Global ETD Search

41	Impact investigation of a mercury reducing GEM in stream microcosms & construction of mercury reducing reporter strains based on the safety strain Ps. putida KT2440 Pauling, Björg Veronika. Unknown Date (has links) (PDF) Techn. University, Diss., 2003--Braunschweig.
42	Metabolic diversity and synthesis of medium chain length polyhydroxyalkanoates by Pseudomonas putida LS46 cultured with biodiesel-derived by-products Fu, 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 Pseudomonas putida mcl-PHA Biodiesel derived waste streams Omics
43	Characterization of Pyrimidine Biosynthesis in Pseudomonas putida Using Mutant and Wild Type Strains Chang, 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. pyrB gene Pyrimidine starvation biosynthetic enzymes Pyrimidines. Pseudomonas putida.
44	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 coli Luo, 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. genetics plasmids E. coli Pseudomonas putida. Plasmids -- Genetics. Escherichia coli -- Genetics.
45	Molecular and Kinetic Characterization of the Aspartate Transcarbamoylase Dihydroorotase Complex in Pseudomonas putida Schurr, Michael J. (Michael John) 05 1900 (has links) Aerobic Gram negative bacteria such as Pseudomonas putida were reported to possess class A ATCases and to have a M.W. of 360 kD. The nucleotide sequence of the P. putida pyrBC was determined to answer this question once and for all. The expected regulatory gene was not found. It is shown that the P. putida pyrB gene is overlapped by pyrC by 4 bp. The P.putida pyrB is 1005 bp (335 aa) in length and the pyrC is 1275 bp (425 aa) long. Both of these genes complement E. coli mutants with their respective genotypes. Another finding borne out from the sequence is an effector binding site at the N-terminus of pyrB of P. putIda. The binding site shows that effectors compete with carbamoylphosphate for the active site. In this dissertation, it is shown that the ATCase of P.putida is a trimer of M.W. of 109 kD (3 x 36.4 kD) and that the gene encoding pyrB is overlapped by the pyrC gene which encodes DHOase. It is also shown that the pyrBC encoded enzymes copurify as a dodecameric complex with a M.W. of 484 kD. ATCases Aerobic Gram negative bacteria Pyrimidine nucleotides -- Metabolism. Pseudomonas putida.
46	Assembly of Pseudomonas putida Aspartate Transcarbamoylase and Possible Roles of the PyrC' Polypeptide in the Folding of the Dodecameric Enzyme Hongsthong, Apiradee, 1970- 05 1900 (has links) Aspartate transcarbamoylase (ATCase) of Pseudomonas putida consists of two different polypeptides, PyrB and PyrC' (Schurr et al, 1995). The role of the PyrC' and the assembly of PyrB and PyrC' have been studied. The ATCase made in vitro of P.putida PyrB with P.putida PyrC', and of E.coli PyrB with P.putida PyrC ' were generated under two different conditions, denaturation and renaturation, and untreated. It was found that PyrC' plays a role in the enzymatic regulation by ATP, CTP and UTP. In addition to playing a role in substrate binding, the PyrB polypeptide is also involved in effector binding (Kumar et al., manuscript in preparation). The most energetically preferred form of the P.putida WT is a dodecamer with a molecular mass of 480 kDa. The ratio between the PyrB and the PyrC' is 1:1. In studies of nucleotide binding, it was discovered that the P.putida PyrB was phosphorylated by a protein kinase in the cell extract. In the presence of 20 mM EDTA, this phosphorylation was inhibited and the inhibition could be overcome by the addition of divalent cations such as Zn2+ and Mg2+. This result suggested that the phosphorylation reaction required divalent cations. In the CAD complex of eukaryotes, phosphorylations of the CPSase and the linker region between ATCase and DHOase did not occur in the presence of UTP and it was hypothesized (Carrey, 1993) that UTP and phosphorylation(s) regulated the conformational change in the enzyme complex. Therefore, the same idea was approached with P.putida ATCase, where it was found that 1.0 mM UTP inhibited the phosphorylation of PyrB by more than 50%. These results suggested that the regulation of the conformational change of the P.putida ATCase might be similar to that of CAD. Furthermore, peptide mapping for phosphorylation sites was performed on P.putida ATCase WT, WT --11 amino acids and WT --34 amino acids from the N-terminus of the PyrB polypeptide. The results showed that the phosphorylation sites were located on the fragment that contained amino acid number-35 to amino acid number-112 from the N-terminus of the PyrB polypeptide. aspartate transcarbamoylase polypeptides biology Pseudomonas putida. Pyrimidine nucleotides -- Metabolism.
47	Structural and mechanistic analyses of a nicotine- degrading enzyme from Pseudomonas putida: towards design of tools and biotherapeutics Tararina, Margarita Alexandrovna 30 January 2020 (has links) Tobacco-soil bacteria have evolved not only to tolerate high concentrations of nicotine, but to degrade it as a primary growth source. The genomes of several of these species have been sequenced, allowing for the identification of unique bacterial degradation pathways. In the Gram-negative bacteria, Pseudomonas putida, the nicotine-degrading gene cluster has been described; the encoded enzymes catabolize nicotine via the pyrrolidine pathway, ultimately forming malate and fumarate. In previous studies, the flavoenzyme, nicotine oxidoreductase (NicA2), has been identified as the first committed step of nicotine catabolism in this organism. Preliminary kinetic analysis reported that NicA2 has high specificity for S-nicotine, but a slow catalytic rate. Taking advantage of its unique evolutionary adaptation, we aim to refine the inherent catalytic function and structural features of NicA2 towards the development of a biotherapeutic for nicotine addiction, nicotine poisoning and tools for nicotine biosensor development. Our goal is to identify the factors contributing to the mechanistic and substrate-binding properties of NicA2 to improve its biotherapeutic potential. This work presents the first crystal structure of NicA2, resolved to 2.2 Å resolution, establishing it as a member of the flavin-dependent amine oxidase family with a conserved amine oxidase fold. Structural analysis identified a unique composition of the canonical aromatic cage (W427 and N462), which flanks the flavin isoalloxazine ring. Additionally, the X-ray crystallographic structure of the NicA2/S-nicotine complex was refined to 2.6 Å resolution, revealing a hydrophobic active site in support of a hydride-transfer mechanism. Analysis of enzyme activity with a series of substrate analogs and kinetic analysis of active-site residues reveal the determinants of substrate binding affording the remarkable specificity of this enzyme. Using site-directed mutagenesis of aromatic cage residues, along with analysis of the kinetics of the reductive and oxidative steps, we demonstrate that the rate-limiting reaction step is in the oxidative half-reaction. Structural analysis of an active-site variant revealed a secondary binding site consistent with kinetic analysis demonstrating substrate inhibition. Together, our findings provide kinetic and structural evidence for the catalytic mechanism of NicA2, expanding the possibilities for the generation of catalytically-efficient variants and supporting its role as a promising therapeutic strategy. / 2021-01-30T00:00:00Z Biochemistry Enzymology Flavoenzyme Nicotine Pseudomonas putida X-ray crystallography
48	Isolation and structure determination of the metabolites from Pseudomonas putida 39D: oxidation of di-substituted aromatics Stabile, Michele R. 24 January 2009 (has links) m-Bromotrifluorotoluene, 1, was subjected to microbial oxidation by Pp 39/D. The products from the reaction were isolated and identified by various spectral techniques. The absolute stereochemistry of the major metabolite has been determined as cis-ααα-trifluoromethyl 2R, 3S-dihydroxy-5-bromo-4,6-cyclohexadiene 2. The absolute stereochemistry was discovered by comparison of the products from the convergent synthetic pathway of 2 and the known diol metabolite from α,α,α-trifluorotoluene, 4. / Master of Science LD5655.V855 1993.S733 Aromatic compounds -- Oxidation Pseudomonas putida
49	Bacterial motility and growth in open and confined environments Theves, Matthias January 2013 (has links) In the presence of a solid-liquid or liquid-air interface, bacteria can choose between a planktonic and a sessile lifestyle. Depending on environmental conditions, cells swimming in close proximity to the interface can irreversibly attach to the surface and grow into three-dimensional aggregates where the majority of cells is sessile and embedded in an extracellular polymer matrix (biofilm). We used microfluidic tools and time lapse microscopy to perform experiments with the polarly flagellated soil bacterium Pseudomonas putida (P. putida), a bacterial species that is able to form biofilms. We analyzed individual trajectories of swimming cells, both in the bulk fluid and in close proximity to a glass-liquid interface. Additionally, surface related growth during the early phase of biofilm formation was investigated. In the bulk fluid, P.putida shows a typical bacterial swimming pattern of alternating periods of persistent displacement along a line (runs) and fast reorientation events (turns) and cells swim with an average speed around 24 micrometer per second. We found that the distribution of turning angles is bimodal with a dominating peak around 180 degrees. In approximately six out of ten turning events, the cell reverses its swimming direction. In addition, our analysis revealed that upon a reversal, the cell systematically changes its swimming speed by a factor of two on average. Based on the experimentally observed values of mean runtime and rotational diffusion, we presented a model to describe the spreading of a population of cells by a run-reverse random walker with alternating speeds. We successfully recover the mean square displacement and, by an extended version of the model, also the negative dip in the directional autocorrelation function as observed in the experiments. The analytical solution of the model demonstrates that alternating speeds enhance a cells ability to explore its environment as compared to a bacterium moving at a constant intermediate speed. As compared to the bulk fluid, for cells swimming near a solid boundary we observed an increase in swimming speed at distances below d= 5 micrometer and an increase in average angular velocity at distances below d= 4 micrometer. While the average speed was maximal with an increase around 15% at a distance of d= 3 micrometer, the angular velocity was highest in closest proximity to the boundary at d=1 micrometer with an increase around 90% as compared to the bulk fluid. To investigate the swimming behavior in a confinement between two solid boundaries, we developed an experimental setup to acquire three-dimensional trajectories using a piezo driven objective mount coupled to a high speed camera. Results on speed and angular velocity were consistent with motility statistics in the presence of a single boundary. Additionally, an analysis of the probability density revealed that a majority of cells accumulated near the upper and lower boundaries of the microchannel. The increase in angular velocity is consistent with previous studies, where bacteria near a solid boundary were shown to swim on circular trajectories, an effect which can be attributed to a wall induced torque. The increase in speed at a distance of several times the size of the cell body, however, cannot be explained by existing theories which either consider the drag increase on cell body and flagellum near a boundary (resistive force theory) or model the swimming microorganism by a multipole expansion to account for the flow field interaction between cell and boundary. An accumulation of swimming bacteria near solid boundaries has been observed in similar experiments. Our results confirm that collisions with the surface play an important role and hydrodynamic interactions alone cannot explain the steady-state accumulation of cells near the channel walls. Furthermore, we monitored the number growth of cells in the microchannel under medium rich conditions. We observed that, after a lag time, initially isolated cells at the surface started to grow by division into colonies of increasing size, while coexisting with a comparable smaller number of swimming cells. After 5:50 hours, we observed a sudden jump in the number of swimming cells, which was accompanied by a breakup of bigger clusters on the surface. After approximately 30 minutes where planktonic cells dominated in the microchannel, individual swimming cells reattached to the surface. We interpret this process as an emigration and recolonization event. A number of complementary experiments were performed to investigate the influence of collective effects or a depletion of the growth medium on the transition. Similar to earlier observations on another bacterium from the same family we found that the release of cells to the swimming phase is most likely the result of an individual adaption process, where syntheses of proteins for flagellar motility are upregulated after a number of division cycles at the surface. / Bakterien sind einzellige Mikroorganismen, die sich in flüssigem Medium mit Hilfe von rotierenden Flagellen, länglichen Fasern aus Proteinen, schwimmend fortbewegen. In Gegenwart einer Grenzfläche und unter günstigen Umweltbedingungen siedeln sich Bakterien an der Oberfläche an und gehen in eine sesshafte Wachstumsphase über. Die Wachstumsphase an der Oberfläche ist gekennzeichnet durch das Absondern von klebrigen, nährstoffreichen extrazellulären Substanzen, welche die Verbindung der Bakterien untereinander und mit der Oberfläche verstärken. Die entstehenden Aggregate aus extrazellulärer Matrix und Bakterien werden als Biofilm bezeichnet. In der vorliegenden Arbeit untersuchten wir ein Bodenbakterium, Pseudomonas putida (P. putida), welches in wässriger Umgebung an festen Oberflächen Biofilme ausbildet. Wir benutzten photolithographisch hergestellte Mikrokanäle und Hochgeschwindigkeits-Videomikroskopie um die Bewegung schwimmender Zellen in verschiedenen Abständen zu einer Glasoberfläche aufzunehmen. Zusätzlich wurden Daten über das parallel stattfindende Wachstum der sesshaften Zellen an der Oberfläche aufgezeichnet. Die Analyse von Trajektorien frei schwimmender Zellen zeigte, dass sich Liniensegmente, entlang derer sich die Zellen in eine konstante Richtung bewegen, mit scharfen Kehrtwendungen mit einem Winkel von 180 Grad abwechseln. Dabei änderte sich die Schwimmgeschwindigket von einem zum nächsten Segment im Mittel um einen Faktor von 2. Unsere experimentellen Daten waren die Grundlage für ein mathematisches Modell zur Beschreibung der Zellbewegung mit alternierender Geschwindigkeit. Die analytische Lösung des Modells zeigt elegant, dass eine Population von Bakterien, welche zwischen zwei Geschwindigkeiten wechseln, signifikant schneller expandiert als eine Referenzpopulation mit Bakterien konstanter Schwimmgeschwindkeit. Im Vergleich zu frei schwimmenden Bakterien beobachteten wir in der Nähe der Oberfläche eine um 15% erhöhte Schwimmgeschwindigkeit der Zellen und eine um 90 % erhöhte Winkel-geschwindigkeit. Außerdem wurde eine signifikant höhere Zelldichte in der Nähe der Grenzfläche gemessen. Während sich der Anstieg in der Winkelgeschwindigkeit durch ein Drehmoment erklären lässt, welches in Oberflächennähe auf den rotierenden Zellkörper und die rotierenden Flagellen wirkt, kann die Beschleunigung und Akkumulation der Zellen bei dem beobachteten Abstand nicht durch existierende Theorien erklärt werden. Unsere Ergebnisse lassen vermuten, dass neben hydrodynamischen Effekten auch Kollisionen mit der Oberfläche eine wichtige Rolle spielen und sich die Rotationsgeschwindigkeit der Flagellenmotoren in der Nähe einer festen Oberfläche grundsätzlich verändert. Unsere Experimente zum Zellwachstum an Oberflächen zeigten, dass sich etwa sechs Stunden nach Beginn des Experiments größere Kolonien an der Kanaloberfläche auflösen und Zellen für ca. 30 Minuten zurück in die schwimmende Phase wechseln. Ergebnisse von mehreren Vergleichsexperimenten deuten darauf hin, dass dieser Übergang nach einer festen Anzahl von Zellteilungen an der Oberfläche erfolgt und nicht durch den Verbrauch des Wachstumsmediums bedingt wird. Physics
50	Concep??o e estudo de um biofiltro para tratamento de compostos org?nicos vol?teis COVs Alves, Marileide Moraes 11 March 2005 (has links) Made available in DSpace on 2014-12-17T15:01:58Z (GMT). No. of bitstreams: 1 MarileideMA.pdf: 625410 bytes, checksum: 4571e21e5bf4561ee450806713d749af (MD5) Previous issue date: 2005-03-11 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / In the last decade, biological purification of gaseous waste has become an important alternative to many conventional methods of exhaust air treatment. More recently, biofiltration has proved to be an effective and inexpensive method for the treatment of air contaminated with volatile organic compounds (VOCs). A biofilter consists in a reactor packed with a porous solid bed material, where the microorganisms are fixed. During the biofiltration process, polluted air is transported through the biofilter medium where the contaminant is degraded. Within the biofilm, the pollutants in the waste gases are energy and carbon sources for microbial metabolism and are transformed into CO2, water and biomass. The bed material should be characterized by satisfactory mechanical and physical properties as structure, void fraction, specific area and flow resistance. The aim of this research was the biofilter construction and study of the biological degradation of ethanol and toluene, as well as the modeling of the process. Luffa cylindrica is a brazilian fiber that was used as the filtering material of the present work. The parameters and conditions studied were: composition of nutrients solution; effect of microflorae strains, namely Pseudomanas putida and Rhodococcus rhodochrous; waste gas composition; air flow rate; and inlet load of VOCs. The biofilter operated in diffusion regime and the best results for remotion capacity were obtained when a microorganisms consortion of Pseudomanas putida and Rhodococcus rhodochrous,were used, with a gas flow rate of 1 m3.h-1 and molar ratio nitrogene/phosphore N/P=2 in the nutrients solution. The maximum remotion capacity for ethanol was around 90 g.m-3.h-1 and 50 g.m-3.h-1 to toluene. It was proved that toluene has inhibitory effect on the ethanol remotion When the two VOCs were present in the same waste gas, there was a decrease of 40% in ethanol remotion capacity. Luffa cylindrica does not present considerable pressure drop. Ottengraf and van Lith models were used to represent the results obtained for ethanol and toluene, respectively. The application of the transient model indicated a satisfactory approximation between the experimental results obtained for ethanol and toluene vapors biofiltration and the ones predicted it / Na ultima d?cada, a purifica??o biol?gica de rejeitos gasosos tem sido uma importante alternativa em detrimento dos m?todos convencionais de tratamento. Mais recentemente, a biofiltra??o tem se mostrado um m?todo efetivo e de baixo custo para tratamento de ar contaminado com compostos org?nicos vol?teis (COVs). O biofiltro ? um reator que possui um leito filtrante constitu?do por um material poroso, onde est?o fixados os microrganismos. Durante o processo de biofiltra??o, o ar polu?do ? transportado ao longo do leito onde o contaminante ? degradado. No biofilme, os poluentes presentes no efluente gasoso ser?o a fonte de carbono e energia para os microrganismos e ap?s serem metabolizados ser?o transformados em CO2, ?gua e biomassa. O leito filtrante deve ser caracterizado por propriedades f?sicas e mec?nicas como estrutura, fra??o de vazios, ?rea especifica e resist?ncia ao fluxo gasoso. O principal objetivo deste trabalho de pesquisa foi a constru??o de um biofiltro e o estudo da degrada??o do etanol e tolueno, bem como a modelagem do processo. Luffa cylindrica ? uma fibra bastante encontrada no nordeste do Brasil e foi utilizada no presente trabalho como leito filtrante. Os par?metros e condi??es estudos foram: composi??o da solu??o nutriente; efeito da esp?cie de microrganismos, denominadas Pseudomanas putida e Rhodococcus rhodochrous; composi??o do efluente gasoso; taxa de fluxo gasoso e carga de entrada do COV. O biofiltro operou em regime difusional, sendo os melhores resultados para a capacidade de remo??o foram obtidos quando utilizado o cons?rcio de microrganismos de Pseudomanas putida e de Rhodococcus rhodochrous, com uma vaz?o volum?trica de ar de 1 m3.h-1 e raz?o molar nitrog?nio/fosforo N/P=2 na solu??o nutriente. A m?xima capacidade de elimina??o foi de 90 g.m-3.h-1 para o etanol e 50 g.m-3.h-1 para o tolueno. Constatou-se que o tolueno tem efeito inibit?rio sobre a degrada??o do etanol, quando os dois VOCs est?o presentes no mesmo efluente, houve uma queda de 40% na remo??o do etanol. A Luffa cylindrica n?o apresentou grandes valores de perda de carga. Os modelos de Ottengraf e van Lith representaram bem os resultados obtidos para o etanol e tolueno, respectivamente. A aplica??o do modelo transiente evidenciou uma aproxima??o satisfat?ria entre os resultados experimentais obtidos para a biofiltra??o de vapores de etanol e tolueno e aqueles previstos pelo referido modelo Biofiltro Etanol Tolueno Modelagem Pseudomonas putida Rhodococcus rhodochrous Biofilter Ethanol Toluene Modelling Pseudomonas putida Rhodococcus rhodochrous CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA

Search results