um processo complexo que vão desde antibiose, competição por nutrientes, micoparasitismo, indução de mecanismos de defesa em plantas ou ainda uma combinação desses. Espécies de Trichoderma são conhecidas por sua capacidade de produzir enzimas líticas tais como exoglucanases, endoglucanases, quitinases e proteases que desempenham papéis importantes na degradação da parede de fitopatógenos. Nos processos de desenvolvimento e diferenciação de Trichoderma, as β-glucanases contribuem de forma significativa no processo morfogenéticomorfolítico uma vez que a β-glucanas é o componente principal da sua parede. Nesse trabalho, realizou-se o estudo do papel funcional do gene gluc31 que codifica uma endo β-1,3-glucanase da família GH16 de Trichoderma harzianum ALL42, através da deleção deste gene. Observamos que a ausência do gene gluc31 não afetou a capacidade de micoparasitismo, in vitro, da espécie mutante de T. harzianum ALL42, entretanto, o envolvimento deste gene na síntese e remodelamento da parede celular foi demonstrado. Na ausência do gene gluc31, uma maior quantidade de polímero de quitina na parede celular das hifas da linhagem mutante Δgluc31 foi observado. A ausência do gene gluc31 em T. harzianum demonstrou ainda um efeito sobre a expressão dos outros genes pertencentes à família 16 de glicosil hidrolases em ensaios de RT-qPCR, devido a redundância de função entre as glucanases.
Almeida, Vitor Medeiros. "Identificação de domínios em β-glicosidases GH1 através da análise de sua estabilidade." Universidade de São Paulo, 2016. http://www.teses.usp.br/teses/disponiveis/46/46131/tde-22082016-082333/.
Full textIntroduction and Aims: β-glucosidases from the family GH1 of the glycosil-hidrolases presents a (β/α)8 barrel folding. These proteins are usually classified as single domain, however it has been alternatively proposed that they actually are formed by two \"half barrel\" (β/α)4. Thus, (β/α)8 barrel proteins had evolved from an \"half barrel\" ancestor that underwent a duplication-fusion event. The general goal of this project is the search for the two putative (β/α)4 domains, which form the N- and C-terminal ends of the β-glucosidase A from Thermotoga maritima (bglTm) and β-glucosidase B from Paenibacillus polymyxa (bglB), detecting their presence through the thermal and chemical stability of these (β/α)8 barrel proteins. Results: Site-directed mutagenesis was employed to replace residues forming non-covalent interaction between the putative (β/α)4 domains. DNA segments coding for bglB, bglTm and mutant bglTm were cloned into the pLATE51 expression vector and produced as recombinant proteins in E. coli BL21(DE3). The bglB, bglTm and two mutant bglTm, hereafter called T1 and T2, with 2 and 4 mutations respectively on residues in the interface between the protein halves, were purified. They were stable folded as shown by detecting their catalytic activity upon two different substrates and also by circular dichroism (CD) and tryptophan fluorescence analysis. Nevertheless, T2 showed a decrease in the α-helix content (10 %) in the CD analysis, whereas bglTm and T1 are similar (22 %). The wild-type bglTm and T1 are thermostable, whereas T2 was inactivated after pre-incubation at high temperature (kobs = 0,3 min-1 at 80 °C and 0,06 min-1 at 75 °C). The Differential Scanning Fluorimetry experiments revealed Tm of 42 e 81.7 °C for bglB and T2, respectively, whereas wild-type bglTm and mutant T1 did not showed any thermal transition up to 95 °C. Indeed, the analysis of the thermal stability of T1 and T2 did not reveal any evidence of the putative (β/α)4 domains. Following that, the analysis of the protein denaturation by guanidine hydrochloride showed that the c50 for T2 was reduced (2.4 M), whereas no modification was observed for bglTm and T1 (4,3 and 4,5 M, respectively). In agreement the stability of bglTm and T1 (ΔGH2O = 5,2 kcal/mol) is similar, but it was reduced for T2 (ΔGH2O = 3,5 kcal/mol). The m parameter showed a similar cooperative denaturation for wild-type bglTm and mutants T1 and T2, but no evidence of the independent unfolding of the putative (β/α)4 domains was found. Conclusion: In conclusion, the analysis of the thermal and chemical stability of the bglTm did not reveal the presence of the putative (β/α)4 domains that form the N- and C-terminal end of these β-glucosidase.
BABU, DEEPAK. "Genetic analysis of GH1, GLI2 and SHOX genes in patients with growth impairment." Doctoral thesis, Università del Piemonte Orientale, 2015. http://hdl.handle.net/11579/115575.
Full textFadel, Firas. "High resolution structural and mechanistic study of human chitotriosidase (CHIT1)." Thesis, Strasbourg, 2014. http://www.theses.fr/2014STRAJ057/document.
Full textChitotriosidase (CHIT1) is a human chitinase belonging to the glycosyl hydrolase family 18 (GH18), a highly conserved enzyme family. GH18 enzymes hydrolyze chitin, a N-acetyl glucosamine polymer. CHIT1 is characterized by many enzymatic features that are conserved in GH18 and not completely understood. To increase our knowledge on the catalytic mechanism in CHIT1 and GH18 family, I improved the X-ray resolution crystal structure of CHIT1 catalytic domain in apo and pseudo apo forms as well as in complex with a synthetic substrate to a resolution range between 0.95Å and at 1.10Å. My results allow me to suggest a new mechanism for chito-oligosaccharide chains hydrolysis. Moreover, thanks to a new a crystallogenesis strategy, I obtained the first crystal structure of full length CHIT1 at 1.95Å resolution. My study presents many structural and mechanistic aspects of CHIT1 which gives new insights onto its mode of action and shed light into the conserved enzymatic features in GH18 chitinase family
Lido, Ândria Carla Vito. "Estudo do gene do hormônio de crescimento hipofisário (GH1) em indivíduos com baixa estatura idiopática." Universidade de São Paulo, 2014. http://www.teses.usp.br/teses/disponiveis/5/5135/tde-20102014-145337/.
Full textThe growth hormone (GH) / insulin-like growth factor-1 (IGF-1) axis is the most important hormonal regulator of post-natal linear growth. GH is encoded by the Growth Hormone 1 gene (GH1). Mutations in GH1 with dominant inheritance, which exerts a dominant negative effect on the bioactive GH isoforms, are the main causes of monogenic isolated deficiency of growth hormone (IGHD), while deletions or point mutations in GH1 are responsible for a rare autosomal recessive form of IGHD. However, only homozygous deletions were identified in patients with IGHD from Unidade de Endocrinologia do Desenvolvimento do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo, even after detailed investigation of GH1. This difference regarding to literature can be caused by different criteria used to diagnose IGHD in our group, which adopted the cutoff value of peak GH < 3.3ug/L in response to stimulation test, in contrast to literature that describes other groups that use the cutoff peak value of the 7 - 10ug/L. Consequently, patients with autosomal dominant inheritance mutations in GH1 could be being erroneously diagnosed, as having idiopathic short stature (ISS) in our group. Additionally, mutations that cause biologically inactive GH can also be responsible for short stature in these patients. Due to the factors described above, we decided to screen mutations in GH1 in a group of children classified as ISS. We selected 98 of 487 children followed in our department with short stature according to the following criteria: normal birth weight and length for gestational age, height SDS <= -2, IGF-1 SDS < -1 and peak GH in stimulation test >= 3.3 ug/L. Genomic DNA was extracted from peripheral blood leucocytes of the patients to screen for mutations in GH1. We performed molecular analysis by polymerase chain reaction and automated sequencing of the entire coding region of the GH1. Segregation analysis was performed in the presence of allelic variations. In our casuistic, we identified 10 allelic variants in exon 4, exon 5 and intron 4 of GH1, three of which have not been described (c.407G > A/p.Val122Ile, c.507C > T/p.Tyr169Tyr and c.456+19G >T). In silico analysis predicted that none of the mutant alleles would result in deleterious effect on the GH protein. An additional study in children diagnosed with severe IGHD, identified just one patient with the pathogenic GH1 mutation responsible for the dominant form of this disease. In summary, defects in GH1 responsible for the autosomal dominant form of IGHD or Type II were not found in our cohort of Brazilian patients, suggesting that these mutations are infrequent in our population
Frutuoso, Maira Artischeff. "Estudo das bases moleculares de reações de transglicosilação em β-glicosidases GH1 de Spodoptera frugiperda eTenebrio molitor." Universidade de São Paulo, 2011. http://www.teses.usp.br/teses/disponiveis/46/46131/tde-10102014-111007/.
Full textGlycosides are essential to life and can be synthesized by enzymatic methods with high specificity. The reaction mechanism of GH1 β-glucosidases by double-substitution involves the formation of covalent intermediate (glycosyl-enzyme) which may follow two routes. One of them involves hydrolysis in β-glycosidic bond between aglycone glucone and the substrate, releasing a monosaccharide from the non-reducing end, whereas in the other route, transglycosylation or synthesis by kinetic control, the intermediate is attacked by a glucosyl acceptor (second substrate molecule), generating a new glucoside. BglB has two residues (W and H) that form a \"channel\" through which water attacks the covalent intermediate on the active site. Thus, the residues are potential targets for mutations that alter the balance between routes, increasing the efficiency of transglycosylation. To characterize the molecular basis of the ratio between these two catalytic routes, two β-glycosidases from GH1 family, Spodoptera frugiperda (Sfβgly; AF052729) and Tenebrio molitor (Tmβgly; AF312017) were produced as recombinant enzymes in Pichia pastoris GS115, concentrated using 90% (w/v) ammonium sulfate and reverse dialysis with PEG 10000, and dialyzed in 100 mM CP buffer pH 6. SDS-PAGE confirmed that Sfβgly (~50 kDa) and Tmβgly (~56 kDa) were pure after that procedure. The activity recovered after purification were 152% (Sfβgly) and 171% (Tmβgly) and protein concentration were 0.134 mg/mL (Sfβgly) and 0.217 mg/mL (Tmβgly). The ratio between the hydrolysis and transglycosylation (vH/vT) was analyzed using pNPβ-gluco substrates (0.1 mM to 8 mM) and MUβ-gluco (0.1 mM to 40 mM), the rate of formation of pNP or MU and glucose. Tmβgly catalyzes transglycosylation reactions with both substrates, but vH/vT depends on [S] ranging from +∞ (vH>>vT) to 1.5 for pNPβ-gluco and + ∞ to 1 for MUβ-gluco. In contrast, Sfβgly did not catalyses transglycosilation with MUβ-gluco. Moreover, vH/vT for pNPβ-gluco-is 2 and is independent of [S]. Sfβgly K201F combines properties of both, because it does not catalyse transglycosylation with MUβ-gluco, but for pNPβ-gluco the occurrence of transglycosylation is dependent on [S], ranging from + ∞ (vH>>vT) to 1.25. The kinetic parameters (Vmax e Km) were adjusted in Enzfitter and numerical simulation showing that Km2is higher for Tmβgly and Sfβgly K201F than Sfβgly. We also evaluated the effect of adding alternative acceptors that replace the water in pNPβ gluco-4 mM. For the three enzymes the addition of methanol makes vglc less than pNP, indicating the occurrence of transglycosylation. Addition of n-propanol decreases vH/vT about 7 times in Sfβgly and 2 times Tmβgly. The effects on Sfβgly are higher than on Tmβgly and Sfβgly K201F, suggesting easier access to the covalent intermediate in Sfβgly. We observe that vH/vT is not related to affinity for the second substrate molecule and may be modulated by mutation of residue K201 Sfβgly, position related to the access of water or alternative acceptor to the active site.
Araújo, Juscemácia Nascimento. "Sintese e caracterizacao de nanoparticulas de prata assistidas por B-glicosidases (GH1 e GH3) de Thermotoga petrophila." reponame:Repositório Institucional da UFABC, 2017.
Find full textDissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Biotecnociência, 2017.
A hidrolise enzimatica da celulose e realizada pela acao sinergica de pelo menos tres tipos de celulases distintas: endoglucanases, exoglucanases e B.glicosidases. As endoglucanases e celobiohidrolases sao frequentemente inibidas pelo aumento da concentracao de celobiose (dimero de glicose) no meio reacional. As ¿À-glicosidases sao enzimas que clivam celobiose em monomeros de glicose. Portanto, as B-glicosidases sao essenciais ao processo de hidrolise da celulose por impedirem o acumulo de celobiose e, assim, evitar a diminuicao da taxa de hidrolise. Processos de pre-tratamento da biomassa lignocelulosica sao empregados, antes da reacao de hidrolise enzimatica da celulose, a fim de retirar a fracao de lignina e aumentar a taxa de conversao da celulose em glicose. Porem, estes processos de pre-tratamento da biomassa lignocelulosica nao sao 100% eficientes na remocao da lignina. Estudos previos mostraram que a adicao de lignina a celulose pura pode causar a reducao da liberacao de acucar em valores superiores a 60%. Assim, neste estudo, nos caracterizamos a adsorcao nao produtiva da enzima ¿À-glicosidase da familia GH1 da bacteria Thermotoga petrophila (TpBGL1) em ligninas extraidas de diferentes biomassas (cana-de-acucar e eucalipto). Em pH 7 e 6, nossos resultados indicaram que a repulsao eletrostatica enfraquece a adsorcao nao produtiva de TpBGL1 em ligninas. Contudo, em pH 4 a atracao eletrostatica fortalece a adsorcao nao produtiva. Alem disso, o aumento da temperatura de 25 oC para 70 oC nao resultou em um aumento significativo da adsorcao de TpBGL1 em ligninas, provavelmente porque nao ocorre um aumento significativo de regioes hidrofobicas na estrutura da enzima expostas ao solvente. Todas as informacoes obtidas neste estudo poderao ser uteis para aplicacoes biotecnologicas no campo de conversao de polissacarideos estruturais em bioenergia.
The B-glucosidases are a group of important enzymes employed in a large number of industrial applications. In this study, we reported for the first time the photobiosynthesis of stable and functional silver nanoparticles (AgNPs) using two hyperthermostable bacterial â-glucosidases with industrial potential. The syntheses were simple and rapid processes carried out by mixing â-glucosidases and silver solution under irradiation with light (450-600 nm), therefore, compatible with the green chemistry methodology. The synthesized AgNPs were characterized using a series of physical techniques. Absorption spectroscopy showed a strong absorption band at 460 nm due to surface plasmon resonance of the AgNPs. X-ray diffraction analysis showed that the AgNPs were purely crystalline in nature. Electron microscopy showed AgNPs of variable diameter ranging from 20 to 100 nm. In addition, electron microscopy, zeta potential and Fourier transform infrared spectroscopy results confirmed the presence of â-glucosidases coating and stabilizing the AgNPs. The results also showed that the enzymatic activities were maintained in the â-glucosidases assisted AgNPs. The data described in this study should provide a useful basis for future studies of â-glucosidases assisted AgNPs, including biotechnological applications.
Petronella, Nicholas. "Gene Conversions and Selection in the Gene Families of Primates." Thesis, Université d'Ottawa / University of Ottawa, 2012. http://hdl.handle.net/10393/20538.
Full textPaiva, Joice Helena 1985. "Estrutura, função e estabilidade de hidrolases gicosídicas pertencentes à família GH5 com potencial aplicação na conversão de biomassa lignocelulósica em açúcares fermentáveis = Structure, function and stability of the glycosyl hidrolases that belong to GH5 family with potencial application in the conversion of lignocellulosic biomass in fermentable sugars." [s.n.], 2013. http://repositorio.unicamp.br/jspui/handle/REPOSIP/314546.
Full textTese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia
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Doutorado
Bioquimica
Doutora em Biologia Funcional e Molecular
Jaser, Suhaila Karim Khalil. "Avaliação de polimorfismos no gene do Hormônio de Crescimento (GH1) de duas variedades de Oreochromis niloticus e sua associação com caracteristicas de desempenho." Universidade de São Paulo, 2015. http://www.teses.usp.br/teses/disponiveis/87/87131/tde-04122015-134007/.
Full textThe present study aimed to identify SNPs in the proximal promoter region and in the first intron of GH gene and to evaluate if there is association of SNPs variation with the O. niloticus growth rate. Firstly, SNP searching in the two targeted regions was carried out in four strains. Then, two strains, Red-Stirling and Chitralada were used in grow-out testing in cages. Association between SNPs and growth rate were statistically estimated by univariate linear mixed model taking into account fixed and random effects. Nine SNPs were found in the proximal promoter region and one in the 5 UTR region, which formed 10 genotype blocks (A to J). Five of these genotype blocks (F to J) were not found in the grow-out individuals. However, six new genotype blocks (K to P) were identified. Genotype blocks B, P, K, L and M were statistically associated to the best weights, and the SNPs GHP6 to GHP10 individually showed significant association (P < 0,05) with growth. These findings found herein may potentially be used as Marked-Assisted Selection in tilapia breeding programs.
Pérez, Arroyo Annalisa. "Caracterització molecular del gen GH1 en poblacions control i patològiques, patrons d'expressió en leucòcits de sang perifèrica i estudi funcional de proteïnes mutants detectades en pacients." Doctoral thesis, Universitat de Barcelona, 2007. http://hdl.handle.net/10803/1004.
Full textLes conclusions del treball han estat les següents:
1. Els nostres resultats han confirmat i ampliat la descripció de la variabilitat estructural del gen GH1. Han permès descriure el mapa complet per primera vegada, en una població adulta amb talla normal, compresa entre -2 i +2 SDS (n=307).
2. En les poblacions amb retard crònic de creixement (n=728) s'han detectat en un 11% de pacients canvis en la seqüència del gen GH1 diferents dels SNPs del mapa control. Entre els canvis, l'11,3% correspon a canvis puntuals d'un aminoàcid (1% del total de pacients índex).
3. L'expressió de GH1 en leucòcits de controls no és constitutiva ni constant en quant a les variants de splicing observades. Aquesta metodologia no permet detectar de forma fiable mutacions en pacients. En canvi, ens ha permès confirmar l'expressió de mutants com en el cas d'una substitució predictora de canvi d'aminoàcid, així com descartar o confirmar anomalies de splicing en al·lels portadors de canvis intrònics.
4. La utilització d'eines informàtiques ha permès realitzar una aproximació teòrica a l'efecte que dos canvis d'aminoàcid (Phe25Tyr i Val173Leu) a la proteïna GH tenen sobre la seva estructura i interacció amb GHR. L'anàlisi d'homologia de les proteïnes mutants amb les dels altres gens del clúster de la GH ha permès concloure que la substitució Phe25Tyr es pot haver generat per recombinació gènica amb el gen GH2, mentre que no és el cas per a la proteïna amb el canvi Val173Leu.
5. Les proteïnes recombinants obtingudes al laboratori (WT i mutants) han estat aptes per al seu estudi in vitro (inmunoreactivitat, proliferació cel·lular i bioactivitat).
6. Les GHs mutants Phe25Tyr i Val173Leu presenten una inmunoactivitat i una bioactivitat disminuïdes. Els models cel·lulars de les línies HepG2 i C-28/I 2 no han permès obtenir resultats, mentre que el model de cultiu primari de condròcits fetals humans ha permès detectar que les dues GHs mutants estimulen amb menor intensitat la transcripció de IGF1 mentre que provoquen un augment en l'expressió de GHR i IGF1R.
7. El canvi d'aminoàcid Phe25Tyr incorporat en un al·lel de GH1 portat en heterozigosi per dues famílies no relacionades es manifesta com a retard de creixement durant la infantesa que s'acompanya de resposta deficitària de secreció de GH i disminució de IGF1. La resposta al tractament amb GH és adequada i permet recomanar el tractament fins al final del creixement. El canvi Val173Leu detectat en una pacient amb talla baixa i RIUC, sense dèficit aparent de GH, permet suggerir que la detecció precoç de mutacions al gen GH1 quan la secreció aparenta ser normal, permetria un tractament més precoç que hagués millorat el seu pronòstic de talla final. L'anàlisi dels haplotips complets de GH1 permet interpretar l'efecte de la combinació de mutacions a la proteïna amb els genotips per als SNPs.
TITLE OF THE THESIS: "MOLECULAR CARACTERITZATION OF GH1 GENE IN CONTROL AND PATHOLOGIC POPULATIONS, EXPRESSION PATTERNS IN PERIPHERAL BLOOD LEUCOCYTES AND FUNCTIONAL STUDY OF MUTANT
PROTEINS DETECTED IN PATIENTS"
SUMMARY: The growth delay can be a secondary factor in front of a genetic problem in an indeterminate percentage of patients. In this work, it is analyzed the gene of growth hormone (GH1) and it is studied the changes in the sequence that produce an anomalous messenger ARN or a protein that is not functional. The polymorphic map of gene GH1 has been studied in a control population (n=307), to define the map of SNPs. At the same time, a model has been looked for, in which it could be possible to study the expression of this gene. The ARN of leucocytes of peripheral blood of patients and controls has been isolated, and the GH1 messenger has been amplified. Moreover, we have worked in a cellular model that allows us to study the bioactivity of recombinant proteins carrying the changes detected in patients (Phe25Tyr and Val173Leu).
The conclusions of the work have been the following ones:
1. Our results have confirmed and extended the description of the structural variability of gene GH1. They have allowed us to describe the complete map for the first time, in an adult population with normal stature, between -2 and +2 SDS (n=307).
2. In the populations with chronic growth delay (n=728) in an 11% of the patients, changes have been detected in the sequence of gene GH1 different from the SNPs of the map control. Within these changes, 11.3% correspond to precise changes in an amino acid (1% of the total of index patients).
3. The expression of GH1 in leukocytes of controls is neither constitutive nor constant as far as the observed variants of splicing. This methodology does not allow detecting without doubt the mutations in patients. However, it has allowed us to confirm the expression of mutants as in the case of a predicting substitution of change in amino acid, as well as discarding or confirming anomalies of splicing in carrying alleles of intronic changes.
4. The use of computer tools has allowed us to make a theoretical approach to the effect that two changes in amino acid (Phe25Tyr and Val173Leu) in protein GH have on their structure and interaction with GHR. The homology analysis of mutant proteins with those of the other genes of the cluster of the GH has allowed us to conclude that the Phe25Tyr substitution can have been generated by genic recombination with gene GH2, whereas it is not the case for the protein with the Val173Leu change.
5. The recombinant proteins obtained in the laboratory (WT and mutants) have been suitable for their study in vitro (inmunoreactivity, cellular proliferation and bioactivity).
6. The mutant GHs Phe25Tyr and Val173Leu show a diminished inmunoactivity and bioactivity. The cellular models of lines HepG2 and C-28/I2 have not allowed us to obtain results; in contrast, the model of primary culture of human foetal chondrocytes has allowed us to detect that the two mutant GHs stimulate with smaller intensity the IGF1 transcription and they cause an increase in the expression of GHR and IGF1R.
7. The change of Phe25Tyr amino acid incorporated in one allele of GH1 taken to heterozygosity by two non-related families is shown as growth delay during childhood accompanied by deficiency secretion answer of GH and diminution of IGF1. The response to the treatment with GH is suitable and allows us to recommend the treatment until the end of the growth. The Val173Leu change detected in a patient with short stature and RIUC, without apparent GH deficiency, allows us to suggest that precocious detection of mutations in gene GH1 when the secretion pretends to be normal, would allow a precocious treatment that would have improved its prognosis of final stature. The analysis of the complete haplotypes of GH1 allows us to interpret the effect of the combination of mutations in the protein with the genotypes for the SNPs.
Winzell, Anders. "Investigation of genes and proteins involved in xylan biosynthesis." Doctoral thesis, KTH, Glykovetenskap, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-11897.
Full textVedbildning, eller xylogenes, är en grundläggande mekanism för så skilda områden som industri, boende och en hållbar miljö. Ved består av sekundärt xylem som är starka, stora celler med tjocka cellväggar som är lignifierade. Grunden för de starka cellerna är en avancerad komposit bestående av cellulosafibrer tvärbundna av hemicellulosa och slutligen ingjutet i lignin. Denna fiberkomposit är den sekundära cellväggen i vedartade växter. Celldelning och differentiering regleras genom att sätta igång och stänga av gener. Proteiner som kodas av dessa gener utför de viktigaste funktionerna i cellerna. De styr hela maskineriet som upprätthåller cellernas struktur och funktion, underhåller tillväxt samt tillverkar nödvändiga produkter såsom cellväggskolhydraterna. Här beskriver vi utforskningen av gener och proteiner som är inblandade i xylanbildning liksom utvecklandet av ett modellsystem som kommer vara en hjälp i den funktionella analysen av vedbildning. Xylan är den vanligaste hemicellulosan, eller korsbindande glykanen, i lövträd och därför en av de vanligaste kolhydraterna på jorden. Vi demonstrerar att hybridaspcellkulturer i suspension kan användas som ett modellsystem för sekundär cellväggsbildning. Vi har också undersökt glykosyltransferaser från CAZy-familj 43 som tycks spela en viktig roll i bildandet av sekundär cellvägg. Vi har fokuserat på en av dessa, Pt×tGT43A, en trolig ortolog till Arabidopsis IRX9 som spelar en viktig roll i xylanbildning. Proteinet har uttryckts övergående i Nicotiana benthamiana och dess funktion och lokalisering beskrivs. Dessutom undersöker vi ett glykosidhydrolas, Pt×tXyn10A, involverad i vedbildning. Dess roll är oklar men högst sannolikt modifierar det xylan medan det inkorporeras i sekundära cellväggen efter sekretion från Golgi. Detta influerar interaktionen mellan cellulosa, hemicellulosa och lignin i den slutliga vedcellen. Vi har också klonat en transkriptionsfaktor, Pt×tMYB021, en trolig ortolog till Arabidopsis MYB46 och vi visar att den aktiverar GT43A, GT43B och Xyn10A. Genom analys av promotorsekvenserna har vi identifierat ett CA-rikt motiv förmodat viktigt för xylemspecifika gener.Genom att bemästra proteinerna som är ansvariga för vedbildning får vi verktyg att utveckla skogsproduktsmarknaden. Xylan är en ofantligt stor outnyttjad källa till förnyelsebara kolhydrater. En vision är nya produkter som till exempel snabbväxande träd, ändrade fiberegenskaper, optimerat användande av vedkolhydrater för biobränsle och biomaterial såväl som utvecklandet av intelligenta material genom biomimetisk ingenjörskonst.
QC20100730
Such, Sanmartin Gerard. "Assessing human growth hormone variants to determine their potential relevance in anti-doping and clinical analysis." Doctoral thesis, Universitat Pompeu Fabra, 2010. http://hdl.handle.net/10803/7198.
Full textL'hormona de creixement humana (GH) participa en el creixement post-longitudinal i en el metabolisme de lípids i carbohidrats, i comprèn un extraordinari nombre de proteïnes de seqüències similars, generades tant genèticament com posttranslacional, que en alguns casos mostren activitats biològiques clarament diferenciades. Els mètodes actuals emprats per la seva quantificació es basen principalment en una immunodetecció específica de les variants de GH més concentrades en circulació sanguínia. Tanmateix, no resta clar quines variants es reconeixen en cada cas, ni quina és la concentració real d'algunes d'aquestes variants. Possiblement relacionat, els immunoassaigs actualment utilitzats mostren una disparitat de resultats que dificulten la comparació de dades d'assaigs diferents, amb conseqüències directes en el camp clínic. Dins d'un context de dopatge, l'administració il·legal de GH recombinant constitueix un desafiament complex, donat el fet que la variant farmacèutica i la variant de GH nativa de 22 kDa no mostren cap diferència que permeti una detecció directa. No obstant, l'administració del medicament farmacèutic inhibeix la producció natural de la hormona, derivant en canvis entre la concentració relativa d'algunes d'aquestes variants. En aquest cas, és de màxima importància quines variants són detectades, ja que això constitueix la base d'aquest mètode d'antidopatge de GH. Aquí, s'estudia la rellevància d'algunes variants de GH, incloent-hi la seva generació, caracterització, anàlisi via anticossos específics i la seva detecció en mostres biològiques.
Παπαθανασοπούλου, Βασιλική Σ. "Ανίχνευση μεταλλάξεων του γονιδίου της αυξητικής ορμόνης (GH1) σε παιδιά με κοντό ανάστημα." Thesis, 2006. http://nemertes.lis.upatras.gr/jspui/handle/10889/1387.
Full textGrowth can be defined as an increase in size by accretion of tissue. The control of the growth process is affected by many complex interacting factors including internal cues such as the genotype, external factors such as nutrition and environment, and internal signaling systems such as hormones and growth factors. The principal hormones influencing growth are Growth Hormone (GH) and the Insulin-like Growth Factors (IGFs), but many other hormones contribute, such as thyroxine, adrenal androgens, sex steroids, glucocorticoids, vitamin D, leptin and insulin, often channeled through interaction with the GH-IGF axis. GH is secreted from the anterior pituitary into the circulation. The pattern of GH secretion is determined primarily by the interaction between the hypothalamic peptides Growth Hormone Releasing Hormone (GHRH) and somatostatin (SS). Many mutations of the GH1 gene have been described as the cause of short stature in children. The present study examined 11 children with severe short stature, growth velocity below the 2nd centile and delayed bone age. All patients underwent thorough clinical examination and laboratory investigation in order to exclude an underlying chronic disease. Also GH secretion provocative studies, 24 hr endogenous secretion studies and IGF-I generation test were carried out. According to the results of these tests the patients we studied were divided in two groups: 10 of the patients had idiopathic short stature (ISS) and 1 patient had GH neurosecretory dysfunction (GHND). Fibroblast cultures were established from gingival biopsies obtained from the patients and genomic DNA was extracted from peripheral blood leukocytes. GH1 and GH receptor (GHR) genes were amplified by PCR and sequenced. Hot spot mutations were detected in GH1 intron 4 in 6 patients and mutations in introns 1 and 2 were detected in 1 patient. These mutations did not affect the splicing of the primary RNA transcript. A novel deletion of thymine 7 bp downstream from the 3' splice site of intron 4 was found in the patient who had GHND. RT-PCR of GH1 cDNA showed that this mutation causes aberrant GH mRNA splicing, changes the read frame, creates a new stop codon and results in the deletion of exon 5. This was also confirmed by restriction enzyme analysis of the mutant cDNA. Both short parents and the patient are heterozygotes for this mutation. BrDU incorporation in the DNA of normal fibroblast cultures in the presence of the patient’s blood serum showed reduced DNA synthesis compared to fibroblasts cultured in medium with normal human serum. Addition of high concentrations of GH (4 μg/ml) to the culture medium containing the patient’s serum led to a near normal DNA synthesis. This is a new case of familial short stature inherited as a dominant trait, due to a mutation in intron 4 of the GH1 gene.
Mahanta, Pranjal. "Crystal Structure Analysis of a (B/a)8-TIM Barrel Enzyme and Its Mutants : Insights into the Role of Interactions Between Termini in Influencing Protein Stability. Experimental and Computational Study of Protein-Surface-Pockets Occluded by Tryptophan Side-Chains." Thesis, 2015. http://etd.iisc.ac.in/handle/2005/4082.
Full textΓιαννακοπούλου, Ιωάννα. "Ο ρόλος του GH1 γονιδίου της αυξητικής ορμόνης και του υποκινητή του σε παιδιά με οικογενή μεμονωμένη ανεπάρκεια της αυξητικής ορμόνης." Thesis, 2014. http://hdl.handle.net/10889/7791.
Full textGrowth hormone (GH) plays a pivotal role in a number of physiological processes by promoting postnatal longitudinal body growth, lipid and carbohydrate metabolism, protein biosynthesis and activation of the immune system. GH deficiency (GHD) is diagnosed either by subnormal levels of serum GH during two hGH stimulation tests by pharmacological agents that physiologically stimulate GH secretion (classic form of GHD), or normal serum GH levels, but subnormal 24hr GH profile (Neurosecretory GH deficiency, GHND). Children with GHD and GHND have severe growth retardation and respond to exogenous human GH (hGH) therapy with significant catch-up growth. Short stature associated with isolated GH deficiency (GHD) is both sporadic and idiopathic, but between 5 and 30% have an affected first degree relative consistent with a genetic etiology. Mutations identified on the GH gene (GH1) associate with the manifestation of familial isolated GH deficiency (IGHD). The proximal promoter region of GH1 exerts a highly polymorphic region, with at least 16 single nucleotide polymorphisms (SNPs) identified over a region of 535bp, manifested by a total of 40 haplotypes, some of which affect the GH1 expression. The aim of this study was to identify possible changes in the sequence of the GH1 gene of growth hormone (GH) and its promoter region in patients with familial isolated GH deficiency (IGHD), together with the analysis of the inheritance pattern of such genetic changes. 33 IGHD patients (29 GHD and 4 GHND), their 1st degree relatives (22 families) and 31 controls were investigated. Genomic DNA was extracted from the lymphocytes of the subjects peripheral blood and the GH1 gene was amplified by the Polymerase Chain Reaction (PCR). The samples were sequenced and the changes were identified according to the sequence M28466.1 of the NCBI blast database. The levels of IGF-1 and other hormones of the pituitary were measured in the patients and the highest level of GH during the clonidine and L-Dopa hGH stimulation test were recorded, whereas in the 4 GHND patients a spontaneous 24hr GH profile was conducted. The sequencing results were analyzed for the frequencies of the genotypes of the identified SNPs and for any possible correlations with the clinical or biochemical characteristics of the patients and the controls. Additionally, the possible functional role of the found mutations was assessed using specific programs. The sequencing of GH1 and its promoter revealed 18 SNPs in the whole sample and 3 novel mutations in 3 of the 22 investigated families. Analysis with MatInspector of the 2 heterozygous nucleotide mutations located at the promoter regions -485GC and -400GA, respectively, revealed a binding sequence for the transcription factor E-twenty six-1 (ETS-1). Analysis of the third heterozygous mutation (GA) at the +300 region of intron 1 with ESEfinder3 και ASSP revealed a cryptic splicing position and disruption of the exon splicing enhancement (ESE) region by reducing the binding affinity of serine-arginine proteins (SRs). The frequency and correlation analysis showed that the GHD patients possible exert differential transcriptional activity at the GH1 gene via the SNPs at positions -278, -57 of the promoter, -6 of 5΄ UTR region, +1169 of intron 4, which is in accordance to previous studies, and also the newly reported SNP at -31 region. These SNPs associated also with decreased IGF-1 levels. On the other hand, the SNPs identified in the GHND patients, although similar to the GHD patients, correlated with several growth parameters, irrespective to the IGF-1 levels. The 18 SNPs and 3 mutations identified in the sample seem to contribute partially and individually or in synergy to the transcriptional regulation of GH1 in the GHD and GHND patients. The SNPs contribution is differentially exerted in the GHD patients, when compared to the GHND patients and this possibly reflects the different expression of the disease. The investigation of phenotypic variance in IGHD patients and their genetic predisposition can potentially improve our perception of the underlying mechanisms of growth and offer valuable information for the better therapeutic management of IGHD patients.
Chiang, Li-Chia, and 姜力嘉. "Studies on the polymorphisms of mitochondrial DNA D-loop, protein coding genes, and genomic DNA of GH1, MB genes in ostriches." Thesis, 2009. http://ndltd.ncl.edu.tw/handle/34843567971130509771.
Full text國立中興大學
動物科學系所
97
The study is divided into two parts. In trial 1, the polymorphisms of mtDNA D-loop and 13 protein codens in ostrich were analyzed. Investigating the polymorphisms in GH1 and MB gene, the aim of trial 2 was to combine these mutations with traits. Initially, SSCP analysis was performed to sieve out different patterns from samples. The individuals with different SSCP patterns were selected to detect and characterize gene polymorphisms by comparative sequencing. The results showed that 16 kinds of constitution from 15 SNPs in ostrich D-loop, definded into 3 clades in phylogenetic tree were drawn by MEGA 4. Sixtysix SNPs were found in all protein codons, incoulding 60 synonymous substitutions and 6 synonymous substitutions were presented at osthich mtDNA. The ATPase8 was considered as the highest conserved region with no polymorphism. The highest diversity in 13 proteins coding regions, NDVI, found 15 SNPs. In trial 2, there is no different patterns were found in GH1 gene, but two G to A mutations were found in MB gene. Geneotyping by minisequencing were showed frequencies of MB1 mutation in 85nt, GG, GA and AA, were evaluated as 0.273, 0.576, and 0.151 respectively. The allelic frequencies of G and A, were 0.561 and 0.439 between populations. The geneotype frequencies of MB2 mutation in 85nt, GG, GA and AA, were evaluated as 0.561, 0.515, and 0.1 respectively. The allelic frequencies of G and A, were 0.591 and 0.409 in MB1. The G85A at MB1 have siganificant difference(P<0.05)on average daily gain(ADG). We proposed GA genotype was better choice for ostrich breeding.