Mapeamento dos subsítios de α-amilase de Xanthomonas axonopodis pv citri envolvidos na interação com o substrato / Subsite mapping of Xanthomonas axonopodis pv citri α-amylase involved in substrate binding

Pinho, Jean Marcel Rodrigues

20 December 2004

Mapeamento dos subsítios de α-amilase de Xanthomonas axonopodis pv. Citri envolvidos na interação com o substrato A família das enzimas α-amilases é um modelo experimental interessante para o estudo das interações entre os aminoácidos e seus ligantes, já que estas enzimas apresentam especificidade variável, são frequentemente alvos de estudos por mutagênese e há estruturas cristalinas disponíveis para alguns membros da família. A proposta deste trabalho foi o mapear subsítios da α-amilase de Xanthomonas axonopodis pv. citri (AXA) envolvidos na interação com substratos, através de comparações estruturais, mutagêneses sítio-dirigidas, análises de parâmetros cinéticos sobre amido e do padrão de clivagem sobre p-nitrofenil malto-oligossacarideos (PNPG7, PNPG5, PNPG4). Foi criado um modelo estrutural para AXA a partir da estrutura tridimensional da α-amilase de Alteromonas haloplanctis (Aghajari et al., 1998). O modelo de AXA foi sobreposto na estrutura da α-amilase pancreática de porco (Qian et al., 1994) e 11 resíduos foram selecionados e mutados para alanina. As α-amilases recombinantes mutantes e selvagem foram secretadas pela levedura Pichia pastoris GS115, apresentando uma massa molecular aparente de 45 kDa. Todos os mutantes analisados reduziram em maior ou menor grau a atividade catalítica da enzima sobre amido e p-nitrofenil maltooligossacarideos. Mutações dos resíduos H88, F136, D196, E223, D295 e N299, deletaram a atividade enzimática, indicando que suas cadeias laterais são essenciais para o desempenho catalítico da enzima. As análises cinéticas e estruturais sugerem fortemente que D196, E223 e D295 são os resíduos catalíticos. Substituições das cadeias laterais de C157, H200, G227, T230 e H294 reduziram a eficiência catalítica (kcat/Km) da α-amilase sobre o substrato amido para, respectivamente, 28%, 41%, 84%, 81% e 51%. As mutações em G227 e T230 foram menos importantes para a atividade da enzima e afinidade pelo amido, entretanto, estes resíduos mostraram-se importantes para a estabilização de complexos com substratos curtos (pNPG4). Os resultados indicam que o sítio ativo de AXA é formado por, no mínimo, seis subsítios. As interações dos anéis de glicose com os subsítios +2 e -2 são favorecidas em relação às interações nos subsítios -3 e +3, respectivamente, e a interação do anel de glicose no subsítio -3 é favorecida em relação à interação no subsítio +3. A enzima selvagem diva preferencialmente a terceira ligação glicosídica de p-nitrofenil maltooligossacarideos. Como produtos de hidrólise a enzima libera maltopentaose, maltotetraose, maltotriose, maltose e glicose. / The α-amylase family is an interesting group for structure/function relationship investigation, as this family exhibits a variable deavage patterm, several crystal structures are available, and its members were studied by mutagenesis. The aim of this study was the mapping of Xanthomonas axonopodis pv. Citri α-amylase (AXA) subsites involved in substrate binding, using structural comparison, site-directed mutagenesis and lcinetics analyses. A structural model for AXA was created from the three-dimensional structure of the α-amylase from Alteromonas haloplanctis (Aghajari et al., 1998). This model was superimposed on the structure ofthe pig pancreatic α-amylase, PPA (Qian et. al., 1994), and 11 residues were selected and changed to alanine. Wild type and mutant AXA were secreted by Pichia pastoris strain GS115 cells and showed apparent molecular mass of 45 kDa. All mutants have reduced α-amylase activity on starch and 4-nitrophenyl maltooligosaccharides (pNPG7, PNPG5 and PNPG4) at different levels. Mutation of residues H88, F136, D196, E223, D295 and N299 indicate their essential role by complete loss of activity. Kinetic and structural analyses strongly suggested that D196, E223 and D295 are the catalytic residues. The substitution of the side chain of C157, H200, G227, T230 and H294 reduced the catalytic efficiency (kcat/Km) of α-amylase on starch to respectively 28%, 41%, 84%, 81% and 51%. Although G227 and T230 were not much important for activity and binding on starch, these residues were important for stabilization of complexes with short substrates (PNPG4). The results indicate that AXA\'s active site is composed of at least six sugar binding subsites. The binding of the glucoses at subsites +2 and -2 are favored against binding at subsites -3 and +3, respectively. The binding of glucose at subsite -3 is favored against binding at subsite +3. The wild type enzyme primarily hydrolyzes the third glucosidic bond in PNPG7, PNPG5 and PNPG4 and the products of hydrolysis were maltopentaose, maltotetraose, maltotriose, maltose and glucose.

Alfa-amilase recombinante

Alfa-amilase: padrão de clivagem

Alfa-amilase: parâmetros cinéticos

Alpha-amylase: cleavage pattern

Alpha-amylase: Kinetic parameters

Biologia molecular

Dados de sequência molecular

Enzimologia

Enzymology

Modelagem Molecular

Molecular biology

Molecular modeling

Molecular sequence data

Mutagênese sítio-dirigida

Recombinant alpha-amylase

Site-directed mutagenesis

Xanthomonas (Estudo)

Xanthomonas (Study)

Mapeamento dos subsítios de α-amilase de Xanthomonas axonopodis pv citri envolvidos na interação com o substrato / Subsite mapping of Xanthomonas axonopodis pv citri α-amylase involved in substrate binding

Jean Marcel Rodrigues Pinho

20 December 2004

Mapeamento dos subsítios de α-amilase de Xanthomonas axonopodis pv. Citri envolvidos na interação com o substrato A família das enzimas α-amilases é um modelo experimental interessante para o estudo das interações entre os aminoácidos e seus ligantes, já que estas enzimas apresentam especificidade variável, são frequentemente alvos de estudos por mutagênese e há estruturas cristalinas disponíveis para alguns membros da família. A proposta deste trabalho foi o mapear subsítios da α-amilase de Xanthomonas axonopodis pv. citri (AXA) envolvidos na interação com substratos, através de comparações estruturais, mutagêneses sítio-dirigidas, análises de parâmetros cinéticos sobre amido e do padrão de clivagem sobre p-nitrofenil malto-oligossacarideos (PNPG7, PNPG5, PNPG4). Foi criado um modelo estrutural para AXA a partir da estrutura tridimensional da α-amilase de Alteromonas haloplanctis (Aghajari et al., 1998). O modelo de AXA foi sobreposto na estrutura da α-amilase pancreática de porco (Qian et al., 1994) e 11 resíduos foram selecionados e mutados para alanina. As α-amilases recombinantes mutantes e selvagem foram secretadas pela levedura Pichia pastoris GS115, apresentando uma massa molecular aparente de 45 kDa. Todos os mutantes analisados reduziram em maior ou menor grau a atividade catalítica da enzima sobre amido e p-nitrofenil maltooligossacarideos. Mutações dos resíduos H88, F136, D196, E223, D295 e N299, deletaram a atividade enzimática, indicando que suas cadeias laterais são essenciais para o desempenho catalítico da enzima. As análises cinéticas e estruturais sugerem fortemente que D196, E223 e D295 são os resíduos catalíticos. Substituições das cadeias laterais de C157, H200, G227, T230 e H294 reduziram a eficiência catalítica (kcat/Km) da α-amilase sobre o substrato amido para, respectivamente, 28%, 41%, 84%, 81% e 51%. As mutações em G227 e T230 foram menos importantes para a atividade da enzima e afinidade pelo amido, entretanto, estes resíduos mostraram-se importantes para a estabilização de complexos com substratos curtos (pNPG4). Os resultados indicam que o sítio ativo de AXA é formado por, no mínimo, seis subsítios. As interações dos anéis de glicose com os subsítios +2 e -2 são favorecidas em relação às interações nos subsítios -3 e +3, respectivamente, e a interação do anel de glicose no subsítio -3 é favorecida em relação à interação no subsítio +3. A enzima selvagem diva preferencialmente a terceira ligação glicosídica de p-nitrofenil maltooligossacarideos. Como produtos de hidrólise a enzima libera maltopentaose, maltotetraose, maltotriose, maltose e glicose. / The α-amylase family is an interesting group for structure/function relationship investigation, as this family exhibits a variable deavage patterm, several crystal structures are available, and its members were studied by mutagenesis. The aim of this study was the mapping of Xanthomonas axonopodis pv. Citri α-amylase (AXA) subsites involved in substrate binding, using structural comparison, site-directed mutagenesis and lcinetics analyses. A structural model for AXA was created from the three-dimensional structure of the α-amylase from Alteromonas haloplanctis (Aghajari et al., 1998). This model was superimposed on the structure ofthe pig pancreatic α-amylase, PPA (Qian et. al., 1994), and 11 residues were selected and changed to alanine. Wild type and mutant AXA were secreted by Pichia pastoris strain GS115 cells and showed apparent molecular mass of 45 kDa. All mutants have reduced α-amylase activity on starch and 4-nitrophenyl maltooligosaccharides (pNPG7, PNPG5 and PNPG4) at different levels. Mutation of residues H88, F136, D196, E223, D295 and N299 indicate their essential role by complete loss of activity. Kinetic and structural analyses strongly suggested that D196, E223 and D295 are the catalytic residues. The substitution of the side chain of C157, H200, G227, T230 and H294 reduced the catalytic efficiency (kcat/Km) of α-amylase on starch to respectively 28%, 41%, 84%, 81% and 51%. Although G227 and T230 were not much important for activity and binding on starch, these residues were important for stabilization of complexes with short substrates (PNPG4). The results indicate that AXA\'s active site is composed of at least six sugar binding subsites. The binding of the glucoses at subsites +2 and -2 are favored against binding at subsites -3 and +3, respectively. The binding of glucose at subsite -3 is favored against binding at subsite +3. The wild type enzyme primarily hydrolyzes the third glucosidic bond in PNPG7, PNPG5 and PNPG4 and the products of hydrolysis were maltopentaose, maltotetraose, maltotriose, maltose and glucose.

Alfa-amilase recombinante

Alfa-amilase: padrão de clivagem

Alfa-amilase: parâmetros cinéticos

Biologia molecular

Dados de sequência molecular

Enzimologia

Modelagem Molecular

Mutagênese sítio-dirigida

Xanthomonas (Estudo)

Alpha-amylase: cleavage pattern

Alpha-amylase: Kinetic parameters

Enzymology

Molecular biology

Molecular modeling

Molecular sequence data

Recombinant alpha-amylase

Site-directed mutagenesis

Xanthomonas (Study)

Experimental investigation and numerical simulation of thermal debinding and sintering processes in powder injection moulding. / Expérimentation et simulation numérique du déliantage thermique et de la densification des composants obtenus par moulage par injection de poudres.

Mamen, Belgacem

10 December 2013

L'étape de déliantage est une étape importante et parfois critique pour le procédé Moulage par Injection des Poudres. A cet effet, des analyses thermogravimétriques (TGA) ont été réalisées pour bien comprendre les mécanismes du déliantage thermique sous atmosphère imposée (Argon). Les méthodes de Kissinger et Ozawa ont été utilisées, en se basant sur les résultats des analyses thermogravimétriques, afin d’estimer les paramètres cinétiques nécessaires pour la simulation numérique, notre modèle se propose de décrire les phénomènes physiques liés à la dégradation du polymère, le transfert de chaleur de la déformation du composant pendant le déliantage thermique.La deuxième partie de la thèse est dédiée à la compréhension des mécanismes et du comportement du fritage des composants en tungstène sous une atmosphère d’hydrogène jusqu’à une température de 1 700°C. Des appareils expérimentaux, ont été mis en place afin de constituer une base de données physiques nécessaire pour l’identification des différents paramètres. L’identification de l’ensemble des lois de comportement a été réalisée en prenant en compte les spécificités physiques des poudres utilisées. Un modèle de comportement de type thermo élasto-viscoplastique est formulé pour représenter la loi de densification par diffusion solide, puis appliqué pour les différentes tailles de poudres de tungstène. La dernière étape consiste à valider des simulations numériques avec ABAQUS pour une meilleure détermination des densités et des retraits finaux des composants injectés. / Thermal debinding is one of the most important steps In Powder Injection Moulding process. Thermogravimetric analyses (TGA) are employed to analyze the physics and kinetics of thermal debinding behaviour under argon atmosphere. The Kissinger and Ozawa method have been used to estimate the kinetic parameters from thermogravimetric experiments. To set up the numerical simulations of thermal debinding stage using finite element method, a coupled mathematical has been developed. The basic steps of the proposed model consist to solve the following sequences of coupled problems: themal degradation of binder coupled with heat transfer and deformation phenomena by finite element method using Comsol Multiphysics software.In the second part of this thesis, sintering behaviour of tungsten powders injection moulded component, under pure hydrogen atmosphere at temperature up to 1700°C. The experimental tests are used to determine the material parameters in the parameters in the viscoplastic constitutive law, which is incorporated with the identified parameters in order to simulate the final shrinkages and densities of tungsten injection moulded components during the sintering process. Comparison between the numerical simulations results and experimental ones, in term of shrinkages and sintered densities, shows a good agreement.

Moulage par inection de poudre

Déliantage thermique

Paramètre cinétiques

Milieu poreux

Distribution du polymère

Densification par diffusion solide

Viscoplastique

Méthode éléments finis

Powder injection moulding

Thermal debinding

Kinetic parameters

Porous media

Binder cistribution

Sintering by solid state diffusion

Viscoplastic

Finite element method

679

COMBUSTION CHARACTERISTICS OF ADDITIVELY MANUFACTURED GUN PROPELLANTS

Aaron Afriat (10732359)

05 May 2021

<p>Additive manufacturing of gun propellants is an emerging and promising field which addresses the limitations of conventional manufacturing techniques. Gun propellants are manufactured using wetted extrusion, which uses volatile solvents and dies of limited and constant geometries. On the other hand, additive techniques are faced with the challenges of maintaining the gun propellant’s energetic content as well as its structural integrity during high pressure combustion. The work presented in this thesis demonstrates the feasibility of producing functioning gun propellant grains using vibration-assisted 3D printing, a novel method which has been shown to extrude extremely viscous materials such as clays and propellant pastes. At first, the technique is compared to screw-driven additive methods which have been used in printing gun propellant pastes with slightly lower energetic content. In chapter two, diethylene glycol dinitrate (DEGDN), a highly energetic plasticizer, was investigated due to its potential to replace nitroglycerin in double base propellants with high nitroglycerin content. A novel isoconversional method was applied to analyze its decomposition kinetics. The ignition and lifetime values of diethylene glycol dinitrate were obtained using the new isoconversional method, in order to assess the safety of using the plasticizer in a modified double base propellant. In chapter three, a modified double base propellant (M8D) containing DEGDN was additively manufactured using VAP. The printed strands had little to no porosity, and their density was nearly equal to the theoretical maximum density of the mixture. The strands were burned at high pressures in a Crawford bomb and the burning was visualized using high speed cameras. The burning rate equation as a function of the M8D propellant as a function of pressure was obtained. Overall, this work shows that VAP is capable of printing highly energetic gun propellants with low solvent content, low porosity, with high printing speeds, and which have consistent burning characteristics at high pressures. </p>

Condensed Matter Physics

Thermodynamics

Aerospace Materials

Chemical Thermodynamics and Energetics

Reaction Kinetics and Dynamics

Additive Manufacturing

additive manufacturing

gun propellants

combusion

burning rate

porosity evolution

isoconversional methods

diethylene glycol dinitrate

DEGDN

Double base propellant

vibration assisted printing

Kinetic Parameters Estimation

Ballistic performance

rocket performance