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The role of protein-membrane interactions in modulation of signaling by bacterial chemoreceptorsDraheim, Roger Russell 15 May 2009 (has links)
Environmental signals are sensed by membrane-spanning receptors that communicate with the cell interior. Bacterial chemoreceptors modulate the activity of the CheA kinase in response to binding of small ligands or upon interaction with substrate-bound periplasmic-binding proteins. The mechanism of signal transduction across the membrane is a displacement of the second transmembrane domain (TM2) a few angstroms toward the cytoplasm. This movement repositions a dynamic transmembrane helix relative to the plane of the cell membrane. The research presented in this dissertation investigated the contribution of TM2-membrane interactions to signaling by the aspartate chemoreceptor (Tar) of Escherichia coli. Aromatic residues that reside at the cytoplasmic polar-hydrophobic membrane interface (Trp-209 and Tyr-210) were found to play a significant role in regulating signaling by Tar. These interactions were subsequently manipulated to modulate the signaling properties of Tar. The baseline signaling state was shown to be incrementally altered by repositioning the Trp-209/Tyr-210 pair. To our knowledge, this is the first example of harnessing membrane-protein interactions to modulate the signal output of a transmembrane receptor in a controlled and predictable manner. Potential long-term applications include the use of analogous mutations to elucidate two-component signaling pathways, to engineer the signaling parameters of biosensors that incorporate chemoreceptors, and to predict the movement of dynamic transmembrane helices in silico.
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VanT, a central regulator of quorum sensing signalling in Vibrio anguillarumCroxatto, Antony January 2006 (has links)
Many bacteria produce signal molecules that serve in a cell-to-cell communication system termed quorum sensing. This signalling system allows a bacterial population to co-ordinately regulate functions according to their cell number in a defined environment. As bacterial growth progresses towards the stationary phase, signalling molecules accumulate in the growth medium and, above a certain threshold level, regulate the expression of genes involved in diverse functions. Most of the functions monitored by quorum sensing are most beneficial when they are performed as a population than by single cells, such as virulence factor production, biofilm formation, conjugation and bioluminescence. Vibrio anguillarum is a bacterial pathogen that causes terminal hemorrhagic septicaemia in marine fish. V. anguillarum possesses multiple quorum sensing circuits similar to the LuxI/LuxR and the V. harveyi-type systems. In this study, a characterisation of the quorum sensing-regulated transcriptional activator VanT was made. VanT belongs to the V. harveyi LuxR family of transcriptional regulators, which play a central role in quorum sensing signalling in Vibrio species. VanT was shown to regulate serine, metalloprotease, pigment, exopolysaccharide (EPS) and biofilm production. VanT repressed an EPS locus that plays a critical role in bacterial colonization of the fish integument and virulence. The V. harveyi-like quorum sensing systems were shown to limit rather than induce vanT expression throughout growth in V. anguillarum. In contrast to homologous proteins in other Vibrio spp., the quorum sensing phosphorelay protein VanU and the response regulator VanO had antagonistic roles in the regulation of vanT expression. Unlike other members of the luxR family, vanT was expressed at low cell density and no significant induction due to quorum sensing regulation was seen. Interestingly, VanT expression was induced by the alternative sigma factor RpoS as the cells entered stationary phase. RpoS was shown to regulate VanT expression post-transcriptionally by promoting vanT mRNA stability. VanT and RpoS were important for bacterial survival under stress conditions, indicating that VanT is likely an essential factor of V. anguillarum stress response.
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Functional Characterization of the Arginine Transaminase Pathway in Pseudomonas aeruginosa PAO1Yang, Zhe 27 November 2007 (has links)
Arginine utilization in Pseudomonas aeruginosa with multiple catabolic pathways represents one of the best examples of metabolic versatility of this organism. To identify genes of this complex arginine network, we employed DNA microarray to analyze the transcriptional profiles of this organism in response to L-arginine. While most genes in arginine uptake, regulation and metabolism have been identified as members of the ArgR regulon in our previous study, eighteen putative transcriptional units of 38 genes including the two known genes of the arginine dehydrogenase (ADH) pathway, kauB and gbuA, were found inducible by exogenous L-arginine but independent of ArgR. The potential physiological functions of those candidate genes in L-arginine utilization were studied by growth phenotype analysis in knockout mutants. The insertion mutation of aruH encoding an L-arginine:pyruvate transaminase abolished the capability to grow on L-arginine of an aruF mutant devoid of a functional arginine succinyltransferase (AST) pathway, the major route of arginine utilization. The aruH gene was cloned and over-expressed in E. coli. Taking L-arginine and pyruvate as the substrates, the reaction products of recombinant enzyme were identified by MS and HPLC as 2-ketoarginine and L-alanine. Lineweaver-Burk plots of the data revealed a series of parallel lines characteristic of ping-pong kinetics mechanism, and the apparent Km and catalytic efficiency (Kcat/Km) were 1.6 ± 0.1 mM and 24.1 mM-1 s-1 for pyruvate and 13.9 ± 0.8 mM and 2.8 mM-1 s-1 for L-arginine. Recombinant AruH showed an optimal pH at 9.0 and substrate specificity with an order of preference being Arg > Lys > Met > Leu > Orn > Gln. These data led us to propose the arginine transaminase (ATA) pathway that removes the α-amino group of L-arginine via transamination instead of oxidative deamination by dehydrogenase or oxidase as originally proposed. In the same genetic locus, we also identified a two-component system, AruRS, for the regulation of arginine-responsive induction of the ATA pathway. Our latest DNA microarray experiments under D-arginine conditions also revealed PA3863 as the candidate gene encoding D-arginine dehydrogenase which might lead to the recognition of a wider network of arginine metabolism than we previously recognized.
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The Sinorhizobium meliloti ExoS/ChvI two-component regulatory systemBelanger, Louise January 2009 (has links)
Exopolysaccharides are essential for the establishment of the symbiosis between Sinorhizobium meliloti and Medicago sativa (alfalfa). The ExoS/ChvI two-component regulatory system is known as a regulator of succinoglycan production but the genes that are directly regulated by ChvI have not been determined. Difficulty isolating exoS and chvI null mutants has prompted the suggestion that these genes are essential for S. meliloti viability. We have successfully isolated exoS and chvI null mutants using a merodiploid facilitated strategy. We present evidence that the S. meliloti ExoS/ChvI two-component regulatory system is essential for symbiosis with alfalfa. Phenotypic analyses of exoS and chvI null mutant strains demonstrate that ExoS/ChvI controls both succinoglycan and galactoglucan production and is required for growth on over 21 different carbon sources. These new findings suggest that the ExoS/ChvI regulatory targets might not be the exo genes that are specific for succinoglycan biosynthesis but rather genes that have common influence on both succinoglycan and galactoglucan production. To obtain further insight into the nature of the ChvI regulon, we obtained a purified His•Tag-ChvI and used it to perform modified electrophoretic mobility shift assays. These assays were done using genomic DNA and were followed by cloning of DNA fragments having the highest affinity for ChvI. Sequencing of these fragments revealed that ChvI has a diverse regulon, it affects transcription of genes encoding enzymes that are involved in different pathways. Transcriptional gene fusion assays confirmed that ChvI is important for the activation of the transcription of the msbA2 operon, as well as repression of the transcription of the rhizobactin 1021 operon and genes SMc00262-61. ChvI-regulation of genes that are part of the connected thiamine and histidine biosynthesis pathways suggest that ChvI could act in a concerted manner to avoid limitation of important intermediates in these pathways. This study presents for the first time genes directly regulated by ChvI and this includes none of the exo genes. This work opens new avenues in the understanding of the global regulatory role of the symbiotically important ExoS/ChvI two-component regulatory system.
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The Sinorhizobium meliloti ExoS/ChvI two-component regulatory systemBelanger, Louise January 2009 (has links)
Exopolysaccharides are essential for the establishment of the symbiosis between Sinorhizobium meliloti and Medicago sativa (alfalfa). The ExoS/ChvI two-component regulatory system is known as a regulator of succinoglycan production but the genes that are directly regulated by ChvI have not been determined. Difficulty isolating exoS and chvI null mutants has prompted the suggestion that these genes are essential for S. meliloti viability. We have successfully isolated exoS and chvI null mutants using a merodiploid facilitated strategy. We present evidence that the S. meliloti ExoS/ChvI two-component regulatory system is essential for symbiosis with alfalfa. Phenotypic analyses of exoS and chvI null mutant strains demonstrate that ExoS/ChvI controls both succinoglycan and galactoglucan production and is required for growth on over 21 different carbon sources. These new findings suggest that the ExoS/ChvI regulatory targets might not be the exo genes that are specific for succinoglycan biosynthesis but rather genes that have common influence on both succinoglycan and galactoglucan production. To obtain further insight into the nature of the ChvI regulon, we obtained a purified His•Tag-ChvI and used it to perform modified electrophoretic mobility shift assays. These assays were done using genomic DNA and were followed by cloning of DNA fragments having the highest affinity for ChvI. Sequencing of these fragments revealed that ChvI has a diverse regulon, it affects transcription of genes encoding enzymes that are involved in different pathways. Transcriptional gene fusion assays confirmed that ChvI is important for the activation of the transcription of the msbA2 operon, as well as repression of the transcription of the rhizobactin 1021 operon and genes SMc00262-61. ChvI-regulation of genes that are part of the connected thiamine and histidine biosynthesis pathways suggest that ChvI could act in a concerted manner to avoid limitation of important intermediates in these pathways. This study presents for the first time genes directly regulated by ChvI and this includes none of the exo genes. This work opens new avenues in the understanding of the global regulatory role of the symbiotically important ExoS/ChvI two-component regulatory system.
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The role of protein-membrane interactions in modulation of signaling by bacterial chemoreceptorsDraheim, Roger Russell 15 May 2009 (has links)
Environmental signals are sensed by membrane-spanning receptors that communicate with the cell interior. Bacterial chemoreceptors modulate the activity of the CheA kinase in response to binding of small ligands or upon interaction with substrate-bound periplasmic-binding proteins. The mechanism of signal transduction across the membrane is a displacement of the second transmembrane domain (TM2) a few angstroms toward the cytoplasm. This movement repositions a dynamic transmembrane helix relative to the plane of the cell membrane. The research presented in this dissertation investigated the contribution of TM2-membrane interactions to signaling by the aspartate chemoreceptor (Tar) of Escherichia coli. Aromatic residues that reside at the cytoplasmic polar-hydrophobic membrane interface (Trp-209 and Tyr-210) were found to play a significant role in regulating signaling by Tar. These interactions were subsequently manipulated to modulate the signaling properties of Tar. The baseline signaling state was shown to be incrementally altered by repositioning the Trp-209/Tyr-210 pair. To our knowledge, this is the first example of harnessing membrane-protein interactions to modulate the signal output of a transmembrane receptor in a controlled and predictable manner. Potential long-term applications include the use of analogous mutations to elucidate two-component signaling pathways, to engineer the signaling parameters of biosensors that incorporate chemoreceptors, and to predict the movement of dynamic transmembrane helices in silico.
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Generation and characterization of an attenuated mutant in a response-regulator gene of Francisella tularensis live vaccine strain (LVS)Sammons, Wendy L 01 June 2007 (has links)
Francisella tularensis is a zoonotic bacterium that must exist in diverse environments ranging from arthropod vectors to mammalian hosts. To better understand how genes are regulated in these different environments, a transcriptional response- regulator gene (genome locus FTL0552) was deleted in F. tularensis live vaccine strain (LVS). The FTL0552 deletion mutant exhibited slightly reduced rates of extracellular growth but was unable to replicate or survive in mouse macrophages and was avirulent in the mouse model using either BALB/c or C57BL/6 mice. Mice infected with the FTL0552 mutant produced reduced levels of inflammatory cytokines, exhibited reduced histopathology and cleared the bacteria quicker than mice infected with LVS. Mice that survived infection with the FTL0552 mutant were afforded partial protection when challenged with a lethal dose of the virulent Schu S4 strain (4 of 10 survivors, day 21 post infection) when compared to naïve mice (0 of 10 survivors by day 7 post infection). Microarray experiments indicate that 148 genes are regulated in the FTL0552 mutant. Most of the genes are down regulated, indicating that FTL0552 controls transcription of genes in a positive manner. The list of down regulated genes includes genes located within the Francisella Pathogenicity Island (FPI) that are essential for intracellular survival and virulence of Francisella tularensis. Furthermore, a mutant in FTL0552 or the comparable locus in Schu S4 (FTT1557c) may be an alternative candidate vaccine for tularemia.
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Regulation of clavam metabolite production in Streptomyces clavuligerusKwong, Thomas Unknown Date
No description available.
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Implication des systèmes à deux composants dans les réponses de Streptococcus thermophilus à des changements environnementaux, dont la coculture avec Lactobacillus bulgaricus. / Involvement of two-component systems in Streptococcus thermophilus response to environmental changes such as mixed culture with Lactobacillus bulgaricusThevenard, Benoît 23 September 2011 (has links)
S. thermophilus est une bactérie lactique largement utilisé dans l'industrie laitière et, comme toute bactérie, doit s'adapter à des environnements variés tels que le lait, le yaourt et même le tractus digestif, après que le produit ait été ingéré. Les systèmes à deux composants (TCS) constituent un des mécanismes essentiels qu'utilisent les bactéries pour percevoir et s'adapter à des changements environnementaux. D'un point de vue structural, les TCS sont constitués de deux composants: un « senseur » ou protéine histidine kinase (HK) qui s'auto-phosphoryle en réponse à un stimulus puis transfère son groupement phosphate au « response regulator » (RR), le deuxième composant. Celui-ci se comporte alors le plus souvent comme un régulateur transcriptionnel permettant une réponse physiologique adaptée. Afin de mieux comprendre ces phénomènes de régulation impliqués dans la réponse aux changements environnementaux, nous avons étudié la contribution de chacun des 8 TCS de Streptococcus thermophilus LMD-9 à son adaptation dans le lait. Ainsi, des études transcriptionnelles effectuées sur des cultures en lait montrent que tous les RR sont exprimés, à des niveaux et profils d'expression différents. Nous avons noté en coculture avec Lactobacillus bulgaricus, le partenaire de Streptococcus thermophilus dans le yaourt, une induction de l'expression de 4 RR qui atteint, pour rr02 et rr09, un facteur 6. Nous avons construit par ailleurs des mutants négatifs pour 7 des 8 RR de S. thermophilus et montré l'essentialité de RR05, un orthologue de YycF chez B. subtilis ou de or de WalR chez S. aureus. Pour les 7 autres mutants RR, l'absence d'un seul gène rr n'impacte pas suffisamment la croissance du streptocoque en lait. Enfin, la détermination du régulon du TCS06 par des études post-génomiques a permis de montrer que ce système est impliqué dans la résistance à la bacitracine en modulant entre autres la voie de biosynthèse du polysaccharide à rhamnose (RGP). / The lactic acid bacterium Streptococcus thermophilus is widely used in the dairy industry and, as a food bacterium, has to cope with changing environments such as milk, yogurt as well as the digestive tract, after the product has been ingested. Two-component systems (TCS), typically composed of a sensor kinase (HK) that detects a stimulus and of a response regulator (RR) which acts as a transcriptional regulator, are among the most prevalent means for bacteria to adapt to changing environments via fine-tune gene expression. To get a more comprehensive view of the role of all two-component systems in S. thermophilus physiology, we have investigated the contribution of each S. thermophilus LMD-9 TCS to its fitness and adaptation to milk. Transcriptomic studies (RT-qPCR) and construction of negative mutants of the rr genes were performed for LMD-9 S. thermophilus strain. We have shown that all LMD-9 response regulators were expressed in milk, at different levels and with different profiles of expression during growth. In mixed culture with Lactobacillus bulgaricus, the S. thermophilus partner in yoghurt, the expression of four LMD-9 rr increased; for two of them, rr02 and rr09, the increase reached a factor 6. These results indicate that Lb. bulgaricus induces regulatory changes in S. thermophilus and that S. thermophilus is able to adapt to these changes by probable fine tuning regulations. We constructed negative mutants for 7 out of 8 LMD-9 RRs and we showed that RR05 -an ortholog of B. subtilis YycF or S. aureus WalR- was essential for the optimum growth of S. thermophilus. For the 7 other RR, the absence of a single rr gene was not sufficient to notably impact the growth of LMD-9 in milk. The determination of the TCS06 regulon by post-genomics shows that TCS06 is involved in bacitracin resistance through the modulation of the rhamnose polysaccharide pathway.
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The Pseudomonas Aeruginosa Two-Component Regulator AlgR Directly Activates rsmA Expression in a Phosphorylation-Independent MannerStacey, Sean D., Williams, Danielle A., Pritchett, Christopher L. 01 September 2017 (has links)
Pseudomonas aeruginosa is an important pathogen of the immunocompromised, causing both acute and chronic infections. In cystic fibrosis (CF) patients, P. aeruginosa causes chronic disease. The impressive sensory network of P. aeruginosa allows the bacterium to sense and respond to a variety of stimuli found in diverse environments. Transcriptional regulators, including alternative sigma factors and response regulators, integrate signals changing gene expression, allowing P. aeruginosa to cause infection. The two-component transcriptional regulator AlgR is important in P. aeruginosa pathogenesis in both acute and chronic infections. In chronic infections, AlgR and the alternative sigma factor AlgU activate the genes responsible for alginate production. Previous work demonstrated that AlgU controls rsmA expression. RsmA is a posttranscriptional regulator that is antagonized by two small RNAs, RsmY and RsmZ. In this work, we demonstrate that AlgR directly activates rsmA expression from the same promoter as AlgU. In addition, phosphorylation was not necessary for AlgR activation of rsmA using algR and algZ mutant strains. AlgU and AlgR appear to affect the antagonizing small RNAs rsmY and rsmZ indirectly. RsmA was active in a mucA22 mutant strain using leader fusions of two RsmA targets, tssA1 and hcnA. AlgU and AlgR were necessary for posttranscriptional regulation of tssA1 and hcnA. Altogether, our work demonstrates that the alginate regulators AlgU and AlgR are important in the control of the RsmA posttranscriptional regulatory system. These findings suggest that RsmA plays an unknown role in mucoid strains due to AlgU and AlgR activities.
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