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Structural Analysis of the TOL pDK1 xylGFJQK Region and Partial Characterization of the xylF and xylG Gene ProductsPoulter, Melinda D. 12 1900 (has links)
TOL plasmids encode enzymes responsible for utilization of toluene and related aromatic compounds by Pseudomonas putida, ultimately converting them to central metabolic intermediates. The nucleotide sequence for the 5.6 kb xylGFJQK region of the pDK1 TOL meta operon was determined. DNA sequence analysis revealed the presence of five open reading frames corresponding to xylG (1458 bp), xylF (846 bp), xylJ (783 bp), xylQ (936 bp) and xylK (1047 bp), encoding predicted protein products of 51.6, 31.3, 27.8, 32.8, and 36.6 kDa in size, respectively. The average G+C content of the xylLTEGFJQK region was 65.7%, somewhat higher than the 58.9% seen in the immediately upstream xylXYZ region and substantially more than the 50% G+C content reported for the upper TOL operon of this plasmid. Homology comparisons were made with genes and proteins of related catabolic plasmids. The dmpCDEFG and pWWO xylGFJQK regions exhibit consistently high levels of nucleotide and amino acid homology to pDK1 xylGFJQK throughout the entire region. In contrast, although the nucleotide sequence homology of the Acinetobacter atdCDE region to xylGFJ is high, the homology of atdFG to xylQK is markedly less. Such radical changes in homology between corresponding regions of different operons, combined with variable base and codon usage patterns within and between operons, provides additional support for the idea that the upper and lower operons encoding enzymes of aromatic pathways have evolved independently of one another and that these operons have continued to exchange genetic material with homologous expression units through a series of recombination events. Recombinant plasmids were constructed for individual expression of each of the xylGFJQK genes. HMSD (XylG) and HMSH (XylF) were partially purified and characterized with respect to substrate specificity and kinetic mechanism. Evidence was obtained suggesting that the HMSD reaction occurs via a steady state ordered mechanism or a random mechanism where binding of the first substrate effects the enzyme's affinity for the second substrate.
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Caractérisation du transport colloïdal du zinc en milieu sableuxMuris, Myriam 08 November 2004 (has links) (PDF)
Cette étude se situe au carrefour d'une problématique opérationnelle de gestion des sols de bassins d'infiltration d'eaux pluviales et d'une thématique plus théorique sur le transport colloïdal. En effet, malgré la mise en évidence du rôle parfois prédominant des colloïdes dans le transport de polluants, les mécanismes considérés prennent encore peu en compte cette forme de transport et les conditions sous lesquelles il prédomine restent mal définies. Dans ce cadre, l'objectif principal de ces travaux est la caractérisation du transport colloïdal d'un métal caractéristique des pollutions d'eaux pluviales urbaines, le zinc. Les colloïdes considérés sont des bactéries de l'espèce Pseudomonas putida qui sont présentes dans le milieu poreux sous forme de biofilm. Les essais ont été réalisés en colonnes de sable de Loire, non saturées en eau. Des expériences complémentaires en réacteurs fermés ont permis de mieux caractériser la réactivité des surfaces mises en jeu. Les résultats permettent d'apporter des éléments de réponse à trois grandes questions qui sont en fait les conditions nécessaires pour qu'il y ait transport colloïdal : réactivité des colloïdes pour les polluants, mouvement des colloïdes, et transport associé. Tout d'abord, les titrations de surface et les essais d'adsorption ont montré la grande réactivité des surfaces en particulier du biofilm. Ensuite la composition de la solution en contact avec le milieux poreux et sa force ionique influencent largement la stabilité du biofilm et donc la formation de colloïdes mobiles. Ainsi les conditions sont réunies pour observer le transport associé du zinc et des bactéries; celui-ci n'a pas été directement quantifié, mais observé par des méthodes indirectes. Il apparaît donc nécessaire aujourd'hui de tenir compte, sous certaines conditions, du transport facilité par les colloïdes bactériens dans les sols de bassins d'infiltration.
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Characterizing the Biological Functions of Five Shikimate Dehydrogenase Homologs Enzymes in Pseudomonas putida KT2440Penney, Kathrine 26 November 2012 (has links)
The shikimate pathway links carbohydrate metabolism to biosynthesis of the aromatic amino acids in plants, fungi, bacteria and apicomplexan parasites. The pathway has seven enzymatic steps which convert erythrose-4-phosphate and phosphoenolpyruvate to chorismate, the precursor of tyrosine, tryptophan and phenylalanine. Due to the absence of the pathway in mammalian species, the enzymes are attractive targets for herbicides and antimicrobials. Shikimate dehydrogenase (SDH) catalyses the fourth step, the NADP-dependent reversible reduction of 3-dehydroshikimate to shikimate. Five SDH homologs – AroE, Ael1, YdiB, RifI and SdhL – have been identified through kinetic analysis and phylogenetic studies in the bacterium Pseudomonas putida. SDH homolog gene knockouts (KO) were used to characterize their functions. The AroE KO and Ael1 KO were successfully constructed via gene SOEing of the SDH homolog with a gentamycin antibiotic cassette and homologous recombination via electroporation into WT P. putida KT2440. Preliminary characterization tested KO growth, auxotroph recovery and fluorescent activity.
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Characterizing the Biological Functions of Five Shikimate Dehydrogenase Homologs Enzymes in Pseudomonas putida KT2440Penney, Kathrine 26 November 2012 (has links)
The shikimate pathway links carbohydrate metabolism to biosynthesis of the aromatic amino acids in plants, fungi, bacteria and apicomplexan parasites. The pathway has seven enzymatic steps which convert erythrose-4-phosphate and phosphoenolpyruvate to chorismate, the precursor of tyrosine, tryptophan and phenylalanine. Due to the absence of the pathway in mammalian species, the enzymes are attractive targets for herbicides and antimicrobials. Shikimate dehydrogenase (SDH) catalyses the fourth step, the NADP-dependent reversible reduction of 3-dehydroshikimate to shikimate. Five SDH homologs – AroE, Ael1, YdiB, RifI and SdhL – have been identified through kinetic analysis and phylogenetic studies in the bacterium Pseudomonas putida. SDH homolog gene knockouts (KO) were used to characterize their functions. The AroE KO and Ael1 KO were successfully constructed via gene SOEing of the SDH homolog with a gentamycin antibiotic cassette and homologous recombination via electroporation into WT P. putida KT2440. Preliminary characterization tested KO growth, auxotroph recovery and fluorescent activity.
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Mikrobielle Herstellung von cis-Dihydrodihydroxybenzoaten als Bausteine für die chemische SynthesePayer, Edina. January 2002 (has links)
Stuttgart, Univ., Diss., 2002.
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Physico-chemical characterization of atropinesterase from pseudomonas putida a comparison with other serine hydrolases /Drift, Alphonsus Cornelis Marie van der, January 1983 (has links)
Thesis (Ph. D)--Rijksuniversiteit te Utrecht, 1983. / Summary in Dutch. Stellingen inserted. Includes bibliographical references.
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Impact investigation of a mercury reducing GEM in stream microcosms & construction of mercury reducing reporter strains based on the safety strain Ps. putida KT2440Pauling, Björg Veronika. Unknown Date (has links) (PDF)
Techn. University, Diss., 2003--Braunschweig.
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Metabolic diversity and synthesis of medium chain length polyhydroxyalkanoates by Pseudomonas putida LS46 cultured with biodiesel-derived by-productsFu, Jilagamazhi 06 November 2015 (has links)
The metabolism and physiology of Pseudomonas putida strain LS46 was investigated using biodiesel-derived waste streams as potential low cost substrates for production of medium chain length polyhydroxyalkanoates (mcl-PHA). Proteomic and trranscriptomic analyses were used to correlate specific gene and gene product expression patterns with differences in phenotypes of mcl-PHA biosynthesis by P. putida LS46. Growth and mcl-PHA content of P. putida LS46 were similar in cultures containing biodiesel-derived waste glycerol versus pure glycerol, and mcl-PHA synthesis occurred during stationary phase after nitrogen concentrations in the medium were exhausted. Waste glycerol cultures contained elevated concentrations of heavy metal ions, such as copper, which induced significant changes in gene expression levels related to heavy metal resistance. Several membrane-bound proteins, such as CusABC efflux and CopAB were identified and putatively play a role in regulating cellular copper concentrations. Cultures containing waste free fatty acids synthesized mcl-PHA throughout the exponential growth phase. Protein expression levels of two mcl-PHA synthases were suppressed during exponential phase growth in waste glycerol cultures, putatively via post-transcriptional regulation. Culture specific expression of monomer supplying proteins (PhaJ1 and PhaG), and sets of fatty acid oxidation enzymes were observed, and may have contributed to differences in the composition of polymers synthesized by P. putida LS46 cultured on the two substrates. Expression levels of the majority of mcl-PHA biosynthesis pathway genes were stable during active polymer synthesis in waste glycerol cultures. However, variations in protein expression levels, and in some cases their corresponding mRNAs, were observed in a number of other metabolic patheays, such as glycerol transportation, partial glycolysis, pyruvate metabolism, the TCA cycle, and fatty acid biosynthesis. These data suggest potential regulatory points that may determine carbon flux during mcl-PHA biosynthesis. Evaluation of identified genetic targets in P. putida LS46 that putatively influence mcl-PHA biosynthesis and monomer composition merit further studies. / February 2016
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Characterization of Pyrimidine Biosynthesis in Pseudomonas putida Using Mutant and Wild Type StrainsChang, Mingren 08 1900 (has links)
The biosynthesis of pyrimidines in Pseudomonas putida was investigated. In this study, pyrimidine requiring mutants were isolated by conventional mutagenesis and enrichment. The strains required exogenously supplied pyrimidines for growth and were found by enzyme assays to be deficient for the product of the pyrB gene encoding the enzyme aspartate transcarbamoylase. None of the intermediates of the pathway could supply the auxotrophic requirement of the strain; only preformed pyrimidines, metabolized via salvage pathways could suffice. Pyrimidine limitation in the mutant caused a slight but significant fifty per cent increase in expression of all the de novo biosynthetic enzymes. Pyrimidine starvation's effect on nucleotide pool levels was examined in the mutant and caused a marked swelling of the purine nucleotide pools.
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Structural Analysis of the Genes Encoding the Oxalocrotonate Branch of the Pseudomonas putida TOL Plasmid pDKI meta-cleavage Pathway and the Expression of the xy1G Gene Product in Escherichia coliLuo, Xuebin 12 1900 (has links)
Three overlapping DNA fragments from the lower operon of Pseudomonas putida TOL plasmid pDK1, covering the xy1IH genes and downstream flanking region, were cloned into pUC19. They include a 2.8 kbp XhoI fragment, a 2.7 kbp PstI fragment and a 2.0 kbp EcoRI-HindIII fragment. They were subjected to DNA sequence analysis. The xy1I (4-oxalocrotonate decarboxylase) and xy1H (4-oxalocrotonate tautomerase) genes were found to possess coding regions of 792 and 189 nucleotides, respectively. A possible transcriptional terminator resembling E. coli rho-independent terminators was identified downstream of the translational stop of xy1H. An additional stem and loop structure was found in the intergenic region between xy1I and xy1H. The individual ORF's of the oxalocrotonate branch (xy1G, xy1I and xy1H) have been cloned into pUC18/19. The expression of the xy1G gene in E. coli was successfully assayed spectrophotometrically.
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