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Molecular studies on a Dictyostelium homolog of the tafazzin gene, the cause of Barth syndrome in humansChen, Ying. Unknown Date (has links)
University, Diss., 2003--Kassel. / Erscheinungsjahr an der Haupttitelstelle: 2002.
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Interaktive Netzwerke zur Regulation des Wachstums-Differenzierungs-Übergangs bei Dictyostelium discoideumRiemann, Karsten. Unknown Date (has links)
Universiẗat, Diss., 2006--Kassel.
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Identification and Characterization of Putative Palmitoyltransferases in Dictyostelium discoideum, with Focus on a Novel Gene, PAZ5Bodwell, Bethany January 2007 (has links) (PDF)
No description available.
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Critical Amino Acids of the Ga2 Subunit Helical Domain in Dictyostelium discoideumRauch, Steven Martin January 2002 (has links) (PDF)
No description available.
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Étude des interactions entre des bactéries pathogènes et Dictyostelium discoideum : analyse de la résistance et de l'enrobageOuellet, Myriam 20 April 2018 (has links)
Les amibes se nourrissent principalement de bactéries. Certaines bactéries pouvant résister à la digestion dans la voie phagocytique amibienne s’y retrouvent enrobées et sécrétées dans l’environnement par la suite. Cet enrobage augmente la résistance bactérienne à différents stress. Les bactéries enrobées pourraient favoriser la propagation de maladies infectieuses, mais aucune donnée n’est disponible à ce sujet. Les bactéries pathogènes Escherichia coli O157:H7, Salmonella typhimurium et Pseudomonas aeruginosa sont capables de résister à la digestion amibienne, mais leur capacité à être enrobée est inconnue. L’étude de la résistance de ces bactéries face à l’amibe Dictyostelium discoideum et l’analyse de la viabilité de cette dernière en présence des bactéries ont été réalisées pour mieux cibler les souches bactériennes potentiellement enrobables. Des essais d’enrobage ont été tentés, mais aucune bactérie enrobée n’a été observée en microscopie électronique. D’autres analyses seront requises pour comprendre la propagation des maladies infectieuses via les bactéries enrobées. / Amoebae mainly feed bacteria. Many bacteria are resistant to the digestion in the phagocytic pathway of amoebae. There they can be packaged and then secreted into the environment. Packaging increases the resistance of bacteria to different stresses. Packaged bacteria could improve the spread of infectious diseases, but no data is available regarding that so far. The pathogenic bacteria Escherichia coli O157:H7, Salmonella typhimurium and Pseudomonas aeruginosa are able to resist to digestion by amoeba digestion, but their ability to be packaged is unknown. The study of the bacteria resistance to the amoeba Dictyostelium discoideum and the analysis of the viaibility of the latter in the presence of bacteria were done to better target the bacterial isolates that can be packaged. Assays of packaging of bacteria were done, but no packaged bacteria were observed by electron microscopy. Other analyzes are required to understand the spread of infectious diseases by packaged bacteria.
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Identification des protéines reconnues par les anticorps H36 et H72 chez l'amibe Dictyostelium discoideumSédighi, Ahmadréza 19 April 2018 (has links)
L'amibe Dictyostelium discoideum sécrète des corps multilamellaires (CMLs) à partir de sa voie endocytique lorsqu'elle est cultivée en présence de bactéries. L'objectif de la présente étude consistait à comprendre le rôle des CMLs dans la physiologie de D. discoideum en caractérisant l'antigène de l'anticorps H36 présent sur les CMLs et celui de l'anticorps H72 qui se retrouve dans la voie endocytique. L'identification des antigènes a été réalisée par une immunoprécipitation suivie par une analyse en spectrométrie de masse. L'identité de l'antigène H36 a été déterminée et a été confirmée par des analyses en Western blot pour être la protease cprG aussi nommée CP7. Dans le cas de l'anticorps H72, l'identification n'a pas été fructueuse. Cette étude démontre que les CMLs sécrétés contiennent donc la protease cprG. Il s'agit de la deuxième description de l'association d'une protease avec des structures membranaires sécrétées par l'amibe D. discoideum.
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Fatty-acyl amidases from the slime mold Dictyostelium discoideum specific for bacterial lipopolysaccharideVerret, Charles Joseph Reynold. January 1982 (has links)
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemistry, 1982 / Vita. / Includes bibliographical references. / by Charles Joseph Reynold Verret. / Ph. D. / Ph. D. Massachusetts Institute of Technology, Department of Chemistry
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STUDIES ON DICTYOSTELIUM DISCOIDEUM MYOSIN-I AND MYOSIN-II HEAVY CHAIN KINASESYang, YIDAI 21 August 2013 (has links)
PakB is a p21-activated kinase that phosphorylates and activates class I myosins in the social amoeba Dictyostelium discoideum. PakB co-localizes with myosin-I to actin-rich regions of the cell, including macropinocytic cups and the leading edge of migrating cells. Here we show that the cellular localization of PakB depends on the N-terminal region which contains an actin filament binding module and two proline-rich motifs that interact with the SH3 domain of actin-binding protein 1 (dAbp1). dAbp1 co-localized with PakB to actin-rich sites, but in PakBˉ (PakB null) cells dAbp1 adopted a diffuse cytosolic distribution. Overexpression of dAbp1 in PakBˉ cells produced SH3 domain-dependent defects in early development, cell polarization and chemotaxis. We conclude that PakB plays a critical role in regulating the cellular functions of the dAbp1 SH3 domain.
PakBˉ cells exhibited a disrupted cortical actin layer and were extremely sensitive to external stresses induced by compression and electroporation. PakBˉ cells showed severe chemotaxis defects when forced to migrate under agarose. The defects were rescued by expression of full-length PakB but not an N-terminal fragment of PakB. The results suggest that loss of PakB kinase activity is responsible for the cortical defects. Immunoblot analysis showed that phosphorylation of MyoD at the TEDS site was significantly reduced in PakBˉ cells. We propose that activation of myosin-I motor activity by PakB plays a critical role in stabilizing the cortical actin cytoskeleton.
D. discoideum myosin-II heavy chain kinase A (MHCK-A) is a member of the alpha-kinase family. Competition experiments with Mant-ADP showed that MHCK-A bound ATP with Ki values of 18 and 160 µM in the presence and absence of Mg2+, respectively. ADP and AMP bound 3-fold and 9-fold more weakly than ATP, respectively. The results show that Mg2+ and the nucleotide phosphoryl groups substantially contribute to binding. Mutations of residues in the Pi-pocket and N/D-loop reduced the binding affinity for MgATP, showing that both regulatory sites are coupled to the active site. Phosphorylation of SPOT peptide arrays with MHCK-A revealed a consensus sequence of T-φ/K-φ/K-K/R and showed also phosphorylation of non-Thr-containing peptides. / Thesis (Ph.D, Biochemistry) -- Queen's University, 2013-08-21 14:02:30.015
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Functional analysis of capA and its product, the cAMP-binding protein CABP1, in Dictyostelium discoideumBonfils, Claire January 1992 (has links)
No description available.
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Characterization of the epsin homolog EpnA in Dictyostelium discoideumBrady, Rebecca Jane, 1980- 29 August 2008 (has links)
Clathrin-coated pits on the plasma membrane invaginate into coated vesicles to internalize receptors and membrane. The clathrin adaptor epsin contains an aminoterminal ENTH domain that binds PI(4,5)P₂ and a carboxy-terminal domain that binds clathrin, and accessory proteins such as AP2. Here, we assessed how inter- and intramolecular factors affect the contribution of epsin to coated-pit function in living cells. We found Dictyostelium epsin was not required for global clathrin function, but plays an essential role in spore development. We demonstrated that clathrin, but not AP2, was critical for epsin to associate with clathrin-coated pits. We found that the carboxy-terminal region of epsin was essential, but not sufficient, for targeting epsin within clathrin-coated pits on the plasma membrane. In addition to targeting epsin to the membrane, the amino-terminal ENTH domain regulates the interaction between epsin and clathrin, an essential property that cannot be replaced by an alternate PI(4,5)P₂ binding domain. Moreover, the ENTH domain facilitates the functional interaction between clathrin and actin during late stages of endocytosis, possibly by regulating the activity of the adaptor Hip1r. Both the ability to bind PI(4,5)P₂ and another function mediated by residue T107 are critical for the activity of the ENTH domain. Our results support a model where the ENTH domain coordinates with the clathrin-binding C-terminal domain to allow a dynamic interaction of epsin with coated pits. Furthermore, we propose that the ENTH domain of epsin facilitates the membrane recruitment and phosphorylation of Hip1r, which in turn mediates the productive interaction of clathrin with the actin cytoskeleton at the plasma membrane. / text
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