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Investigation of the activity of yeast phosphoglycerate kinase by site-directed mutagenesisWilson, C. A. B. January 1985 (has links)
No description available.
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Crystallographic investigations of phosphoglycerate kinase from the causative agent of sleeping sickness /Bernstein, Bradley E. January 1997 (has links)
Thesis (Ph. D.)--University of Washington, 1997. / Vita. Includes bibliographical references (leaves [152]-161).
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Characterization of Phosphoglycerate Kinase Expressed on the Surface of Group B StreptococcusBoone, Tyler J Unknown Date
No description available.
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Structural and biochemical studies of trypanosomatid drug target proteins /Choe, Jungwoo. January 2003 (has links)
Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 129-143).
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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.
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Molecular Strategies in the Analysis of the Porcine Genome / Molekulargenetische Strategien zur Analyse des SchweinegenomsChen, Kefei 05 February 2004 (has links)
No description available.
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Interactions entre Spiroplasma citri et son insecte vecteur Circulifer haematoceps : la phosphoglycérate kinase de S. citri : une « actin-binding protein » impliquée dans la transmission du spiroplasme par la cicadelle / Interactions between Spiroplasma citri and its insect vector Circulifer haematoceps : s .citri phosphoglycerate kinase : an actin-binding protein involved in the spiroplasma transmission by leafhoppers.Labroussaa, Fabien 20 December 2010 (has links)
Spiroplasma citri est un mollicute phytopathogène transmis de plante à plante par des cicadelles du genre Circulifer selon un mode persistant circulant-multipliant. Les franchissements de l’épithélium intestinal et des glandes salivaires sont basés sur un mécanisme d’endocytose/exocytose. Ce processus d’invasion met en jeu, au sein de complexes protéiques, des protéines bactériennes spécifiques qui reconnaissent des motifs déterminés présents à la surface des cellules eucaryotes. La recherche de protéines de l’insecte vecteur interagissant avec S. citri a notamment conduit à l’identification de l’actine. Cette interaction a pu être confirmée à la fois in vitro et in vivo. L’interaction de l’actine avec son partenaire chez S. citri, qui s’est avéré être la phosphoglycérate kinase (PGK), est impliquée dans l’internalisation du spiroplasme dans les cellules de l’insecte. La région minimale de liaison à l’actine de la PGK a également été déterminée.La réalisation d’un mutant de S. citri dépourvu de PGK a été entreprise avec le plasmide navette pGOT mais n’a pas permis la sélection de spiroplasmes mutés dans ce gène essentiel. Néanmoins, la recherche de l’évènement de recombinaison chez les clones obtenus a permis de mettre en évidence la mutation de deux gènes chez ces derniers.L'ensemble des protéines impliquées dans la transmission du spiroplasme, identifiées au préalable chez ce dernier, n’étant pas essentielle au cours de ce processus, une étude préliminaire des complexes multi-protéiques contenant plusieurs de ces protéines a été réalisée. L’identification de complexes impliquant à la fois la PGK, la P32 et les ScARPs pourrait permettre de mieux comprendre les mécanismes régissant la vection de S. citri par son insecte. / Spiroplasma citri is a phytopathogenic mollicute transmitted from plant to plant by leafhoppers of the genus Circulifer in a persistent and propagative manner on condition to cross the intestinal and salivary glands barriers of the insect. These crossings are based on a endocytosis/exocytosis mechanism which involves bacterial protein complexes in order to recognize specific patterns on the surface of eukaryotic cells.Specific molecular interactions between S. citri proteins and those of C. haematoceps were investigated using far Western technology and had notably led to the identification of actin. This interaction has been confirmed both in vitro and in vivo. The interaction of actin with his partner in S. citri, which has been identified as the phosphoglycerate kinase (PGK), is involved in the internalization of spiroplasma into the insect cells. The minimal actin-binding region of PGK was also determined.The realization of a S. citri PGK mutant was carried out using the shuttle plasmid pGOT but the selection of spiroplasmas mutated in this essential gene failed. Nevertheless, findings in the localization of recombination events in S. citri chromosome, allowed us to identify mutations in two genes that could be tested in our experimental transmission system.The set of proteins involved in the spiroplasmal transmission, previously identified as non essential proteins in the invasion process, prompted us to study the role of multi-protein complexes containing several of these proteins. Identification of complexes involving both the PGK, the P32 and ScARPs should enable us to better understand mechanisms governing the transmission of S. citri by its insect.
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