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Disarming bacteria through inhibition of quorum sensingHerndon, Leslie Ruth. January 2010 (has links)
Honors Project--Smith College, Northampton, Mass., 2010. / Includes bibliographical references.
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Quorum sensing in the mouse intestinal pathogen Citrobacter rodentiumRoberts, Kevin James January 2011 (has links)
No description available.
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Investigating control strategies to limit biofilm formation and/or quorum sensing by Aeromonas spp. isolates.Mboneni, Tondani Asaph. 12 September 2014 (has links)
Aeromonas spp. are important biofilm-forming fish pathogens causing great economic loss in
aquaculture. Bacterial cells within biofilms communicate with each other via the production
of quorum sensing (QS) signalling molecules called acyl-homoserine lactones (AHLs), which
influence biofilm development and production of virulence factors. QS together with efflux
pumps, extracellular polymeric substances (EPS) and eDNA are associated with resistance of
bacteria to antimicrobial agents. These mechanisms provide a target for different control
strategies. The objectives of this study were to: (i) determine effective antimicrobial agents
and exposure concentrations against aeromonad biofilms; (ii) ascertain whether Aeromonas
spp. produce QS molecules or display efflux pump phenotypes, and (iii) investigate the effect
of antimicrobial agents, lytic enzymes, efflux pump inhibitors and QS inhibitors on biofilm
formation by Aeromonas spp. isolates.signalling MICs of azithromycin, ciprofloxacin,
ceftazidime, and tetracycline ranged between 0.064-64 μg/ml. Gentamicin had the lowest
MICs which ranged between 0.0048-32 μg/ml.The highest MBIC at which antimicrobial
agents exhibited inhibition was 4096 μg/ml. Majority of the isolates displayed MIC levels
ranging from 2-32 μg/ml, and thus a ≥ 128-fold increase was observed for MBICs. Of the
sub-MIC, MIC and supra-MIC exposures tested, MIC exposure of biofilms was the most
effective. Gentamicin MIC exposures inhibited initial attachment of 100% (28/28) of isolates
tested, while azithromycin MIC exposure detached 82.1% (23/28) of isolates. Carbonyl
cyanide 3-chlorophenylhydrazone completely inhibited efflux of cefpodoximeby 14.8% of
isolates. However, 1-(1-naphthylmethyl)-piperazinewas more effective, decreasing adherence
of 98.1% (53/54) of isolates and increasing detachment of 100% (54/54) of isolates. DNase I
was more effective against the mature biofilm,where it increased biofilm detachment of
64.8% of isolates. Of the 48 Aeromonas spp. and six Plesiomonas spp. isolates used, only a
single isolate induced the production of violacein by the C. violaceum CV026 biosensor,
while all isolates induced the utilization of X-gal to produce a visible blue colour with the
A.tumefaciens A136 biosensor. Based on the reaction to the two biosensors, aeromonads
appeared to produce long-chain acylhomoserine lactones. By blocking QS, S-adenosyl
homoserinewas more effective in inhibiting both initial attachment (72.2% of isolates) and
pre-formed biofilms (detached 74.1% of isolates). The investigated strategies are promising
for Aeromonas spp. biofilm inhibition. Thesecould be explored aspotential therapeutic
measures in aquaculture systems to limit aeromonad pathogenicity and overcome
antimicrobial resistance. / Thesis (M.Sc.)-University of KwaZulu-Natal, Durban, 2013.
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Structural studies of Vibrio cholerae quorum sensing proteinsJahan, Nasrin January 2011 (has links)
The spread of cholera is always associated with contaminated food or water and this is the reason this disease has been endemic in developing countries for centuries due to their lack of proper sanitation facilities and poor or no infrastructure for sewage systems. Cholera can spread quickly and sporadically after any natural disaster that destroys the sewage system or safe drinking water supply of both developed and undeveloped countries. In Southeast Asia in December 2004 and in Pakistan and Haiti 2010, cholera outbreaks followed the natural disasters; with most of the cholera victims being children. Although it is known that the best way to prevent cholera outbreak is the development of the infrastructure, provision of a safe drinking water supply and proper sanitation, this is a very long-term process, and most of the developing countries cannot afford such improvements. These situations can be made worse by natural disasters. Therefore there is a pressing need for the development of a cholera vaccine and there have been numerous research projects working towards this end for several decades. A few of them have been successful to date but because of the severe side effects and narrow range of protection, more effective and wider range vaccine development is still ongoing. In this study, crystallographic and enzymatic studies have been carried out on several novel proteins involved in the control of the production of the factors required for quorum sensing. Quorum sensing is a process in which bacterial cells communicate among themselves by the synthesis, release and detection of small chemical compounds called autoinducers. In this work, structural analysis was carried out on proteins involved in the synthesis and detection of the major autoinducer of Vibrio cholerae, named CAI-1. The crystal structure of CqsA involved in CAI-1 synthesis has been successfully solved and its enzymatic properties have been characterized. The structure of one domain of the cytoplasmic region of the CAI-1 receptor CqsS was also elucidated, and other domains were expressed. The crystal structure of another enzyme (VCA0859, an aldo-keto reductase) thought to have been involved in the synthesis of CAI-1 was also determined. Another protein named VCA0939 was also studied, due to its importance in biofilm development, and its ability to control quorum-sensing in an alternative pathway in the mutated version of pathogenic strains of V. cholerae that were responsible for the seventh cholera pandemic. The aim of this project was to understand the three dimensional structure of some proteins that are involved in quorum sensing and control of the expression of virulence genes for the pathogenesis of V. cholerae. Understanding the three dimensional structure of the proteins and the mode of autoinducer binding to its specific receptor could be highly valuable in the development of a chemical compound that could lead to the discovery of a novel drug with the ability to target cross species specification.
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Quorum sensing gene regulation in Pseudomonas aeruginosaGupta, Rashmi 19 March 2012 (has links)
Pseudomonas aeruginosa is an opportunistic human pathogen that infects immunocompromised individuals such as those suffering from burns or the genetic disorder cystic fibrosis. This organism utilizes a cell-cell communication mechanism known as quorum sensing (QS) to coordinate virulence gene expression and biofilm formation. It has three interconnected QS systems, namely las, rhl and pqs. Each system is comprised of autoinducer synthesis genes, lasI, rhlI, and pqsABCDH, and the cognate regulatory genes, lasR, rhlR, and pqsR, respectively. Here, we primarily focused on understanding the regulatory mechanisms of QS, which we investigated at two levels. First, we sought to identify additional activators that regulate QS at the level of the las and rhl systems, and second, we investigated the regulation of downstream genes, particularly biofilm exopolysaccharide genes, by QS. For the first approach, we employed a mutagenesis screen to identify global QS activators. We screened a non-redundant transposon library for mutants deficient in QS-dependent phenotypes. We identified a novel regulator, GidA, a glucose-inhibited cell division protein, that selectively controls QS gene expression posttranscriptionally via RhlR-dependent and –independent pathways. For the second part, we established a regulatory link between QS and Pel exopolysaccharide. We showed that the las system represses Pel and modulates colony biofilm structure through the pqs pathway. LasR mediated colony rugosity via 4-hydroxy-2-alkylquinolines in a PqsR-independent manner, ascribing a novel function to this class of signaling molecules in P. aeruginosa. Taken together, our study highlights the complexity of QS, which involves integration of various regulatory pathways to control downstream processes in response to different environmental conditions. / Graduation date: 2012
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Quorum sensing in the Vibrio fisheri - Euprymna scolopes symbiosis /Lupp, Claudia. January 2003 (has links)
Thesis (Ph. D.)--University of Hawaii at Manoa, 2003. / Includes bibliographical references (leaves 162-167). Also available via World Wide Web.
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Değişik klinik örneklerden izole edilen pseudomonas aeruginosa suşlarında virülans faktörleri ve bu faktörlerin sentezleşmesinde rol oynayan bakteriyel iletişim "Quorum sensing" sistemindeki sinyal moleküllerinin hastalık patogenezindeki rolü /Önal, Süleyman. Arıdoğan, Buket Cicioğlu. January 2005 (has links) (PDF)
Tez (Tıpta Uzmanlık) - Süleyman Demirel Üniversitesi, Tıp Fakültesi, Mikrobiyoloji ve Klinik Mikrobiyoloji Anabilim Dalı, 2005. / Bibliyografya var.
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Yoğun bakım ünitelerinden izole edilen Pseudomonas aeruginosa suşlarında N-açil homoserin lakton üretiminin araştırılması /Ulusoy, Seyhan. Tınaz, Gülgün. January 2007 (has links) (PDF)
Tez (Doktora) - Süleyman Demirel Üniversitesi, Fen Bilimleri Enstitüsü, Biyoloji Anabilim Dalı, 2007. / Bibliyografya var.
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Non-coding small RNAs regulate multiple mRNA targets to control the Vibrio cholerae quorum sensing responseZhao, Xiaonan 09 April 2013 (has links)
The waterborne bacterial pathogen Vibrio cholerae uses a process of cell-to-cell communication called quorum sensing (QS) to coordinate transcription of four sRNAs (Qrr1-4; quorum regulatory RNAs) in response to changes in extracellular QS signals that accumulate with cell density. The Qrr sRNAs are predicted to negatively control translation of several mRNAs, including hapR, which encodes the master QS transcription factor that controls genes for virulence factors, biofilm formation, protease production, and DNA uptake. The Qrr sRNAs are also predicted to positively control vca0939, which encodes a GGDEF family protein that promote biofilm formation by elevating intracellular levels of the second messenger molecule c-di-GMP. Using complementary in vivo, in vitro, and bioinformatic approaches, I showed that Qrr sRNAs base-pair with and repress translation of the mRNA encoding HapR. A single nucleotide mutation in Qrr RNA abolishes hapR pairing and thus prevents cholera toxin production and biofilm formation that are important in disease, and also alters expression of competence genes required for uptake of DNA in marine settings. I also demonstrated that base-pairing of the Qrr sRNAs with vca0939 disrupts an inhibitory structure in the 5' UTR of the mRNA. Qrr-activated translation of vca0939 was sufficient to promote synthesis of c-di-GMP and early biofilm formation in a HapR-independent manner. Thus, these studies define the non-coding Qrr sRNAs as a critical component allowing V. cholerae to sense and respond to environmental cues to regulate important developmental processes such as biofilm formation.
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Inhibition du mécanisme de quorum sensing et de la formation de biofilm chez Pseudomonas aerugionsa par des composés bioactifs de Dalbergia trichocarpa (Fabaceae) / Dalbergia trichocarpa, source of natural compounds which affect quorum sensing mechanism and biofilm formation in Pseudomonas aeruginosaRasamiravaka, Tsiry 13 June 2014 (has links)
Depuis quelques décennies, les bactéries pathogènes multi-résistantes aux antibiotiques sont de plus en plus répandues dans le monde. Cette situation a suscité le besoin et l'intérêt de trouver des médicaments antibactériens avec de nouvelles cibles potentiels. La découverte des systèmes de communication de type quorum sensing (QS) régulant la virulence bactérienne représente une des cibles privilégiées pour contrôler les bactéries pathogènes autrement qu’en interférant avec leur croissance bactérienne. Dans l’écosystème naturel, un grand nombre d'organismes (Eucaryotes et Procaryotes) co-existent en synthétisant chacun de leur côté des métabolites secondaires. Les plantes, étant en permanence en contact avec des bactéries, synthétisent des métabolites secondaires capables d’inhiber l’expression des gènes de virulence chez les bactéries sans pour autant affecter ni leur croissance ni leur viabilité. Notre objectif a été de contribuer à la valorisation de la biodiversité malgache en identifiant des plantes et en y isolant les composés actifs présentant une capacité à perturber le mécanisme de QS chez P. aeruginosa PAO1, une bactérie pathogène opportuniste de l’homme, des animaux et des plantes. Dans ce but, nous avons tout d’abord réalisé un criblage d’activité anti-QS de différents flavonoïdes commerciaux. De ce criblage, la narigenine et la naringine ont été sélectionnées pour être les molécules de contrôle positif et négatif des tests d’activité anti-QS, respectivement. Par la suite, 4 espèces de Dalbergia endémique de Madagascar ont fait l’objet de criblage pour leur activité anti-QS. Ce travail a fait ressortir l’activité anti-QS très intéressante de l’écorce de D. trichocarpa à partir de laquelle nous avons isolée le composé actif nommé la coumarate de l’aldéhyde-oléanolique (OALC). Le contrôle naringénine et l’OALC ne présente aucun effets inhibiteurs sur la croissance bactérienne de P. aeruginosa PAO1 et sur l’expression du gène QS-indépendant aceA suggérant une activité d’inhibition spécifiquement liée au QS. Cependant, ces deux molécules présentent des spectres d’inhibition différente. En effet, les deux molécules diffèrent dans le sens que la naringenine n’inhibe pas l’expression du gène gacA et la motilité de type twitching contrairement à l’OALC. Ces résultats suggèrent que l’OALC et la naringénine représente des candidats potentiels pour des investigations in vivo quant à leur effet anti-QS et anti-biofilm sur des modèles infectieux d’organismes supérieurs. Par ailleurs, ils démontrent la richesse des plantes malgaches comme sources de nouvelles molécules anti-virulence ainsi que l’importance de telle investigation afin de renforcer notre arsenal thérapeutique en composé antibactérienne dans la lutte continuelle contre les bactéries pathogènes/Since few decades, multidrug resistant bacteria spread all over the world. This situation gives rise to the need and interest in finding antibacterial drugs with novel potent target. Discovery of communication system termed Quorum Sensing (QS) which regulate bacterial virulence factor represent privileged target in another way than interfering with bacterial growth. In natural ecosystem, many organisms (Eukaryotes and Prokaryotes) produce secondary metabolites. As plants are permanently in contact with bacteria, they have synthetized secondary metabolites which inhibit bacterial virulence gene expression without affecting bacterial viability. Our goal was to contribute to the valorization of Malagasy biodiversity and specifically to identify plants and isolate bioactive compound presenting ability to disrupt QS mechanism in P. aeruginosa, opportunistic pathogen bacteria in plants, animals and human. In this purpose, screening of commercial available flavonoids has been firstly carried out. From this screening, naringenin and naringin have been selected to be used as positive and negative QS inhibitor controls, respectively. Subsequently, Four Malagasy endemic Dalbergia species have been screened for their anti-QS activity. This work pointed out the interesting anti-QS activity of D. trichocarpa bark extract which led to the isolation of oleanolic aldehyde coumarate (OALC) as one major bioactive compound. At the concentration tested, naringenin and OALC did not affect P. aeruginosa PAO1 viability and didn’t reduce QS-independent aceA gene expression suggesting a specific anti-QS activity. However, these two compounds present different inhibition spectrum. Indeed, naringenin didn’t inhibit gacA gene expression and twitching motility contrarily to OALC. These results suggest that OALC and naringenin represent potent candidates for in vivo investigations in their anti-QS and anti-biofilm activity onto eukaryotes infectious model. Besides, this finding demonstrated the potent source for novel anti-virulence compounds of Malagasy flora and the importance of this kind of research to strengthen our antimicrobial therapeutic arsenal with the ongoing struggle against bacterial infection. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
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