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31	Structure d'une tagatose-1,6-bisphosphate aldolase de classe I : étude d'une apparente perte de stéréospécificité LowKam, Clotilde 10 1900 (has links) La tagatose-1,6-biphosphate aldolase de Streptococcus pyogenes est une aldolase de classe I qui fait montre d'un remarquable manque de spécificité vis à vis de ses substrats. En effet, elle catalyse le clivage réversible du tagatose-1,6-biphosphate (TBP), mais également du fructose-1,6-biphosphate (FBP), du sorbose-1,6-biphosphate et du psicose-1,6-biphosphate, quatre stéréoisomères, en dihydroxyacétone phosphate (DHAP) et en glycéraldéhyde-3-phosphate (G3P). Afin de mettre à jour les caractéristiques du mécanisme enzymatique, une étude structurale de la TBP aldolase de S. pyogenes, un pathogène humain extrêmement versatile, a été entreprise. Elle a permis la résolution de la structure native et en complexe avec le DHAP, a respectivement 1.87 et 1.92 Å de résolution. Ces mêmes structures ont permis de se représenter plus clairement le site actif de l'enzyme en général, et les résidus catalytiques en particulier. Le trempage des cristaux de TBP aldolase dans une solution saturante de DHAP a en outre permis de piéger un authentique intermédiaire iminium, ainsi que sa géométrie particulière en atteste. Des expériences d'échange de proton, entreprises afin d'évaluer le stéréoisomérisme du transfert de proton catalytique, ont également permis de faire une intéressante découverte : la TBP aldolase ne peut déprotoner le coté pro-R du C3 du DHAP, mais peut le protonner. Ce résultat, ainsi que la comparaison de la structure du complexe TBP aldolase-DHAP avec la structure du complexe FBP aldolase de muscle de lapin- DHAP, pointe vers un isomérisme cis-trans autour du lien C2-C3 de la base de Schiff formée avec le DHAP. De plus, la résolution de ces deux structures a permis de mettre en évidence trois régions très mobiles de la protéine, ce qui pourrait être relié au rôle postulé de son isozyme chez S. pyogenes dans la régulation de l’expression génétique et de la virulence de la bactérie. La cristallographie par rayons X et la cinétique enzymatique ont ainsi permis d'avancer dans l'élucidation du mécanisme et des propriétés structurales de cette enzyme aux caractéristiques particulières. / Tagatose-1,6-biphosphate aldolase from Streptococcus pyogenes is a class I aldolase that shows a lack of stereospecificity that is rare in enzymes in general, and in aldolases in particular. This aldolase catalyzes the reversible cleavage of tagatose-1,6-biphosphate (TBP), fructose-1,6-biphosphate (FBP), sorbose-1,6-biphosphate and psicose-1,6-biphosphate, four stereoisomers, in dihydroxyacetone phosphate and glyceraldehyde-3-phosphate (DHAP). In order to understand its mechanism, a structural study of TBP aldolase from S. pyogenes, one of the most versatile and virulent human pathogen, was initiated and high resolution crystallographic structures of native and DHAP-liganded TBP aldolase were solved. These structures allowed us to gain informations regarding active site residues implicated in catalysis and that give rise to the apparent lack of specificity. Soaking of TBP aldolase crystals in saturating DHAP solution specifically trapped the iminium intermediate, as demonstrated by its geometry. Furthermore, proton transfer studies uncovered an interesting phenomenon: TBP aldolase from S. pyogenes is unable to detritiate pro-R labelled hydrogen position at C3 of DHAP, yet it is able to tritiate both the pro-R and the pro-S position. These results, taken together with the superposition of the DHAP-TBP aldolase with the DHAP-FBP aldolase from rabbit muscle, suggest a cis-trans isomerism about the Schiff base C2-C3 bond. The resolution of both the native and the liganded structure also proved useful in identifying three very mobile regions in the protein. This trend could be linked to the putative metabolic sensor and genetic expression regulator role of LacD.1 in S. pyogenes. X-rays crystallography and traditional enzymatic kinetics allowed us to gain insights into the catalytic mechanism and others structural properties of this important metabolic enzyme. enzymologie crystallographie aldolase classe I stéréospécificité isomérisme Streptococcus pyogenes enzymology crystallography class I aldolase stereospecificity isomerism Streptococcus pyogenes
32	Synthèse d'aminocyclitols, inhibiteurs potentiels de glycosidases lysosomales, via des aldolases / Synthesis of aminocyclitols, potential inhibitors of lysosomal glycosidases, via aldolases Camps Bres, Flora 25 November 2010 (has links) Les glycosidases sont des enzymes impliquées dans de nombreux processus biologiques. Entre autres, elles sont responsables de la dégradation des déchets polysaccharidiques de nos cellules. Lorsqu’une modification génétique touche un gène qui code pour une de ces enzymes, des pathologies graves regroupées sous l’appellation de « maladies lysosomales » peuvent être déclenchées. L'objectif de ce projet a été de proposer une méthode de synthèse efficace de molécules potentiellement actives spécifiquement sur l'une ou l'autre de ces maladies. Les molécules ciblées sont des inhibiteurs de glycosidases de la famille des aminocyclitols, utilisés dans une stratégie thérapeutique émergente « par molécules chaperonnes ». La méthode de synthèse développée s’appuie sur une étape enzymatique clé utilisant les aldolases comme catalyseurs et répondant aux contraintes environnementales actuelles de la chimie verte. Nous avons atteint nos objectifs grâce à l’utilisation de trois aldolases différentes, produites et purifiées pour la première fois au sein de notre laboratoire. Il s’agit de la fuculose-1-phosphate aldolase F1PA, de la rhamnulose-1-phosphate aldolase R1PA et de la nouvellement découverte fructose-6-phosphate aldolase FSA. La formation d’une quarantaine de nitrocyclitols, de stéréochimies définies, précurseurs des aminocyclitols correspondant, a ainsi été réalisée avec de très bons rendements de synthèse. / Glycosidases are enzymes involved in many biological processes. For example, they are responsible for breaking up polysaccharide waste materials of our cells. When a genetic mutation concerns a gene encoding for one of theses enzymes, acute pathologies named lysosomal storage disorders can appear. Aim of this work was to find an effective synthesis method of molecules potentially active specifically on one or others diseases. Target molecules are glycosidases inhibitors from the aminocyclitols family, used in an emergent strategy “by molecular chaperones”. The method of synthesis developed in the course of this work is based on an enzymatic key step using aldolases as catalyst, and follows current environment constraints of the green chemistry concept. Goals were reached thanks to the use of three different aldolases, produced and purified for the first time in our lab. It consists in fuculose-1-phosphate aldolase F1PA, rhamnulose-1-phosphate aldolase R1PA and the newly discovered fructose-6-phosphate aldolase FSA. Formation of around forty nitrocyclitols (aminocyclitols precursors) with a defined stereochemistry was realised with very good yields of synthesis. Maladie lysosomale Molécule chaperonne Inhibiteur de glycosidases Aminocyclitol Nitrocyclitol Synthèse chimioenzymatique Aldolase Lysosomal storage disorder Molecular chaperone Glycosidases inhibitor Aminocyclitol Nitrocyclitol Chemoenzymatic synthesis Aldolase
33	Transforming Dihydroxyacetone Phosphate-Dependent Aldolases Mediated Aldol Reactions From Flask Reaction Into Cell-Based Synthesis & Studying The Mechanism Of Chemical Desialylation In The Life Processes Wei, Mohui 09 May 2016 (has links) Dihydroxyacetone phosphate (DHAP)-dependent aldolases have been intensively studied and widely used in the synthesis of carbohydrates and complex polyhydroxylated molecules. However, the strict specificity toward donor substrate DHAP greatly hampers their synthetic utility. We transformed DHAP dependent aldolases mediated in vitro reactions into bioengineered Escherichia coli (E. coli). Such flask-to-cell transformation addressed several key issues plaguing in vitro enzymatic synthesis: 1) it solves the problem of DHAP availability by in vivo hijacking DHAP from glycolysis pathway of bacterial system, 2) it circumvents purification of recombinant aldolases and phosphatase, and 3) it dephosphorylates resultant aldol adducts in vivo, thus eliminating the additional step for phosphate removal and achieving in vivo phosphate recycling. The engineered E. coli strains tolerate a wide variety of aldehydes as acceptor, and provide a set of biologically relevant polyhydroxylated molecules in gram scale. Sialic acids exist in abundance in glycan chains of glycoproteins and glycolipids on the surface of all eukaryotic cells and some prokaryotic cells. Their presence affects the molecular properties and structure of glycoconjugates, modifies their functions and interactions with other molecules. The sialylation status, referring to the expression levels and linkages of sialic acids on the cell surface, is determined by the dynamic balance between sialylation and desialylation (removal of sialic acids). Sialylation is mainly regulated through expression and activity of sialyltransferases. And the mainstream idea attributes desialylation to the sialidases. However, more and more emerging evidences support the existence of ROS/RNS mediated chemical desialylation process under some pathological conditions. We used electrochemical oxidation of sialic acid conjugates to mimic ROS mediated chemical desialylation. Such electrochemical desialylation mimicry reveals that 1) β-linked sialic acid is much more difficult to de desialylated than α-linked sialic acid, 2) electron withdrawing residue and bulky underlying residue can facilitate the desialylation, 3) α- 2,3-linked sialic acid is easier to be desialylated than α-2,6- and α-2,8-linked sialic acid. This information is highly valuable for identifying the ROS species participated in ROS mediated desialylation and unveiling corresponding mechanisms. The mechanism of ROS mediated desialylation was proposed to go through radical decarboxylation. DHAP-dependent aldolase Metabolic engineering E. coli synthetic machinery Electrochemical desialylation Desialylation mechanism
34	In vitro studies of the enzymes involved in fluorometabolite biosynthesis in Streptomyces cattleya Cross, Stuart M. January 2009 (has links) Enzymatic fluorination of natural products is extremely rare. Of the 4000 halogenated natural products identified, only 13 possess a fluorine atom. The C-F bond forming enzyme from the soil bacterium, Streptomyces cattleya, remains the only native enzyme to be identified that is capable of such biochemistry. It generates 5’-fluoro-5-deoxyadenosine (5‘-FDA) from S-adenosyl-L-methionine (SAM) and F-. The “fluorinase” is the first committed step toward the biosynthesis of the two fluorometabolites, 4-fluorothreonine and fluoroacetate, via the common intermediate, fluoroacetaldehyde (FAld). The enzymatic steps responsible for the conversion of 5’-FDA to the fluorometabolites remained to be fully characterised when this project began. Previously, a purine nucleoside phosphorylase was identified that was capable of generating 5-fluorodeoxyribose-1-phosphate (5-FDRP) from 5’-FDA. 5-FDRP is subsequently isomerised to 5-fluorodeoxyribulose-1-phosphate (5-FDRulP) by an aldose-ketose isomerase enzyme. Chapter 2 describes the identification of the isomerase gene from the genomic DNA of S. cattleya and the corresponding protein product was capable of generating 5-FDRulP from 5-FDRP. The next intermediate, FAld, is generated from 5-FDRulP by a fuculose aldolase. Attempts to identify the aldolase gene from S. cattleya were unsuccessful, however a putative fuculose aldolase from Streptomyces coelicolor was isolated that could generate FAld from 5-FDRulP, which is described in Chapter 3. Following the identification and over expression of a PLP-dependant transaldolase, which generates 4-fluorothreonine (4-FT) from FAld and L-threonine in S. cattleya, Chapter 4 details the successful in vitro reconstitution of fluorometabolite biosynthesis using five over- expressed enzymes. In Chapter 5, attempts to develop a novel assay for fluorinase activity was explored. The colorimetric detection of L-methionine produced by the fluorinase in a coupled L-amino acid oxidase and horseradish peroxidase assay, leading to the oxidation of a dye substance. This was carried out with interest in developing a high-throughput assay for fluorinase mutants, generated by random mutagenesis, in order to identify those with increased activity. In the event, it proved unsuccessful. 547.02
35	Studies on antimicrobial activity of arginine-based surfactants and chemo- enzymatic synthesis of novel amphiphiles based on L-arginine and D-fagomine Castillo Expósito, José Antonio 02 February 2007 (has links) Los conjugados de lípidos y aminoácidos presentan excelentes propiedades tensioactivas, alta biodegradabilidad y baja toxicidad. De entre ellos, los derivados de arginina poseen un amplio espectro de actividad antimicrobiana.Con el objetivo de elucidar el modo de acción de los tensioactivos derivados de arginina, se ha investigado su interacción con modelos de membrana (liposomas y monocapas de fosfolípidos) y se ha evaluado los efectos que causan en Staphylococcus aureus y Escherichia coli. La eficacia antimicrobiana de los tensioactivos derivados de L-arginina previamente sintetizados en nuestro grupo de investigación se ha mejorado. Para ello, se ha preparado quimo-enzimáticamente una nueva familia de derivados de L-arginina, bis(fenilacetilargininas). Finalmente y con el propósito de preparar nuevos posibles agentes antimicrobianos, se ha sintetizado una familia de compuestos anfifílicos, derivados alquilados de D-fagomina, empleando fructosa-6-fosfato aldolasa (FSA) como biocatalizador. / Amino acid lipid conjugates possess excellent surface properties, high biodegradability and low toxicity. Among them, arginine-based surfactants show a broad antimicrobial activity.The mode of action of arginine-based surfactants was investigated. Thus, their interaction with membrane models (liposomes and phospholipid monolayers) and the effects caused on Staphylococcus aureus and Escherichia coli were studiedThe antimicrobial efficacy of the arginine-based surfactants synthesised previously in our research group was improved. To this end, novel bis(phenylacetylarginine) derivatives were prepared chemoenzymatically.Finally and with the aim of preparing novel antimicrobial agents, we prepared a new family of amphiphilic compounds, N-alkylated derivatives of D-fagomine, using fructose-6-phosphaste aldolase (FSA) as biocatalyst. Arginine-based surfactants Antimicrobial activity Fructose 6-phosphate aldolase Ciències Experimentals 547
36	Enzymatic C-C bond formation using thiamine diphosphate dependent enzymes in a solid gas bioreactor / Mikolajek, Renaud. January 2008 (has links) Zugl.: Aachen, Techn. Hochsch., Diss., 2008.
37	The influence of genetic manipulation of cytosolic aldolase (ALDc) on respiration in sugarcane Scheepers, Ilana 03 1900 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2005. / Previous studies indicated that cytosolic aldolase (ALDc) could be a rate limiting step in glycolysis and thus play a role in the regulation of carbon partitioning in sink tissues. In this study the role of ALDc in sugarcane was studied. Expression patterns of both ALDc transcript and protein were examined. In contrast to the leaves where ALDc expression is very low, the enzyme (transcript and protein) levels were high in all internodal tissues at all stages of maturity. In the leaves the plastidic isoform was prevalent as found previously in other C4 plants. The similar pattern of expression in transcript and protein abundance illustrate that there are no activators or inhibitors of ALDc activity present in sugarcane. The control on ALDc activity in sugarcane is therefore regulation of gene expression. To investigate the possibility that ALDc could be regulating carbon partitioning in sugarcane a series of transgenic sugarcane plants in the varieties NCo310 and N19 were produced. The presence and expression of the transgene and resultant effect on ALDc levels were determined for all the transgenic lines. The degree of ALDc reduction varied, with the biggest suppression of aldolase being 90% of that of the control plants. Alteration of ALDc activity caused no obvious phenotype. In both the varieties large decreases in ALDc tended to to lead to higher sucrose levels than that of the the control plants. 14C radiolabelling studies were conducted to investigate the effect of reduced ALDc levels on respiration and carbon partitioning. No differences in carbon metabolism could be found between the transgenic and control plants. Even in the line exhibiting a more than 90% decrease, the residual ALDc was sufficient for plants to grow normally under favourable glasshouse conditions. This would suggest that ALDc does not play a role in the regulation of flux through glycolysis, carbon partitioning and sucrose accumulation. Dissertations -- Plant biotechnology Theses -- Plant biotechnology Sugarcane -- Physiology Genetic regulation Glycolysis Cytosolic aldolase
38	Microcompartmentation of plant glycolytic enzymes with subcellular structures Wojtera, Joanna 20 October 2009 (has links) Classically considered as a soluble system of enzymes, glycolysis does not conform to the known function and subcellular microcompartmentation pattern. Certain glycolytic enzymes, such as glyceraldehyde-3-phosphate dehydrogenase (GAPDH) could be found at different cellular locations in animal cells, where it exhibited its non-glycolytic activities. Determination of the subcellular localization of two cytosolic GAPDH isoforms from Arabidopsis thaliana (GapC1 and GapC2), fused to Fluorescent Proteins (FP), was investigated in the transiently transformed mesophyll protoplasts, using confocal Laser Scanning Microscopy. Apart from its cytosolic distribution, the nuclear compartmentation of GapC:FP was observed in this study, as well as its punctuate or aggregate-like localization. Part of the GapC:FP foci were observed as mitochondria-associated. A further yeast two-hybrid screen with both GapC isoforms as baits allowed to identify the mitochondrial porin (VDAC3; At5g15090) as a protein-protein interaction partner. Further tests with one-on-one yeast two-hybrid and Bimolecular Fluorescence Complementation (BiFC) assays showed that the detected binding between plant VDAC3 and GapC in yeast cells was false positive. Interestingly, aldolase interacted with VDAC3, as well as with GapC in plant protoplasts, using the BiFC method. On the other hand, no such interaction could be detected in the one-on-one yeast two-hybrid assay. Thus, a model of indirect mitochondrial association of GapC via aldolase that binds directly to mitochondrial porin is proposed to occur only upon certain cellular conditions. Attempts to show the binding of Arabidopsis GAPDH to the actin cytoskeleton in vivo failed, whereas in vitro cosedimentation assays demonstrated that the fully active, recombinant glycolytic enzyme binds to rabbit F-actin. Moreover, is the presence of the GapC cofactor NAD and a reducing agent (DTT), the enzyme might exhibit an actin-bundling activity. glycolysis GAPDH aldolase subcellular microcompartmentation protein-protein interaction mitochondrial porin actin cytoskeleton 32 - Biologie ddc:570
39	An investigation of the effects of donor age on some haematological characteristics of the Wistar rat (Rattus Norwegicus) Wesso, Iona January 1986 (has links) >Magister Scientiae - MSc / Knowledge of haematological 'normdata', of experimental animals, and the biological variables that affect it is essential in order to recognise variations from the normal. In addition, the haemopoietic system may be regarded in principle as good material for studies of the cellular events associated with ageing. These considerations, together with the well documented effects of age on various physiological processes, prompted an investigation into the effects of donor age on several blood parameters. Review of the literature revealed that age-related changes in blood parameters have been reported for several species, but the documentation thereof is incomplete, inconsistent and inconclusive in many respects. Blood samples from male Wistar rats of nine different biological ages, ranging from birth to 96 weeks of age, were analysed for haematological and biochemical parameters. These included the blood cell counts, erythrocytic indices, haemoglobin concentration, haematocrit, erythrocytic 2,3-diphosphoglycerate and adenosine triphosphate levels, and erythrocytic glucose 6-phosphate dehydrogenase and pyruvate kinase activities. Data was obtained which demonstrates that all blood parameters measured underwent significant, although not al~ays regular, age-related changes. These changes were found to be more marked during the first month of life than at any other period. Evidence is also presented to show that the depressed haemoglobin concentration during the early postnatal life may not imply a condition of 'physiologic anaemia' as was previously thought. Since the blood profile exhibits only slight changes from about 24 weeks of age, it does not seem that the haemopoietic system of the old rat deteriorates significantly as to constitute a limiting factor for the animal's life. However, the importance of taking an animal's age into account when blood parameters constitute experimental results is emphasised. The second phase of this study involved a detailed investigation of the effect of the animal's age on erythrocytes in particular. These cells have limited life-spans, and are often used as models in studies of cellular ageing. Special emphasis was therefore placed on comparing the relative effects of host and cellular ageing on the properties of these cells. Erythrocytes from rats between one and 48 weeks of age were separated into two populations by a modification of the conventional density gradient centrifugation technique. The two populations were assumed to differ in mean cell age and were analysed for erythrocytic indices, phosphate ester concentrations and the activities of glucose 6-phosphate dehydrogenase and pyruvate kinase. Evidence is presented to show that ageing rat erythrocytes exhibit a decrease in volume, phosphate ester content and enzyme activities while the cellular haemoglobin concentration increases. Differences in the mean cell age however, does not seem to account for the donor-age-related effects observed in the whole blood parameters. Rather, the significant differences found in the characteristics of similarly aged red cells, between variously aged donors, demonstrate that the biological age of the organism influences the red cells and probably the ageing thereof in vivo. The contribution of the changing status of the erythrocyte's environment of progressively older animals, to alterations which take place in the ageing red cell is discussed. In vivo Hexokinase aldolase Glyceraldehyde 3-Phosphate dehydrogenase 3-Phosphoglycerate kinase Enolase Pyruvate kinase Dehydrogenase
40	A Chemoenzymatic Route to Unnatural Sugar Nucleotides and Their Applications and Enzymatic Synthesis of Rare Sugars with Aldolases In vitro and In vivo Cai, Li 21 July 2011 (has links) No description available. Biochemistry Chemistry Organic Chemistry Sugar nucleotides carbohydrates enzymes synthesis glycosyltransferase aldolase

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