Global ETD Search

371	Characterization of two Bacillus subtilis penicillin-binding protein-coding genes, ykuA (pbpH) and yrrR (pbpI) Wei, Yuping 06 September 2002 (has links) Penicillin-binding proteins (PBPs) are required in the synthesis of the cell wall of bacteria. In Bacillus subtilis, PBPs play important roles in the life cycle, including both vegetative growth and sporulation, and contribute to the formation of the different structures of vegetative cell wall and spore cortex. The B. subtilis genome sequencing project revealed there were two uncharacterized genes, ykuA and yrrR, with extensive sequence similarity to class B PBPs. These two genes are renamed and referred to henceforth as pbpH and pbpI, respectively. A sequence alignment of the predicted product of pbpH against the microbial protein database demonstrated that the most similar protein in B. subtilis is PBP2A and in E. coli is PBP2. This suggested that PbpH belongs to a group of the genes required for maintaining the rod shape of the cell. Study of a pbpH-lacZ fusion showed that pbpH was expressed weakly during vegetative growth and the expression reached the highest level at the transition from exponential phase to stationary phase. The combination of a pbpA deletion and the pbpH deletion was lethal and double mutant strains lacking pbpH and pbpC or pbpI (also named yrrR) were viable. The viable mutants were indistinguishable from the wild-type except that the vegetative PG of the pbpC pbpH strain had a slightly slightly lower amount of disaccharide tetrapeptide with 1 amidation and higher amount of disaccharide tripeptide tetrapeptide with 2 amidations when compared to others strains. This suggests that PbpC (PBP3) is involved in vegetative PG synthesis but only affects the PG structure with a very low efficiency. A pbpA pbpH double mutant containing a xylose-regulated pbpH gene inserted into the chromosome at the amyE locus was constructed. Depletion of PbpH resulted in an arrest in cell growth and a dramatic morphological change in both vegetative cells and outgrowing spores. Vegetative cells lacking pbpA and pbpH expression swelled and cell elongation was arrested, leading to the formation of pleiomorphic spherical cells and eventual lysis. In these cells, cell septations were randomly localized, cell walls and septa were thicker than those seen in wild type cells, and the average cell width and volume were larger than those of cells expressing pbpA or pbpH. The vegetative PG had an increased abundance of one unidentified muropeptide. Spores produced by the pbpA pbpH double mutant were able to initiate germination but the transition of the oval-shaped spores to rod-shape cells was blocked. The outgrowing cells were spherical, gradually enlarged, and eventually lysed. Outgrowth of these spores in the presence of xylose led to the formation of helical cells. Thus, PbpH is apparently required for maintenance of cell shape, specifically for cell elongation. PbpH and PBP2a play a redundant role homologous to that of PBP2 in E. coli. A sequence alignment of the predicted product of pbpI against the microbial protein database demonstrated that the most similar protein in B. subtilis is SpoVD and in E. coli is PBP3. This suggested that PbpI belongs to the group of the genes required for synthesis of the spore or septum PG. PbpI was identified using radio-labeled penicillin and found to run underneath PBP4 on SDS-PAGE. PbpI is therefore renamed PBP4b. Study of a pbpI-lacZ fusion showed that pbpI was expressed predominantly during early sporulation. A putative sigma F recognition site is present in the region upstream of pbpI and studies using mutant strains lacking sporulation-specific sigma factors demonstrated that the expression of pbpI is mainly dependent on sigma factor F. A pbpI single mutant, a pbpI pbpG double mutant, and a pbpI pbpF double mutant were indistinguishable from the wild-type. The sporulation defect of a pbpI pbpF pbpG triple mutant was indistinguishable from that of a pbpF pbpG double mutant. Structure parameters of the forespore PG in a pbpI spoVD strain are similar to that of a spoVD strain. These results indicate that PBP4b plays a unknown redundant role. / Master of Science bacterial cell wall penicillin-binding protein (PBP) yrrR (pbpI) ykuA (pbpH) Bacillus subtilis
372	Requirements for Compartmentalization of Penicillin-Binding Proteins during Sporulation in Bacillus subtilis Dean, Amanda Marie 06 January 2003 (has links) Penicillin-binding proteins (PBP's) are membrane-associated enzymes involved in the polymerization of peptidoglycan. PBP's are divided into three classes based upon their molecular weights and functional domains. Gene expression is regulated in the two differentiated cells in Bacillus subtilis, the mother cell and the forespore, by coordinated expression of different sigma factors that recognize specific promoters in each compartment. The functional and compartmental specificity of individual penicillin-binding proteins from the different classes of PBP's were examined during sporulation in B. subtilis. Analyses of three class A high molecular weight PBP's indicated that pbpF and pbpG must be expressed in the forespore to carry out their specific role during spore peptidoglycan synthesis. Expressing pbpD in either the forespore or the mother cell could not complement for the loss of pbpF and pbpG, suggesting that there must be additional sequence information in PBP2c and PBP2d that allows them to carry out their specific role during germ cell wall synthesis. Analyses of a low molecular weight PBP, PBP5*, suggested that expressing dacB in either the mother cell or in the forespore could regulate the level of spore peptidoglycan cross-linking to what is typical of wild type spore peptidoglycan. / Master of Science Bacillus subtilis endospore penicillin-binding protein cortex PBP peptidoglycan sporulation spore peptidoglycan
373	Establishment and Utilization of Tools for Enhancing Foodfish Health Galagarza, Oscar Andres 29 January 2018 (has links) Aquacultured products assist the human demands for seafood so that foodfish supplies can remain sustainable and consistent. Although the fish-farming industry has seen dramatic growth and intensification in recent years, the latter has led to an increase in bacterial diseases and fish health management problems, resulting in major economic losses around the world. In addition to the lack of understanding of fish physiology, these complications are exacerbated by the inappropriate and controversial use of antibiotics. This work addressed these issues in striped catfish (Pangasius hypophthalmus) and Nile tilapia (Oreochromis niloticus), two economically important foodfish, by investigating alternative, more cost-effective options to promote fish health. The first two studies established reference intervals for immunology, hematology and plasma chemistry analytes in striped catfish in a recirculating aquaculture system (RAS). In a third study, the immunomodulatory effects after directly feeding probiotic strains of Bacillus subtilis NZ86 and O14VRQ in Nile tilapia were ascertained. This last study revealed that supplementation with both of the probiotic strains for 51 days stimulated several local and systemic innate immune responses of tilapia. When these transient probiotic bacteria were present in the gut, a pro-inflammatory environment was developed as evidenced by the localized higher expression of the cytokines tumor necrosis factor (TNF) – α and interleukin (IL) – 1β. Significant increases (p < 0.05) were noted differentially by both probiotic strains throughout the trial in plasma lysozyme content, alternative complement activity, and in the peripheral blood leukocyte profiles. Additionally, there were trends for increased levels of phagocytosis and respiratory burst in leukocytes of the anterior kidney and spleen at the end of the trial, suggesting the potential use of these probiotic strains for improved immune-competence. These findings help to understand and clarify the potential mechanism of action associated with the increased disease resistance recorded in preliminary studies with the same probiotic strains. Implementation of the tools established and validated in this work could be useful in evaluating fish welfare situations involving striped catfish grown in RAS conditions, and also show promise for a healthier foodfish supply where antibiotic applications practices could be minimized. / Ph. D. / Aquaculture, or fish farming, is one of the most prosperous production sectors of animal-derived food. Despite the success story of aquaculture, the fish industry is heavily plagued by bacterial diseases, which cause losses in billions of dollars annually around the world, and directly contribute to increases in human food insecurity. Since the options to cost-effectively address diseases are limited, I explored alternative ways to more safely monitor and also ensure optimal health in striped catfish and tilapia, two globally important aquaculture fishes. I investigated the values of different cellular and chemical components of the blood to monitor the health of striped catfish when grown in indoor recirculating conditions, in order to understand normal catfish physiology. The values of these blood components were comparable to those of other freshwater fishes. As part of another study, I supplemented probiotics in the diet of the tilapia for 51 days, and assessed the effects of these on the immune system of the fish. Dietary supplementation of the probiotics resulted in the presence of the probiotics in the gut of the fish. Furthermore, the presence of these microbes was tightly linked to elevated values of numerous functions of the immune system. These functions included levels of lysozyme, alternative complement, and percentage of neutrophils, which are all related with a state of heightened immunity in the animal host. The tools that I established and validated in this study are promising alternatives to optimize the health of these two important foodfish. Moreover, they could be useful for the fish farmer because of their greater cost-effectiveness, and can potentially lead to a safer foodfish supply by decreasing the reliance on antibiotics. tilapia striped catfish Bacillus subtilis probiotics reference intervals hematology immunity recirculating aquaculture systems
374	Effets de Bacillus subtilis et de Bacillus Licheniformis utilisés comme probiotiques sur la concentration en acides gras à chaîne ramifiée du lait et sur les performances des vaches laitières Lamontagne, Jérome 27 January 2024 (has links) L’objectif de ce projet de recherche était de déterminer les effets d’une supplémentation de probiotiques du genre Bacillus sur les performances de production de vaches de race holstein en mi-lactation et sur le profil en acides gras de leur lait. Pour ce faire, six vaches multipares porteuses d’une canule ruminale ont été utilisées selon un dispositif en chassé croisé répliqué et randomisé. Les vaches ont ainsi reçu soit 200 g/j de poudre de lactosérum comme traitement témoin ou 200 g/j de BioPlus 2B (Chr Hansen, Milwaukee, WI), un probiotique commercial de Bacillus subtilis et de Bacillus licheniformis, représentant un apport quotidien de 6,4 × 10¹¹ UFC et utilisant la poudre de lactosérum comme diluant. La production laitière, la composition du lait et son profil en acides gras, les paramètres de fermentation ruminale et le microbiote ruminal ont été évalués. Les traitements n’ont pas affecté les performances laitières. L’utilisation du probiotique a cependant augmenté la concentration relative d’anteiso 13:0 et d’anteiso 15:0 et tendait à augmenter la concentration totale d’acides gras à chaîne ramifiée dans les matières grasses du lait lorsque comparé au traitement témoin. Les traitements n’ont pas modifié le pH, l’azote ammoniacal ou les concentrations en acétate, propionate et butyrate du rumen. Cependant,le probiotique a augmenté la concentration ruminale d’isovalérate et tendait à augmenter celle de l’isobutyrate. Cette expérience a permis d’observer la sensibilité du profil en acides gras du lait face aux modifications du microbiote ruminal. Les bactéries probiotiques du genre Bacillus pourraient donc être utilisées dans un protocole de maximisation des acides gras à chaîne ramifiée du lait pour permettre une augmentation du niveau de ces acides gras dans les produits laitiers. / The aim of the study was to determine the effect of a Bacillus-based direct-fed microbial on dairy performance of mid-lactating Holstein dairy cows and on their milk fatty acid composition. To this end, six multiparous cows fitted with a rumen cannula were used in a randomized replicated crossover design. Cows received 200 g/d of either whey powder, as a control, or BioPlus 2B (Chr Hansen, Milwaukee, WI), a commercial direct-fed microbial providing Bacillus subtilis and Bacillus licheniformis, representing a daily dose of 6.4 ×10¹¹ cfu, and using whey powder as a carrier. Milk production, composition and fatty acid profile, as well as ruminal parameters and microbiota were evaluated. Bacillus concentrationin the rumen increased with the addition of the direct-fed microbial supplement. Treatmentdid not affect ruminal pH, NH3-N and concentrations of acetate, propionate, and butyrate.However, direct-fed Bacillus increased ruminal concentration of isovalerate and tended to increase the concentration of isobutyrate. Treatments did not affect milk performance. The direct-fed Bacillus increased the relative concentration of anteiso 13:0 and anteiso 15:0 in milk fat, and tended to increase total concentration of branched-chain fatty acids as compared with control. This trial indicates that milk fatty acid composition is sensitive to ruminal microbiota modifications. Direct-fed Bacillus could be used as part of a standard protocol aiming to produce milk enriched in branched-chain fatty acids. Probiotiques. Bacillus subtilis. Bacillus licheniformis. Bovins laitiers -- Alimentation. Acides gras.
375	Caractérisation structurale et fonctionnelle d'oxyde nitrique synthases bactériennes Chartier, François 13 April 2018 (has links) Tableau d’honneur de la Faculté des études supérieures et postdoctorales, 2007-2008. / La découverte d’oxyde nitrique synthases (NOS) chez les bactéries a imposé un questionnement quant à la fonction de l’oxyde nitrique (NO) chez les microorganismes. Chez les mammifères, le NO remplit des fonctions de signalisation et de stress pour lesquelles il n’y a aucun équivalent chez les bactéries. Des études ont démontré que in vitro, comme chez les NOS animales (mNOS), les NOS bactériennes (bNOS) peuvent catalyser la conversion du L-arginine en L-citrulline et libérer du NO. Cependant, il a été découvert que les bNOS de Deinococcus radiodurans et Streptomyces turgidiscabies pouvaient catalyser la nitrosation de groupements trytophanyles. Jusqu’à maintenant ces études soutiennent l’hypothèse que les bNOS synthétisent du NO lors d’un processus de catalyse semblable à celui des mNOS. Cependant, elles indiquent que sa fonction pourrait être de modifier une molécule au site du cofacteur. Nous avons proposé l’étude des propriétés cinétiques et structurales des bNOS de Bacillus subtilis (BsNOS) et Staphylococcus aureus (SaNOS) afin d’investiguer le mécanisme catalytique des bNOS, d’approfondir les connaissances de la catalyse chez les NOS en général et d’explorer les particularités de ces enzymes susceptibles de révéler leur fonction. Nos études ont porté sur les caractéristiques structurales du site actif de SaNOS et BsNOS, sur les cinétiques de formation et de disparition du complexe oxygéné chez SaNOS, sur les interactions des substrats avec les ligands de l’hème et sur le rôle du cofacteur chez les bNOS. Nos résultats montrent que SaNOS et BsNOS peuvent catalyser les mêmes réactions biochimiques que les mNOS et apportent des éléments nouveaux permettant de mieux comprendre le mécanisme d’activation du complexe oxygéné, une étape cruciale à la catalyse. Par ailleurs, certaines ressemblances observées entre SaNOS, BsNOS et les mNOS ont révélé des propriétés conservées chez ces enzymes qui sont importantes pour la production et la fonction du produit synthétisé. Notamment la spécificité des interactions des différents substrats avec les ligands de l’hème et la déformation de la molécule d’hème. Cependant des différences reliées aux effets structuraux du cofacteur ont été observées et s’ajoutent à celles découvertes chez les autres bNOS qui indiquent que la fonction de ces enzymes pourrait se distinguer de celle des mNOS. / The discovery of nitric oxide synthases (NOS) in bacteria has raised many questions regarding the function nitric oxide (NO) might fulfill in prokaryotes. In mammals, NO is implicated in signal and stress events for which no equivalent functions exist in bacteria. In vitro studies have revealed that, like mammalian NOS (mNOS), bacterial NOS (bNOS) catalyze the hydroxylation of L-arginine to L-citrulline and release NO. In addition, it has been shown that the bNOS of Deinococcus radiodurans and Streptomyces turgidiscabies catalyse the nitrosation of tryptophanyl compounds. As of now these studies support the hypothesis that bNOS synthesize NO in a catalytic process similar to the one described for mNOS. However, these studies also indicated that the newly synthesized NO might be used to modify a molecule bound to the cofactor binding site. We proposed the investigation of the kinetic and structural properties of the bNOS of Bacillus subtilis (BsNOS) and Staphylococcus aureus (SaNOS) to probe the catalytic mechanism of bNOS, deepen our understanding of catalysis in NOS and explore the distinctive features of these new enzymes that might reveal their function. Our studies targeted the structure of the active site of SaNOS and BsNOS, the kinetics of formation and decay of the oxygenated complex of SaNOS, the interactions of the substrates with heme-bound ligands and the function of the cofactor in bNOS. Our results support the proposal that bNOS are able to catalyze the same biochemical reactions than those carried out by mNOS and bring new information that provide us with a better understanding of the mechanism of oxygen activation, a crucial step during catalysis. In addition the observation of some similarities between SaNOS, BsNOS and mNOS revealed conserved features in these enzymes that are important for the synthesis and function of the product. Notably the specificity of the interactions the two substrates make with the heme-bound ligands and the deformation of the heme molecule. Meanwhile structural differences related to the cofactor have been observed, and in addition to those observed in the other bNOS, point to a novel function for these enzymes. QU 7.5 UL 2007 Staphylococcus aureus -- Métabolisme Bacillus subtilis -- Métabolisme
376	Influence des agents phytopathogènes sur la production de lipopeptides et le protéome de Bacillus subtilis Cossus, Louis 27 January 2024 (has links) La bactérie Bacillus subtilis est considérée comme une solution alternative aux pesticides conventionnels pour la gestion des agents phytopathogènes. Les mécanismes de biocontrôle de cette bactérie sont multiples et reposent fortement sur la production de lipopeptides. A l'heure actuelle, l'influence des mycètes/oomycètes phytopathogènes sur la physiologie et les mécanismes de biocontrôle de B. subtilis est peu connue. L'objectif de ce projet de doctorat était d'étudier chez B. subtilis l'influence de différents mycètes/oomycètes phytopathogènes sur les mécanismes de biocontrôle et plus particulièrement sur la production de lipopeptides. Dans un premier temps, les lipopeptides produits par B. subtilis PTB185 ont été caractérisés par spectrométrie de masse et une méthode permettant leur quantification relative a été développée à l'aide d'un MALDI-TOF. Cette première étape a permis de montrer que la souche PTB185 produit de la surfactine, de l'iturine et de la fengycine. Les essais de confrontation sur gélose ont montré que l'activité antagoniste et la production de lipopeptides par B. subtilis variaient significativement (P ≤ 0.05) selon l'agent pathogène testé. Aucune corrélation entre la production de lipopeptides et l'activité antimicrobienne de B. subtilis n'a toutefois été observée. Le mycélium autoclavé des agents phytopathogènes a également influencé significativement les quantités de lipopeptides produites par B. subtilis en milieu liquide. La production de fengycine et/ou d'iturine a augmenté significativement en présence du mycélium de Botrytis cinerea, Mucor sp., Pythium ultimum ou Rhizoctonia solani, alors que l'addition de mycélium n'a pas affecté de façon significative la production de surfactine, en comparaison avec le traitement témoin. Les bactéries cultivées en milieu liquide en présence du mycélium de Mucor sp. ont causé une réduction significativement plus importante de la croissance de B. cinerea, R. solani et S. sclerotiorum, comparativement aux bactéries cultivées en absence de mycélium. Ces résultats montrent pour la première fois l'influence du mycélium autoclavé des agents phytopathogènes sur l'activité antagoniste et la production de fengycine/iturine chez B. subtilis. Une étude plus approfondie de l'influence du mycélium autoclavé et des composés extracellulaires des mycètes/oomycètes phytopathogènes sur B. subtilis PTB185 a par la suite été réalisée en protéomique. Le mycélium autoclavé de tous les agents phytopathogènes testés a fortement inhibé les protéines associées au métabolisme et à la biosynthèse de la thiamine chez la bactérie. Le mycélium autoclavé de Mucor sp. a fortement stimulé les protéines associées au « phage-like element PBSX » et fortement diminué celles du métabolisme et de la biosynthèse de la biotine. Les composés extracellulaires de P. ultimum ont diminué les protéines associées à la formation des flagelles et stimulé celles associées à la production de subtilosine. Le mycélium autoclavé et les composés extracellulaires de R. solani ont augmenté de façon importante les protéines associées à la synthèse de sidérophores. Les composés extracellulaires de S. sclerotiorum ont pour leur part très faiblement impacté le protéome de la bactérie. Les résultats de cette étude, en plus de témoigner de l'influence des interactions biotiques sur la production des lipopeptides, apportent des informations supplémentaires quant à l'influence de ces dernières sur la physiologie/les mécanismes de biocontrôle de B. subtilis. Enfin, cette étude offre de nouvelles perspectives pour optimiser le milieu de culture de B. subtilis à des fins biotechnologiques. / The bacterium Bacillus subtilis is considered as a promising alternative to conventional pesticides for plant disease management. The mechanisms underlying the biocontrol properties of this bacterium are multiple and are closely related to the production of lipopeptides. Currently, little is known about the influence of plant pathogenic fungi/oomycetes on B. subtilis physiology and biocontrol mechanisms. The objective of this doctoral research project was to study the influence of fungi/oomycetes on B. subtilis biocontrol mechanisms, especially on the production of lipopeptides. In the first instance, the lipopeptides produced by B. subtilis PTB185 were characterised by mass spectrometry and a method allowing the relative quantification of these compounds was developed using MALDI-TOF instrumentation. This first step displayed the capacity of strain PTB185 to produce surfactin, iturin, and fengycin. Confrontation assays conducted on agar showed that B. subtilis antagonistic activity and production of lipopeptides vary significantly (P ≤ 0.05) according to the pathogen tested. However, no correlation between lipopeptides production and B. subtilis antimicrobial activity was observed. Autoclaved mycelia of plant pathogens were also shown to significantly influence the quantities of lipopeptides produced by B. subtilis in liquid culture. Fengycin and/or iturin were produced in significantly higher amounts in presence of mycelium of Botrytis cinerea, Mucor sp., Pythium ultimum, or Rhizoctonia solani, while addition of mycelium in the medium did not significantly affect surfactin production as compared to the control. Bacteria grown in liquid medium amended with Mucor sp. mycelium caused a significantly higher reduction of mycelial growth of B. cinerea, R. solani, and Sclerotinia sclerotiorum as compared to the bacteria grown with no mycelium. These results show for the first time the influence of autoclaved plant pathogen mycelium on B. subtilis antagonistic ability and production of fengycin/iturin. The influence of autoclaved mycelia and extracellular compounds of plant pathogenic fungi/oomycetes on B. subtilis was further investigated by proteomics. Autoclaved mycelium of all tested pathogens strongly inhibited the proteins associated with B. subtilis thiamine metabolism and biosynthesis. Autoclaved mycelium of Mucor sp. strongly increased proteins associated with the phage-like element PBSX and strongly decreased those related to biotin metabolism and biosynthesis. Extracellular compounds of P. ultimum reduced proteins associated with flagellar assembly and stimulated those related to the production of subtilosin. Autoclaved mycelium and extracellular compounds of R. solani strongly increased proteins associated with the production of siderophores. Extracellular compounds of S. sclerotiorum barely affected the proteome of the bacterium. The results of this study, besides providing additional evidence of the influence of biotic interactions on lipopeptides production, give further information on the influence of the latter on B. subtilis physiology and biocontrol mechanisms. Finally, this study provides new insights into the optimisation of the culture medium to grow B. subtilis for biotechnological applications. Bacillus subtilis. Champignons. Oomycètes. Lipides. Peptides. Protéomes.
377	Intramembrane signal transduction and cell envelope stress response in <i>Bacillus subtilis</i> / Intramembrane Signaltransduktion und Zellhüllstress-Antwort in <i>Bacillus subtilis</i> Jordan, Sina 01 November 2007 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Zellhüllstress Bacillus subtilis Zweikomponenten-System Regulation cell envelope stress Bacillus subtilis two-component system regulation 42.3
378	Desenvolvimento de sistema de esterilização por plasma: eficácia inerente e comparativa com óxido de etileno / Development of a plasma sterilization system: inherent and comparative efficacy with ethylene oxide Silva, Juliano de Morais Ferreira 10 August 2006 (has links) Estudos envolvendo o emprego de novas técnicas de esterilização têm apresentado nítido crescimento nos últimos anos como alternativa aos processos convencionais. A grande possibilidade consiste no emprego do plasma como agente de esterilização. Essa tecnologia tem considerável potencial para desenvolver o meio mais eficiente e seguro de esterilização de artigos termossensíveis com ênfase para a indústria farmacêutica e médica e até mesmo em outras áreas industriais. O objetivo deste trabalho foi investigar a influência de alguns parâmetros de processos por plasma e correlacionar sua eficácia com processos por óxido de etileno. Neste trabalho, estudos foram realizados empregando tecnologia de esterilização por plasma usando reator Reactive Ion Etching (RIE). Os valores aplicados de potências de rádio-frequência, a 13,56 MHz foram 25 W, 50 W, 100 W e 150 W. Os gases testados foram oxigênio puro e misturas de oxigênio e peróxido de hidrogênio (190/10, 180/20 e 160/40 sccm) e fluxo constante de 200 sccm, pressão de 0,100 torr e temperatura abaixo de 60°C. Esterilizador por óxido de etileno foi empregado a 450 mg/L (Oxyfume 2002®), 55°C, 60% de umidade e -0,65 e 0,60 kgf/cm2 de pressão. Os indicadores biológicos empregados foram constituídos de esporos de Bacillus subtilis var. niger ATCC 9372, inoculados em lamínulas de vidro de 18 x 18 mm e discos de papel de 13 mm de diâmetro em uma carga de 2,0 x 107 UFC/suporte. Os tempos de exposição aos processos por plasma foram de 3 a 120 minutos. Reduções progressivas da contagem inicial de microrganismos foram observadas nos valores D: 215,91,55,55,9,19 e 2,91 minutos para processos por plasma com oxigênio puro, a 25 W, 50 W, 100 W e 150 W, respectivamente. Misturas de oxigênio e peróxido de hidrogênio apresentaram os seguintes valores D: 190/10 sccm (6,41 min), 180/20 sccm (6,47 min) e 160/40 sccm (4,02 min), a 100 W e 190/10 sccm (1,47 min), 180/20 sccm (3,11 min) e 160/40 sccm (1,94 min), a 150 W. Processos empregando óxido de etileno apresentaram valor D de 2,86 minutos. Análises por Microscopia Eletrônica de Varredura demonstraram danos causados ao córtex dos esporos. Sistema empregando plasma como principal agente de esterilização apresentou-se efetivo em desafios com indicadores biológicos. Os processos por plasma provaram ser a mais apropriada tecnologia de esterilização de materias termossensíveis e com grande potencial para substituir os métodos convencionais de esterilização em futuro próximo. / Studies involving new sterilization techniques have increased in the past few years as alternatives to conventional processes. The great possibility consists in the use of plasma as sterilization agent. This technology has the enormous potential to develop a more efficient and safer means of sterilization at thermo-sensitive matters, focusing the pharmaceutical and medical industry - even though it can be applied to other industrial areas. The aim of the present study was to investigate the influence at some parameters of plasma processes and correlate the effectiveness plasma with ethylene oxide sterilizer. In this work, studies were performed taking into account a plasma sterilization technology using a Reactive Ion Etching (RIE) reactor. Power was applied at 13.56 MHz using a 6 inch diameter electrode. The gases tested were pure oxygen and oxygen-hydrogen peroxide mixtures (190/10, 180/20, and 160/40 sccm), and gas flow held constant 200 sccm, pressure at 0.100 torr and radio-frequency power at 25 W, 50 W, 100 W, and 150 W and temperature below 60°C. Ethylene oxide sterilizer were performed using 450 mg/L (Oxyfume 2002®) at 55°C, 60% humidity and -0.65 and 0.60 kgf/cm2 pressure. The biological indicator used was Bacillus subtilis var. niger ATCC 9372, witch was inoculated in glass carries (18 x 18 mm) and paper discs (13 mm diameter) in a load of 2.0 x 107 CFU/support. The exposition times were 3 to 120 minutes. Progressive reductions of the initial microbial count could be observed in the D values witch were 215.91, 55.55, 9.19, and 2.91 minutes for pure oxygen plasma at 25 W, 50 W, 100 W and 150 W, respectively. Oxygen-hydrogen peroxide mixtures plasma showed D values: 190/10 sccm (6.41 min), 180/20 sccm (6.47 min) and 160/40 sccm (4.02 min) at 100 W and 190/10 sccm (1.47 min), 180/20 sccm (3.11 min) and 160/40 sccm (1.94 min) at 150 W. Ethylene oxide processes showed D value to 2.86 minutes. Scanning Electron Microscopy analyses showed some damage on the spore cortex. Processes using plasma as main sterilization agent are presented effective in challenge with biological indicators. The plasma proved to be the most appropriate sterilization technology in thermosensitive matters and to have a great potential to replace conventional sterilization methods in the near future. Bacillus subtilis var. niger ATCC 9372 Bacillus subtilis var. niger ATCC 9372 Biological control of drug quality Esterilização Ethylene oxide Óxido de etileno Plasma (Use) Plasma (Uso) Sterilization
379	Desenvolvimento de uma estratégia vacinal dose-reforço heterológo baseada em linhagens recombinantes de Bacillus subitilis para o controle de Spreptococcus mutans. / Development of a heterologous reinforcement dose vaccine strategy based on recombinant strains of Bacillus subtilis for the control of Streptococcus mutans. Silva, Dalva Adelina da 16 March 2018 (has links) A cárie dental é uma doença bacteriana infecciosa considerada como um dos principais problemas de saúde pública. O principal agente etiológico para o desenvolvimento da doença é o Streptococcus mutans. A proteína P1, também conhecida como antígeno I/II, do S. mutans é fundamental para a etapa inicial de adesão à superfície dental (sacarose-independente), sendo, portanto, considerada essencial para o processo de colonização deste patógeno. Algumas regiões dessa proteína vêm sendo empregadas como antígenos em estratégias vacinais contra a cárie, entre elas a região A, localizada na porção N-terminal, conhecida como região de ligação à saliva Saliva Binding Region (SBR). No entanto, apesar dos avanços, não existe vacina para a prevenção da cárie licenciada para uso em humanos. Diante disso, o presente trabalho tem como objetivo o desenvolvimento e caracterização de uma nova estratégia vacinal contra o S. mutans baseada em esquema de dose-reforço heterólogo, utilizando o fragmento P139-512, na forma de proteína purificada, expressa a partir de linhagens recombinantes de Bacillus subtilis. A proteína P139-512 compreende os aminoácidos 39-512 da proteína nativa, o que corresponde a toda região A e uma pequena porção da região variável da proteína P1. Utilizamos esporos de B. subtilis 1012, modificados para expressar o antígeno P139-512 (LDV702). A linhagem LDV704, além de expressar o antígeno, foi modificada para expressar uma invasina (InvA) com capacidade de se ligar a epitélios de mucosa. Camundongos da linhagem BALB/c foram imunizados por via sublingual com uma dose de esporos de B. subtilis (linhagens 1012, LDV702, LDV704 ou PBS) seguidos por dois reforços com a proteína P139-512, associada ou não com o adjuvante LTK63. Níveis significativos de anticorpos séricos foram induzidos pelas formulações em associação com o adjuvante após a terceira dose, e mostraram-se capazes de reconhecer os epítopos em diferentes linhagens de S. mutans. No entanto, nenhuma das formulações mostrou-se capaz de ativar respostas de mucosa (S-IgA). Porém, observamos que o adjuvante LTK63 empregado na estratégia dose-reforço heterólogo potencializou a resposta sérica de anticorpos IgG, sendo capaz de modular e melhorar qualitativamente as respostas induzidas. Assim, a administração das formulações na presença do adjuvante representa uma alternativa promissora para o controle do S. mutans. / Dental caries is an infectious bacterial disease considered as one of the main public health problems. The main etiological agent for the development of the disease is the Streptococcus mutans. The P1 protein, also known as S. mutans Ag I / II antigen, is essential for the initial stages of adhesion to the dental surface (sucrose-independent) and is, therefore, considered essential for the colonization process of this pathogen. Some regions of this protein have been used as antigens in vaccine strategies against caries, among them the A region, located at the amino terminal region also known as the Saliva Binding Region (SBR). However, despite the advances, there is no licensed anti-caries vaccine for human use. Therefore, the present work aims to develop and characterize a new vaccine strategy against S. mutans based on a heterologous priming/boost immunization regimen using the recombinant P139-512 fragment, expressed and purified from a Bacillus subtilis strain. The P139-512 protein comprises amino acids that encompasses the entire A region and a small portion of the variable region of the P1 protein. We used spores of B. subtilis 1012 (wild-strain) and recombinants that were modified to express the antigen P139-512 (LDV702). In addition to express the antigen, the LDV704 strain was modified to express a surface-exposed bacterial invasin (InvA) capable of binding to the mucosal epithelia. BALB/c mice were primed via the sublingual route with a dose of B. subtilis spores (1012, LDV702, or LDV704 strains) followed by two boosting doses with the purified protein P139-512, associated or not with the LTK63 adjuvant, by the same administration route. Significant serum antibody levels were induced by the formulations with the adjuvants after the third dose and the antibodies were shown to recognize epitopes exposed on the surface of different S. mutans strains. However, none of the formulations were capable to activate mucosal responses (S-IgA). Nevertheless, we observed that the LTK63 enhanced the serum IgG responses and qualitatively improved the induced antibody response. Thus, the administration of the formulations in the presence of the adjuvant represents a promising alternative for the control of S. mutans. Bacillus subtilis Bacillus subtilis Streptococcus mutans Streptococcus mutans Cárie dental Dental caries Imunização sublingual Mucosal vaccines Prime-boost immunization regimen Regime vacinal dose-reforço heterólogo Sublingual immunization Vacinas de mucosa
380	Einsatz von Bacillus subtilis und Lactobacillus-Stämmen zur Entwicklung und Gestaltung technischer Vegetationssysteme für die Gleisbett-Naturierung Dunya, Sadif 25 April 2005 (has links) Das Ziel der Arbeit war die Entwicklung einer Begrünungsmethode für Gleisbette mit schneller Vegetationsentwicklung. Zur Begrünung wurden Sedumpflanzen verwendet, die durch den Einsatz von Bacillus subtilis, Lactobacillus und Nährsubstrat (allein und kombiniert) in verschiedenen Vegetationssystemen auf dem nährstoffarmen Standort Gleisbett etabliert werden sollten. Die Aktivität der inokulierten Mikroorganismen wurde indirekt über den Einfluss auf die Vegetationsleistung ermittelt. Der Einsatz von B. subtilis und Lactobacillus bewirkte eine signifikante Wachstumsförderung der oberirdischen Pflanzenteile. Die Anwendung von Nährsubstrat als Bodenhilfsmittel war ebenfalls für das Pflanzenwachstum besonders wirksam, sowohl allein appliziert als auch in Kombination mit den Bakterien. Darüber hinaus führte die Applikation der Bakterien und des Nährsubstrates zu einem reduzierten Trockenstress auf Geotextilmatten. Die Wahl des Substrates war entscheidend für die Wirksamkeit der Bakterieninokulation. Jedoch hatten höhere Versuchstemperaturen und pH-Werte ebenfalls eine positive Wirkung auf das Pflanzenwachstum. Diese Einflüsse waren in Kombination mit Ziegelbruchsubstrat wesentlich stärker als mit den anderen getesteten Substrattypen. Das Ziegelbruchsubstrat kombiniert mit einer Bakterien- und Nährsubstratbehandlung bewährte sich als günstiges, umweltschonendes Begrünungsverfahren von Gleisbettanlagen. / The aim of the present study was to develop and improve existing methods for the remediation of rail tracks using soil borne bacteria. Through the use of Bacillus subtilis and Lactobacillus ssp. alone and in combination with a nutrient solution three different growth substrates were tested. The substrates were brick chips, textile mats, and mineral wool mats. Brick chips were tested along railway tracks in Munich but all three substrates were tested along an artificial rail track on the experimental station at the Humboldt University-Berlin. Plants selected for remediation belong to the genus Sedum, which is relatively tolerant to dry conditions. The use of Bacillus subtilis and Lactobacillus in combination with a nutrient solution improved plant growth significantly. Plants inoculated with bacteria showed increased growth during the first three months but after four months there was no longer any significant difference between treatments. The addition of nutrient solution alone improved plant growth. Plant growth was significantly different on all three substrates, whereas brick chips were the best substrate. The results of this study indicate that the quality of the substrate is the most important factor for remediation and greening of rail tracks. Both bacteria tested had only a limited effect. High temperature and pH resulted in larger Sedum plants in the open field. Brick chips are a cheap substrate which can be used for rail track greening. The rapid growth of plants can be influenced by the application of an additional nutrient solution as well as inoculation with Lactobacillus and/or B. subtilis. Bacillus subtilis Lactobacillus Gleisbett-Naturierung Sukkulenten Pflanzenwachstum Bacillus subtilis Lactobacillus rail track vegetation succulents plant growth 630 Landwirtschaft, Veterinärmedizin 39 Landwirtschaft, Garten QR 820 WF 2100 WI 5020 AR 18600 ddc:630

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