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Cyclic-di-GMP Regulates Salmonella Typhimurium Infection of Epithelial Cells and MacrophagesMusa, Abdulafiz 01 May 2023 (has links)
Regulation of the bacterial second messenger cyclic-di-GMP in Salmonella Typhimurium allows it to delicately alter phenotypes to optimize invasion and survive intracellularly in epithelial cells and macrophages to become virulent and cause infection. Cyclic-di-GMP concentration is regulated by the presence of external stimuli, sensory diguanylate cyclases (DGCs) and phosphodiesterases (PDEs), and cyclic-di-GMP binding effectors. Previous studies established that maintenance of low cyclic-di-GMP concentrations is required for survival in macrophages, and that deletion of 3 active PDEs reduces this survival. Here I showed that these 3 PDEs also influenced the infection of epithelial cells. Further studies re-established the decreased survival in an immortalized macrophage cell line and determined that cyclic-di-GMP-binding cellulose synthase BcsA was responsible for the decreased survival in macrophages. Finally, I also identified an active DGC whose deletion within the 3xKO restores survival levels, suggesting that this enzyme is responsible for the synthesis of cyclic-di-GMP during macrophage infection.
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Synthesis of Non-Natural Cyclic Di-Nucleotides for the Investigation of Bacterial Signaling PathwaysFletcher, Madison Hill January 2017 (has links)
Humans navigate the world and interact with others through a complex series of communicative tools. We experience both internal and external stimuli, such as pangs of hunger or pain from an injury, and both verbal and nonverbal language. Bacteria also possess the ability to communicate, albeit in more discreet, yet no less complex ways. Bacteria rely on an incredibly diverse signaling system of triggers and responses in order to survive and to thrive. While we perceive language with our eyes and ears, bacteria employ a system of small molecules to relay both intra- and extracellular messages. They utilize this ability, known as quorum sensing to "talk" to their neighbors, express otherwise latent genetic characteristics, and to defend themselves against enemies. It has been suggested that this internal and external activity is linked, however, little is known about their interplay. This family of molecules, the cyclic di-nucleotides, which includes c-di-GMP and c-di-AMP, are critical to regulating bacterial processes such as motility, glucose remediation, and cell wall homeostasis. Their importance has spurred numerous investigations into their mechanism of action. Although found in very low concentrations within cells, they are capable of regulating a multitude of processes due to their ability to adopt variable conformations. To date, analog design by other groups has focused on the modification of the innate phosphate moiety as well as various substitutions or deletions at the 2'-position on the ribofuranose ring. However, these analogs have not been water soluble, limiting them to in vitro investigations only. We propose that by replacing the phosphate linkage entirely we can increase water solubility and have pursued a divergent total synthesis of various cyclic di-nucleotides featuring biomimetic linkages. Herein we address the methods we explored to optimize the synthesis of our three monomers, coupling strategies employed, the novel application of a Staudinger ligation to afford our abasic macrocycles and finally our progress towards implementing a bis-glycosylation strategy to install the desired nucleobase. We are able to efficiently provide large amounts of a di-amino, azide methyl ester, and N,O-substituted furanose monomers in no more than six steps from a common intermediate. These monomers are coupled and cyclized to form our four scaffolds, amide, carbamate, squaramide, and urea. Finally, we have begun to successfully implement our Brønsted acid mediated glycosylation strategy and understand its limitations. It is our goal to develop a general method to afford a diverse array of conformationally unique and water soluble cyclic di-nucleotide analogs with which to probe these essential bacterial signaling pathways. / Chemistry
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Molecule Analysis in Biological Systems: Plasmids, Nucleotides, and Surface BiomoleculesWamer, Nathan C. 15 September 2022 (has links)
No description available.
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Surface sensing for biofilm formation in Pseudomonas aeruginosaChang, Chien-Yi 01 September 2018 (has links)
Yes / Aggregating and forming biofilms on biotic or abiotic surfaces are ubiquitous bacterial
behaviors under various conditions. In clinical settings, persistent presence of biofilms
increases the risks of healthcare-associated infections and imposes huge healthcare
and economic burdens. Bacteria within biofilms are protected from external damage
and attacks from the host immune system and can exchange genomic information
including antibiotic-resistance genes. Dispersed bacterial cells from attached biofilms
on medical devices or host tissues may also serve as the origin of further infections.
Understanding how bacteria develop biofilms is pertinent to tackle biofilm-associated
infections and transmission. Biofilms have been suggested as a continuum of growth
modes for adapting to different environments, initiating from bacterial cells sensing their
attachment to a surface and then switching cellular physiological status for mature
biofilm development. It is crucial to understand bacterial gene regulatory networks
and decision-making processes for biofilm formation upon initial surface attachment.
Pseudomonas aeruginosa is one of the model microorganisms for studying bacterial
population behaviors. Several hypotheses and studies have suggested that extracellular
macromolecules and appendages play important roles in bacterial responses to the
surface attachment. Here, I review recent studies on potential molecular mechanisms
and signal transduction pathways for P. aeruginosa surface sensing. / This work is supported by University of Bradford
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Second Messenger Cyclic-di-GMP Regulation in Acinetobacter baumanniiDeal, Justin 01 May 2020 (has links)
Over time, “superbugs,” or bacteria that have become resistant to antibiotics, have become a great concern in modern medicine. Viable alternates are currently being looked into as effective and safe ways to prevent or treat infections caused by these superbugs. One such method is through the utilization of the second messenger molecule cyclic-di-GMP (c-di-GMP) that has been shown to regulate phenotypes within other bacteria that may control surface colonization in Acinetobacter baumannii. Through a series of experiments, the active enzymes that create c-di-GMP - diguanylate cyclases - and break down c-di- GMP - phosphodiesterases - have been inactivated in mutants to test phenotypes including biofilm formation, motility, antibiotic resistance, and desiccation survival. The research’s objective is to show that manipulation of c-di-GMP within the multi-drug resistant strain of Acinetobacter baumannii may serve as a means to control this bacteria.
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PA2771 Affects algZ expression and AlgZ/R Phenotypic Outputs in Pseudomonas aeruginosaHughes, Abigail 01 August 2018 (has links) (PDF)
Pseudomonas aeruginosa is a central nosocomial pathogen that can infect any tissue in the human body. A two-component system in P. aeruginosa that regulates many virulence factors is the AlgZ/R system. A previously unidentified regulator of algZ, that does not affect algR, has been identified via transposon mutagenesis, ‘PA2771’. The mechanism of regulation has not been previously studied, and novel evidence of PA2771 functioning as a diguanyalate cyclase was observed. When PA2771 is active, cyclic di-GMP levels are high, promoting the upregulation of the fimU operon and Type VI pili. In the PA2771 mutant, an upregulation in the expression of the flagellar genes and swarming phenotype was observed, and restored via complementation. PA2771's function in regulating algZ expression, is likely indirect and alters virulence gene regulation and phenotypic outputs in P. aeruginosa in the switch between twitching and swimming motility, and appears to be specific to PA2771.
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Inhibiting Survival of Salmonella During Desiccation Through the Use of Naturally Occurring SignalsHeadrick, Joseph 01 May 2023 (has links) (PDF)
A rising problem in agriculture is the increase of antibiotic-resistant Salmonella cases associated with chicken eggs, which transmit infection to humans. To counter this, new approaches to combat Salmonella in chickens and desiccated on eggshells are vital in the prevention of human foodborne illness. Disrupting signaling pathways with naturally occurring compounds provides a potential novel avenue for prevention of Salmonella infections, as this would disrupt sensing of these environments and inhibit subsequent optimal gene expression. Starting with signals identified in previous studies, salicylic acid was found to inhibit Salmonella desiccation survival on both eggshells and plastic. To expand upon this, a desiccation inhibition screen of 285 signals resulted in 9 additional potential desiccation inhibitors, including deoxyribose and guanine. By using natural signals to disrupt bacterial communication pathways, novel therapeutics that serve as viable antibacterial alternatives could be developed to prevent Salmonella contamination at a major source.
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Pathogénicité des Escherichia coli entérohémorragiques : identification de voies de régulation contrôlant la mobilité, la formation de biofilm et le locus d'effacement des entérocytes / Pathogenicity of enterohemorrhagic E. coli : identification of regulatory pathways controlling motility, biofilm formation and the locus of enterocyte effacementBranchu, Priscilla 10 December 2012 (has links)
Les Escherichia coli entérohémorragiques (EHEC) sont responsables de toxi-infections alimentaires conduisant à des colites hémorragiques pouvant se compliquer d’un syndrome hémolytique et urémique. Une fois arrivés dans l’intestin, les EHEC adhèrent aux cellules épithéliales en causant des lésions d’attachement-effacement. Le système de sécrétion de type III et les protéines effectrices requis pour ce phénotype sont codés majoritairement par le locus d’effacement des entérocytes (LEE), constitué de plusieurs opérons (LEE1-5). Notre étude a permis de clarifier une des cascades de régulation contrôlant l’expression du LEE. Par des analyses en qRT-PCR et des immuno précipitations de la chromatine, nous avons déterminé que les régulateurs GadE et GadX sont des répresseurs indirects de l’expression du LEE. GadE active l’expression de gadX, et GadX réprime l’expression de ler, codant pour le principal activateur des opérons LEE2-5. De plus, GadE réprime aussi l’expression des opérons LEE4 et LEE5 indépendamment de Ler. En retour, Ler réprime l’expression de gadE et de gadX. Le monoxyde d’azote (NO) est un effecteur majeur de la réponse immune innée, produit en particulier par les cellules épithéliales intestinales. Il avait été montré que le NO réprime l’expression du LEE et active celle de gadE et de gadX. Notre étude a permis d’identifier le régulateur clé responsable de ces régulations, NsrR. NsrR réprime indirectement l’expression de gadE et gadX et active l’expression des opérons LEE1, LEE4 et LEE5 en se fixant sur leurs promoteurs respectifs. En présence de NO, NsrR devient inactif. Ainsi, le NO réprime directement l’expression du LEE en supprimant la fixation de NsrR aux promoteurs du LEE1, LEE4 et LEE5, et indirectement en activant l’expression de gadE et donc de gadX. Un modèle de régulation intégrant l’ensemble de ces résultats est proposé. D’autre part, nous avons identifié et caractérisé une nouvelle phosphodiestérase spécifique des EHEC les plus pathogènes, VmpA. Par son activité d’hydrolyse du di-GMPc, VmpA contrôle la mobilité bactérienne, la formation de biofilm, et probablement l’expression du LEE, mais aurait aussi un rôle plus général dans la physiologie des EHEC. / Enterohemorrhagic Escherichia coli (EHEC) is a foodborne pathogen causing hemorrhagic colitis and Hemolytic and Uremic Syndrome (HUS). After reaching the gut, EHEC adhere to the epithelial intestinal cells causing attachment/effacement lesions (A/E lesions). The locus of enterocyte effacement (LEE) encodes for a type three secretion system and several effector proteins required for A/E lesions. The LEE is composed of five main operons (LEE1-5). In this work we identified the molecular mechanisms of one of the regulatory cascades controlling LEE expression. Using qRT-PCR and chromatin immunoprécipitation we determined that GadE and GadX are two indirect repressors of LEE expression. GadE activates gadX expression, and GadX represses ler expression, the latter encoding the main activator of LEE2-5 operons. Moreover, GadE also represses LEE4 and LEE5 expression independently of Ler. In turn, Ler represses gadE and gadX expression. Nitric oxide (NO) is a crucial effector of the innate immune response, in part produced by intestinal epithelial cells. It has been shown previously that NO represses LEE and activates gadE and gadX expression. In this study we identified the key regulator responsible for these regulations: NsrR. NsrR represses indirectly gadE and gadX expression and activates LEE1, LEE4 and LEE5 expression by binding to their respective promoter. In the presence of NO, NsrR is inactivated. Thus, NO directly represses LEE expression by relieving NsrR binding to the LEE1, LEE4 and LEE5 promoters, and indirectly by activating gadE and gadX expression. A regulatory model is proposed based on these results.In addition, we identified and characterized a new phosphodiesterase which is specific for the most virulent EHEC strains: VmpA. By degrading c-di-GMPc, VmpA controls motility, biofilms formation, and probably LEE expression. It would also have a global effect on EHEC physiology.
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Rôles des voies de signalisation à di-GMP cyclique chez Legionella pneumophila / Roles of cyclic di-GMP signaling pathways in Legionella pneumophilaAllombert, Julie 15 September 2014 (has links)
Legionella pneumophila est une bactérie aquatique qui prolifère en se répliquant à l’intérieur de cellules amibiennes. Elle peut persister dans ces environnements en vivant en communauté sous forme de biofilms. L’inhalation par l’Homme d’eau contaminée, vaporisée par les réseaux d’eau chaude ou les tours aéro‐réfrigérantes, peut mener à l’infection des macrophages pulmonaires qui se traduit par une grave pneumonie appelée légionellose. Le di‐GMP cyclique (diGMPc) est impliqué, chez diverses espèces bactériennes, dans la transition entre les modes de vie mobiles et sessiles, et chez certains pathogènes, dans la régulation de la virulence. Mon travail de thèse vise à démontrer l’implication des voies de signalisation à diGMPc dans le contrôle de la virulence et de la formation de biofilms par L. pneumophila. Cette implication a été étudiée grâce à l’inactivation systématique de chacun des gènes codant les protéines du métabolisme du diGMPc chez la souche L. pneumophila Lens. Notre étude a révélé que trois de ces protéines, Lpl0780, Lpl0922 et Lpl1118, sont spécifiquement requises pour le contrôle de la virulence et, plus particulièrement, pour la survie précoce lors de l’infection de cellules‐hôtes via l’orchestration de la sécrétion de facteurs de virulence dans la cellule‐hôte. Lpl1118 participerait également à la biogénèse de la vacuole de réplication. Cinq autres de ces protéines sont impliquées dans la régulation de la formation et de l’architecture des biofilms. L’une d’elles est, plus particulièrement, requise pour la formation de biofilms en présence d’oxyde nitrique. Ces résultats contribuent à une meilleure compréhension de l’organisation complexe et spécifique des voies de signalisation à diGMPc chez L. pneumophila et pourraient permettre d’envisager une lutte plus efficace contre ce pathogène / Legionella pneumophila is a bacterium that proliferates in fresh water environments through the replication within amoebas. These bacteria can persist in these environments through biofilm formation. The inhalation of aerosolized contaminated water through hot water systems or cooling towers can induce the infection of human lungs, leading to a severe pneumonia called legionellosis. Cyclic di‐GMP (c‐di‐GMP) in involved, in various bacterial species, in the motility‐to‐sessility transition, and in some pathogens, in virulence control. My work aims to demonstrate the involvement of signaling pathways that use c‐di‐GMP in virulence control and biofilm formation of L. pneumophila. This involvement was investigated by systematically inactivating each gene encoding a c‐di‐GMP‐metabolizing enzyme in L. pneumophila Lens strain. Our work revealed that 3 of these proteins, Lpl0780, Lpl0922 and Lpl1118 are specifically involved in virulence control and, particularly, in the early survival during host cell infection through the orchestration of virulence factors secretion within host cell. Lpl1118 is particularly required for replicative vacuole biogenesis. Five other proteins, participate in the formation and architecture of biofilms. One of them is more specifically involved in biofilm formation in the presence of nitric oxide. These results help to better understand the complexity and the specificity of c‐di‐GMP signaling pathways in L. pneumophila and should allow the exploration of more effective ways to fight this pathogen
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Dissecting the C-DI-GMP Signaling Pathways : Tools and TalesSharma, Indra Mani January 2014 (has links) (PDF)
Evaluating aerodynamic noise from aircraft engines is a design stage process, so that it conform to regulations at airports. Aerodynamic noise is also a principal source of structural vibration and internal noise in short/vertical take off and landing and rocket launches. Acoustic loads may be critical for the proper functioning of electronic and mechanical components. It is imperative to have tools with capability to predict noise generation from turbulent flows. Understanding the mechanism of noise generation is essential in identifying methods for noise reduction.
Lighthill (1952) and Lighthill (1954) provided the first explanation for the mechanism of aerodynamic noise generation and a procedure to estimate the radiated sound field. Many such procedures, known as acoustic analogies are used for estimating the radiated sound field in terms of the turbulent fluid flow properties. In these methods, the governing equations of the fluid flow are rearranged into two parts, the acoustic sources and the propagation terms. The noise source terms and propagation terms are different in different approaches. A good description of the turbulent flow field and the noise sources is required to understand the mechanism of noise generation.
Computational aeroacoustics (CAA) tools are used to calculate the radiated far field noise. The inputs to the CAA tools are results from CFD simulations which provide details of the turbulent flow field and noise sources. Reynolds-Averaged Navier Stokes (RANS) solutions can be used as inputs to CAA tools which require only time-averaged mean quantities. The output of such tools will also be mean quantities. While complete unsteady turbulent flow details can be obtained from Direct Numerical Simulation (DNS), the computation is limited to low or moderate Reynolds number flows. Large eddy simulations (LES) provide accurate description for the dynamics of a range of large scales. Most of the kinetic energy in a turbulent flow is accounted by the large-scale structures. It is also the large-scale structures which accounts for the maximum contribution towards the radiated sound field. The results from LES can be used as an input to a suitable CAA tool to calculate the sound field.
Numerical prediction of turbulent flow field, the acoustic sources and the radiated sound field is at the focus of this study. LES based on explicit filtering method is used for the simulations. The method uses a low-pass compact filter to account for the sub-grid scale effects. A one-parameter fourth-order compact filter scheme from Lele (1992) is used for this purpose. LES has been carried out for four different flow situations: (i) round jet (ii) plane jet (iii) impinging round jet and (iv) impinging plane jet. LES has been used to calculate the unsteady flow evolution of these cases and the Lighthill’s acoustic sources. A compact difference scheme proposed by Hixon & Turkel (1998) which involves only bi-diagonal matrices are used for evaluating spatial derivatives. The scheme provides similar spectral resolution as standard tridiagonal compact schemes for the first spatial derivatives. The scheme is computationally less intensive as it involves only bi-diagonal matrices. Also, the scheme employs only a two-point stencil.
To calculate the radiated sound field, the Helmholtz equation is solved using the Green’s function approach, in the form of the Kirchhoff-Helmholtz integral. The integral is performed over a surface which is present entirely in the linear region and covers the volume where acoustic sources are present. The time series data of pressure and the normal component of the pressure gradient on the surface are obtained from the CFD results. The Fourier transforms of the time series of pressure and pressure gradient are then calculated and are used as input for the Kirchhoff-Helmholtz integral.
The flow evolution for free jets is characterised by the growth of the instability waves in the shear layer which then rolls up into large vortices. These large vortical structures then break down into smaller ones in a cascade which are convected downstream with the flow. The rms values of the Lighthill’s acoustic sources showed that the sources are located mainly at regions immediately downstream of jet break down. This corresponds to the large scale structures at break down.
The radiated sound field from free jets contains two components of noise from the large scales and from the small scales. The large structures are the dominant source for the radiated sound field. The contribution from the large structures is directional, mainly at small angles to the downstream direction. To account for the difference in jet core length, the far field SPL are calculated at points suitably shifted based on the jet core length. The peak value for the radiated sound field occurs between 30°and 35°as reported in literature.
Convection of acoustic sources causes the radiated sound field to be altered due to Doppler effect. Lighthills sources along the shear layer were examined in the form of (x, t) plots and phase velocity pattern in (ω, k) plots to analyse for their convective speeds. These revealed that there is no unique convective speeds for the acoustic sources. The median convective velocity Uc of the acoustic sources in the shear layer is proportional to the jet velocity Uj at the center of the nozzle as Uc ≈ 0.6Uj.
Simulations of the round jet at Mach number 0.9 were used for validating the LES approach. Five different cases of the round jet were used to understand the effect of Reynolds number and inflow perturbation on the flow, acoustic sources and the radiated sound field. Simulations were carried out for an Euler and LES at Reynolds number 3600 and 88000 at two different inflow perturbations. The LES results for the mean flow field, turbulence profiles and SPL directivity were compared with DNS of Freund (2001) and experimental data available in literature. The LES results showed that an increase in inflow forcing and higher Reynolds number caused the jet core length to reduce. The turbulent energy spectra showed that the energy content in smaller scale is higher for higher Reynolds number.
LES of plane jets were carried out for two different cases, one with a co-flow and one without co-flow. LES of plane jets were carried out to understand the effect of co-flow on the sound field. The plane jets were of Mach number 0.5 and Reynolds number of 3000 based on center-line velocity excess at the nozzle. This is similar to the DNS by Stanley et al. (2002). It was identified that the co-flow leads to a reduction in turbulence levels. This was also corroborated by the turbulent energy spectrum plots. The far field radiation for the case without co-flow is higher over all angles. The contribution from the low frequencies is directional, mainly towards the downstream direction. The range of dominant convective velocities of the acoustic sources were different along shear layers and center-line.
The plane jet results were also used to bring out a qualitative comparison of flow and the radiation characteristics with round jets. For the round jet, the center-line velocity decays linearly with the stream-wise distance. In the plane jet case, it is the square of the center-line velocity excess which decays linearly with the stream-wise distance. The turbulence levels at any section scales with the center-line stream-wise velocity. The decay of turbulence level is slower for the plane jet and hence the acoustic sources are present for longer distance along the downstream direction.
Subsonic impinging jets are composed of four regions, the jet core, the fully developed jet, the impingement zone and the wall jet. The presence of the second region (fully developed free jet) depends on the distance of the wall from the nozzle and the length of the jet core. In impinging jets, reflection from the wall and the wall jet are additional sources of noise compared to the free jets. The results are analysed for the contribution of the different regions of the flow towards the radiated sound field. LES simulations of impinging round jets and impinging plane jet were carried out for this purpose. In addition, the results have been compared with equivalent free jets. The directivity plots showed that the SPL levels are significantly higher for the impinging jets at all angles. For free jets, a typical time scale for the acoustic sources is the ratio of the nozzle size to the jet velocity. This is ro/Uj for round jets and h/Uj for plane jets. For impinging jets, the non-dimensionlised rms of Lighthill’s source indicates that the time scale for acoustic sources is the ratio of the height of the nozzle from the wall to the jet velocity be L/Uj.
LES of impinging round jets was carried out for two cases with different inflow perturbations. The jets were at Reynolds number of 88000 and Mach number of 0.9, same as the free jet cases. The impingement wall was at a distance L = 24ro from the nozzle exit. For impinging round jets, the SPL levels are found to be higher than the equivalent free jets. From the SPL levels and radiated noise spectra it was shown that the contribution from the large scale structures and its reflection from the wall is directional and at small angles to the wall normal. The difference in the range of angles where the radiation from the large scale structures were observed shows the significance of refraction of sound waves inside the flow. The rms values of the Lighthill’s sources indicate two dominant regions for the sources, just downstream of jet breakdown and in the impingement zone.
The LES of impinging plane jet was done for a jet of Mach number 0.5 and Reynolds number of 6000. The impingement wall was at a distance L = 10h from the nozzle exit. The radiated sound field appears to emanate from this impingement zone. The directivity and the spectrum plots of the far field SPL indicate that there is no preferred direction of radiation from the impingement zone. The Lighthill’s sources are concentrated mainly in the impingement zone. The rms values of the sources indicate that the peak values occur in the impingement zone.
The results from the different flow situations demonstrates the capability of LES with explicit filtering method in predicting the turbulent flow and radiated noise field. The method is robust and has been successfully used for moderate Reynolds number and an Euler simulation. An important feature is that LES can be used to identify acoustic sources and its convective speeds. It has been shown that the Lighthill source calculations, the calculated sound field and the observed radiation patterns agree well. An explanation for these based on the different turbulent flow structures has also been provided.
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